英文翻译机械自动化类
机械学英语
机械学英语
机械学(Mechanical Engineering)涉及广泛的工程领域,涵盖机械设计、制造、材料、热力学、控制等多个方面。
以下是一些常见的机械学英语术语及其解释:
1. Mechanical Engineering - 机械工程
2. Thermodynamics - 热力学
3. Fluid Mechanics - 流体力学
4. Mechanics - 力学
5. Materials Science - 材料科学
6. Manufacturing Processes - 制造工艺
7. Control Systems - 控制系统
8. Robotics - 机器人技术
9. Kinematics - 运动学
10. Dynamics - 动力学
11. Statics - 静力学
12. Heat Transfer - 热传导
13. Machine Design - 机械设计
14. CAD/CAM - 计算机辅助设计/计算机辅助制造
15. Vibration Analysis - 振动分析
16. Finite Element Analysis (FEA) - 有限元分析
17. Hydraulics - 液压学
18. Pneumatics - 气动学
19. Turbomachinery - 涡轮机械
20. Engineering Drawing - 工程制图
这些术语是在机械工程领域中常见的英语专业术语,涵盖了机械工程学科的各个方面。
深入学习这些术语可以帮助理解和掌握机械工程相关的知识和技术。
机械类专业英语翻译
Flexible and Smart Online Monitoring and Fault Diagnosis System for Rotating Machinery柔性的和智能的在线监测与故障诊断的旋转机械系统AbstractMonitoring the vibration signals of rotating machinery, ulteriorly, assessing the safety of equipment plays a significant role in ensuring the security of equipment and in saving maintenance fee. This paper integrated the idea of “configuration” in the industry control software, developed the “flexible” network-based online monitoring and fault diagnosis system. The network topology, configuration module, database, data acquisition workstation and monitoring components were presented. With the smart data acquisition strategy and strong adaptive monitoring tools, the system can be applied on kinds of rotating machinery, and the practical application of the system was introduced.Keywords – online monitor, flexible system, smart system, configuration, rotating machinery旋转机械振动信号的监测,进一步地说,在确保设备的安全性和节省维修费用上设备安全性的评估起到非常重要的角色。
各专业英文翻译
法学 Law Study英语 English日语 Japanese信息与计算科学 Information and Computation Science应用物理学 Applied Physics冶金工程 Metallurgical Engineering金属材料工程 Metallic Materials Engineering无机非金属材料 Inorganic Nonmetallic Materials材料成型及控制工程 Material Formation and controlEngineering高分子材料与工程 Multimolecular Materials and Engineering工业设计 Industrial Disign建筑学 Architecture城市规划 City Planning艺术设计 Artistical Disign包装工程 Packaging Engineering机械设计制造及自动化Machine Disign,Manufacturing,and Automation热能与动力工程 Thermal and Power Engineering水利水电工程 WaterConservance and Electro-power Engineering测控技术与仪器 Technique and Instrumentation of Measurements电气工程及其自动化 Electric Engineering and its Automation自动化 Automation通信工程 Communication Engineering电子信息科学与技术 Sience and Technology of Electronic Information 计算机科学与技术 Computer Sience and Technology土木工程 Civil Engineering工程管理 Project Management给水排水工程 Water Supply and Sewage Engineering建筑环境与设备工程 Constructional Environment and Equipment Engineering 过程装备与控制工程 Processing Units and Control Engineering环境工程 Environmental Engineering化学工程与工艺 Chemacal Engineering and Technology安全工程 Safty Engineering工商管理 Industrial and Commercial Management市场营销 Market Management and Sales会计学 Accounting旅游管理 Tourism Management信息管理与信息系统 Information Management and System金融学 Finance国际经济与贸易 International Economy and Trade食品科学与工程 Food Sience and Engineering生物工程 Biological Engineering纺织工程 Textile Engineering建筑环境与设备工程、Constructional Environment and Equipment Engineering 过程装备与控制工程、Processing Units and Control Engineering现代家政学、 Modern Domestic Science运动训练科学系、 Sports Train Science食品营养与检测、 Food Nutrition and Detect国际新闻、 International News体育健康教育系 Sports Health Education哲学 Philosophy马克思主义哲学 Philosophy of Marxism中国哲学 Chinese Philosophy外国哲学 Foreign Philosophies逻辑学 Logic伦理学 Ethics美学 Aesthetics宗教学 Science of Religion科学技术哲学 Philosophy of Science and Technology经济学 Economics理论经济学 Theoretical Economics政治经济学 Political Economy经济思想史 History of Economic Thought经济史 History of Economic西方经济学 Western Economics世界经济 World Economics人口、资源与环境经济学 Population, Resources and Environmental Economics应用经济学 Applied Economics国民经济学 National Economics区域经济学 Regional Economics财政学(含税收学) Public Finance (including Taxation)金融学(含保险学) Finance (including Insurance)产业经济学 Industrial Economics国际贸易学 International Trade劳动经济学 Labor Economics统计学 Statistics数量经济学 Quantitative Economics中文学科、专业名称英文学科、专业名称国防经济学 National Defense Economics法学 Law法学 Science of Law法学理论 Jurisprudence法律史 Legal History宪法学与行政法学 Constitutional Law and Administrative Law 刑法学 Criminal Jurisprudence民商法学(含劳动法学、社会保障法学) Civil Law and Commercial Law (including Science of Labour Law and Science of Social Security Law )诉讼法学 Science of Procedure Laws经济法学 Science of Economic Law环境与资源保护法学 Science of Environment and Natural Resources Protection Law国际法学(含国际公法学、国际私法学、国际经济法学、) International law (including International Public law, International Private Law and International Economic Law)军事法学 Science of Military Law政治学 Political Science政治学理论 Political Theory中外政治制度 Chinese and Foreign Political Institution科学社会主义与国际共产主义运动 Scientific Socialism and InternationalCommunist Movement中*史(含党的学说与党的建设) History of the Communist Party of China(including the Doctrine of China Party and Party Building) 马克思主义理论与思想政治教育 Education of Marxist Theory and Education in Ideology and Politics国际政治学 International Politics国际关系学 International Relations外交学 Diplomacy社会学 Sociology社会学 Sociology人口学 Demography人类学 Anthropology民俗学(含中国民间文学) Folklore (including Chinese Folk Literature)民族学 Ethnology民族学 Ethnology马克思主义民族理论与政策 Marxist Ethnic Theory and Policy 中国少数民族经济 Chinese Ethnic Economics中国少数民族史 Chinese Ethnic History中国少数民族艺术 Chinese Ethnic Art教育学 Education教育学 Education Science教育学原理 Educational Principle课程与教学论 Curriculum and Teaching Methodology教育史 History of Education比较教育学 Comparative Education学前教育学 Pre-school Education高等教育学 Higher Education成人教育学 Adult Education职业技术教育学 Vocational and Technical Education特殊教育学 Special Education教育技术学 Education Technology心理学 Psychology基础心理学 Basic Psychology发展与心理学 Developmental and Educational Psychology应用心理学 Applied Psychology体育学 Science of Physical Culture and Sports体育人文社会学 Humane and Sociological Science of Sports 运动人体科学 Human Movement Science体育教育训练学 Theory of Sports Pedagogy and Training民族传统体育学 Science of Ethnic Traditional Sports文学 Literature中国语言文学 Chinese Literature文艺学 Theory of Literature and Art语言学及应用语言学 Linguistics and Applied Linguistics汉语言文字学 Chinese Philology中国古典文献学 Study of Chinese Classical Text中国古代文学 Ancient Chinese Literature中国现当代文学 Modern and Contemporary Chinese Literature 中国少数民族语言文学 Chinese Ethnic Language and Literature比较文学与世界文学 Comparative Literature and World Literature外国语言文学 Foreign Languages and Literatures英语语言文学 English Language and Literature俄语语言文学 Russian Language and Literature法语语言文学 French Language and Literature德语语言文学 German Language and Literature日语语言文学 Japanese Language and Literature印度语言文学 Indian Language and Literature西班牙语语言文学 Spanish Language and Literature阿拉伯语语言文学 Arabic Language and Literature欧洲语言文学 European Language and Literature亚非语言文学 Asian-African Language and Literature外国语言学及应用语言学 Linguistics and Applied Linguistics in Foreign Languages新闻传播学 Journalism and Communication新闻学 Journalism传播学 Communication艺术学 Art艺术学 Art Theory音乐学 Music美术学 Fine Arts设计艺术学 Artistic Design戏剧戏曲学 Theater and Chinese Traditional Opera电影学 Film广播电视艺术学 Radio and television Art舞蹈学 Dance历史学 History历史学 History史学理论及史学史 Historical Theories and History of Historical Science考古学及博物馆学 Archaeology and Museology历史地理学 Historical Geography历史文献学(含敦煌学、古文字学) Studies of Historical Literature (includingPaleography and Studies of Dunhuang)专门史 History of Particular Subjects中国古代史 Ancient Chinese History中国近现代史 Modern and Contemporary Chinese History世界史 World History理学 Natural Science数学 Mathematics基础数学 Fundamental Mathematics计算数学 Computational Mathematics概率论与数理统计 Probability and Mathematical Statistics 应用数学 Applied mathematics运筹学与控制论 Operational Research and Cybernetics物理学 Physics理论物理 Theoretical Physics粒子物理与原子核物理 Particle Physics and Nuclear Physics原子与分子物理 Atomic and Molecular Physics等离子体物理 Plasma Physics凝聚态物理 Condensed Matter Physics声学 Acoustics光学 Optics无线电物理 Radio Physics化学 Chemistry无机化学 Inorganic Chemistry分析化学 Analytical Chemistry有机化学 Organic Chemistry物理化学(含化学物理) Physical Chemistry (including Chemical Physics)高分子化学与物理 Chemistry and Physics of Polymers天文学 Astronomy天体物理 Astrophysics天体测量与天体力学 Astrometry and Celestial Mechanics地理学 Geography自然地理学 Physical Geography人文地理学 Human Geography地图学与地理信息系统 Cartography and Geography Information System大气科学 Atmospheric Sciences气象学 Meteorology大气物理学与大气环境 Atmospheric Physics and Atmospheric Environment海洋科学 Marine Sciences物理海洋学 Physical Oceanography海洋化学 Marine Chemistry海洋生理学 Marine Biology海洋地质学 Marine Geology地球物理学 Geophysics固体地球物理学 Solid Earth Physics空间物理学 Space Physics地质学 Geology矿物学、岩石学、矿床学 Mineralogy, Petrology, Mineral Deposit Geology地球化学 Geochemistry古生物学与地层学(含古人类学) Paleontology and Stratigraphy (including Paleoanthropology)构造地质学 Structural Geology第四纪地质学 Quaternary Geology生物学 Biology植物学 Botany动物学 Zoology生理学 Physiology水生生物学 Hydrobiology微生物学 Microbiology神经生物学 Neurobiology遗传学 Genetics发育生物学 Developmental Biology细胞生物学 Cell Biology生物化学与分子生物学 Biochemistry and Molecular Biology 生物物理学 Biophysics生态学 Ecology系统科学 Systems Science系统理论 Systems Theory系统分析与集成 Systems Analysis and Integration科学技术史 History of Science and Technology工学 Engineering力学 Mechanics一般力学与力学基础 General and Fundamental Mechanics固体力学 Solid Mechanics流体力学 Fluid Mechanics工程力学 Engineering Mechanics机械工程 Mechanical Engineering机械制造及其自动化 Mechanical Manufacture and Automation 机械电子工程 Mechatronic Engineering机械设计与理论 Mechanical Design and Theory车辆工程 Vehicle Engineering光学工程 Optical Engineering仪器科学与技术 Instrument Science and Technology精密仪器及机械 Precision Instrument and Machinery测试计量技术及仪器 Measuring and Testing Technologies and Instruments材料科学与工程 Materials Science and Engineering材料物理与化学 Materials Physics and Chemistry材料学 Materialogy材料加工工程 Materials Processing Engineering冶金工程 Metallurgical Engineering冶金物理化学 Physical Chemistry of Metallurgy钢铁冶金 Ferrous Metallurgy有色金属冶金 Non-ferrous Metallurgy动力工程及工程热物理 Power Engineering and Engineering Thermophysics工程热物理 Engineering Thermophysics热能工程 Thermal Power Engineering动力机械及工程 Power Machinery and Engineering流体机械及工程 Fluid Machinery and Engineering制冷及低温工程 Refrigeration and Cryogenic Engineering化工过程机械 Chemical Process Equipment电气工程 Electrical Engineering电机与电器 Electric Machines and Electric Apparatus电力系统及其自动化 Power System and its Automation高电压与绝缘技术 High Voltage and Insulation Technology 电力电子与电力传动 Power Electronics and Power Drives电工理论与新技术 Theory and New Technology of Electrical Engineering电子科学与技术 Electronics Science and Technology物理电子学 Physical Electronics电路与系统 Circuits and Systems微电子学与固体电子学 Microelectronics and Solid State Electronics电磁场与微波技术 Electromagnetic Field and Microwave Technology信息与通信工程 Information and Communication Engineering 通信与信息系统 Communication and Information Systems信号与信息处理 Signal and Information Processing控制科学与工程 Control Science and Engineering控制理论与控制工程 Control Theory and Control Engineering检测技术与自动化装置 Detection Technology and Automatic Equipment系统工程 Systems Engineering模式识别与智能系统 Pattern Recognition and Intelligent Systems导航、制导与控制 Navigation, Guidance and Control计算机科学与技术 Computer Science and Technology计算机软件与理论 Computer Software and Theory计算机系统结构 Computer Systems Organization计算机应用技术 Computer Applied Technology建筑学 Architecture建筑历史与理论 Architectural History and Theory建筑设计及其理论 Architectural Design and Theory城市规划与设计(含风景园林规划与设计) Urban Planning and Design (including Landscape Planning and Design)建筑技术科学 Building Technology Science土木工程 Civil Engineering岩土工程 Geotechnical Engineering结构工程 Structural Engineering市政工程 Municipal Engineering供热、供燃气、通风及空调工程 Heating, Gas Supply, Ventilating and Air Conditioning Engineering防灾减灾工程及防护工程 Disaster Prevention and Reduction Engineering and Protective Engineering桥梁与隧道工程 Bridge and Tunnel Engineering水利工程 Hydraulic Engineering水文学及水资源 Hydrology and Water Resources水力学及河流动力学 Hydraulics and River Dynamics水工结构工程 Hydraulic Structure Engineering水利水电工程 Hydraulic and Hydro-Power Engineering港口、海岸及近海工程 Harbor, Coastal and Offshore Engineering 测绘科学与技术 Surveying and Mapping大地测量学与测量工程 Geodesy and Survey Engineering摄影测量与遥感 Photogrammetry and Remote Sensing地图制图学与地理信息工程 Cartography and Geographic Information Engineering化学工程与技术 Chemical Engineering and Technology化学工程 Chemical Engineering化学工艺 Chemical Technology生物化工 Biochemical Engineering应用化学 Applied Chemistry工业催化 Industrial Catalysis地质资源与地质工程 Geological Resources and Geological Engineering矿产普查与勘探 Mineral Resource Prospecting and Exploration 地球探测与信息技术 Geodetection and Information Technology 地质工程 Geological Engineering矿业工程 Mineral Engineering采矿工程 Mining Engineering矿物加工工程 Mineral Processing Engineering安全技术及工程 Safety Technology and Engineering石油与天然气工程 Oil and Natural Gas Engineering油气井工程 Oil-Gas Well Engineering油气田开发工程 Oil-Gas Field Development Engineering油气储运工程 Oil-Gas Storage and Transportation Engineering 纺织科学与工程 Textile Science and Engineering纺织工程 Textile Engineering纺织材料与纺织品设计 Textile Material and Textiles Design纺织化学与染整工程 Textile Chemistry and Dyeing and Finishing Engineering服装设计与工程 Clothing Design and Engineering轻工技术与工程 The Light Industry Technology and Engineering 制浆造纸工程 Pulp and Paper Engineering制糖工程 Sugar Engineering发酵工程 Fermentation Engineering皮革化学与工程 Leather Chemistry and Engineering交通运输工程 Communication and Transportation Engineering道路与铁道工程 Highway and Railway Engineering交通信息工程及控制 Traffic Information Engineering & Control 交通运输规划与管理 Transportation Planning and Management载运工具运用工程 Vehicle Operation Engineering船舶与海洋工程 Naval Architecture and Ocean Engineering船舶与海洋结构物设计制造 Design and Construction of Naval Architecture and Ocean Structure轮机工程 Marine Engine Engineering水声工程 Underwater Acoustics Engineering航空宇航科学与技术 Aeronautical and Astronautical Science and Technology飞行器设计 Flight Vehicle Design航空宇航推进理论与工程 Aerospace Propulsion Theory and Engineering航空宇航器制造工程 Manufacturing Engineering of Aerospace Vehicle人机与环境工程 Man-Machine and Environmental Engineering兵器科学与技术 Armament Science and Technology武器系统与运用工程 Weapon Systems and Utilization Engineering 兵器发射理论与技术 Armament Launch Theory and Technology火炮、自动武器与弹药工程 Artillery, Automatic Gun and Ammunition Engineering军事化学与烟火技术 Military Chemistry and Pyrotechnics核科学与技术 Nuclear Science and Technology核能科学与工程 Nuclear Energy Science and Engineering核燃料循环与材料 Nuclear Fuel Cycle and Materials核技术及应用 Nuclear Technology and Applications辐射防护及环境保护 Radiation and Environmental Protection农业工程 Agricultural Engineering农业机械化工程 Agricultural Mechanization Engineering农业水土工程 Agricultural Water-Soil Engineering农业生物环境与能源工程 Agricultural Biological Environmental and Energy Engineering农业电气化与自动化 Agricultural Electrification and Automation林业工程 Forestry Engineering森林工程 Forest Engineering木材科学与技术 Wood Science and Technology林产化学加工工程 Chemical Processing Engineering of Forest Products环境科学与工程 Environmental Science and Engineering环境科学 Environmental Science环境工程 Environmental Engineering生物医学工程 Biomedical Engineering食品科学与工程 Food Science and Engineering食品科学 Food Science粮食、油脂及植物蛋白工程 Cereals, Oils and Vegetable Protein Engineering农产品加工及贮藏工程 Processing and Storage of Agriculture Products水产品加工及贮藏工程 Processing and Storage of Aquatic Products农学 Agriculture作物学 Crop Science作物栽培学与耕作学 Crop Cultivation and Farming System作物遗传育种学 Crop Genetics and Breeding园艺学 Horticulture果树学 Pomology蔬菜学 Olericulture茶学 Tea Science农业资源利用学 Utilization Science of Agricultural Resources 土壤学 Soil Science植物营养学 Plant Nutrition植物保护学 Plant Protection植物病理学 Plant Pathology农业昆虫与害虫防治 Agricultural Entomology and Pest Control 农药学 Pesticide Science畜牧学 Animal Science动物遗传育种与繁殖 Animal Genetics, Breeding and Reproduction Science动物营养与饲料科学 Animal Nutrition and Feed Science草业科学 Practaculture Science特种经济动物饲养学(含蚕、蜂等) The Rearing of Special-type EconomicAnimals (including Silkworm, Honeybees, etc.)兽医学 Veterinary Medicine基础兽医学 Basic Veterinary Medicine预防兽医学 Preventive Veterinary Medicine临床兽医学 Clinical Veterinary Medicine林学 Forestry林木遗传育种学 Forest Tree Genetics and Breeding森林培育学 Silviculture森林保护学 Forest Protection森林经理学 Forest Management野生动植物保护与利用 Wildlife Conservation and Utilization 园林植物与观赏园艺 Ornamental Plants and Horticulture水土保持与荒漠化防治 Soil and Water Conservation and Desertification Combating水产学 Fisheries Science水产养殖学 Aquaculture Science捕捞学 Fishing Science渔业资源学 Science of Fisheries Resources医学 Medicine基础医学 Basic Medicine人体解剖与组织胚胎学 Human Anatomy, Histology and Embryology 免疫学 Immunology病原生物学 Pathogenic Organisms病理学与病理生理学 Pathology and Pathophysiology法医学 Forensic Medicine放射医学 Radiation Medicine航空航天与航海医学 Aerospace and Nautical medicine临床医学 Clinical Medicine内科学(含心血管病学、血液病学、呼吸系病学、消化系病学、内分泌与代谢病学、肾脏病学、风湿病学、传染病学) Internal medicine (including Cardiology, Hematology, Respiratory, Gastroenterology, Endocrinology and Metabolism, Nephrology, Rheuma-tology, Infectious Diseases)儿科学 Pediatrics老年医学 Geriatrics神经病学 Neurology精神病与精神卫生学 Psychiatry and Mental Health皮肤病与性病学 Dermatology and Venereology影像医学与核医学 Imaging and Nuclear Medicine临床检验诊断学 Clinical Laboratory Diagnostics护理学 Nursing外科学(含普通外科学、骨外科学、泌尿外科学、胸心血管外科学、神经外科学、整形外科学、烧伤外科学、野战外科学) Surgery (General Surgery, Orthopedics, Urology, Cardiothoracic Surgery, Neurosurgery, Plastic Surgery, Burn Surgery, Field Surgery)妇产科学 Obstetrics and Gynecology眼科学 Ophthalmic Specialty耳鼻咽喉科学 Otolaryngology肿瘤学 Oncology康复医学与理疗学 Rehabilitation Medicine & Physical Therapy 运动医学 Sports Medicine麻醉学 Anesthesiology急诊医学 Emergency Medicine口腔医学 Stomatology口腔基础医学 Basic Science of Stomatology口腔临床医学 Clinical Science of Stomatology公共卫生与预防医学 Public Health and Preventive Medicine 流行病与卫生统计学 Epidemiology and Health Statistics劳动卫生与环境卫生学 Occupational and Environmental Health 营养与食品卫生学 Nutrition and Food Hygiene儿少卫生与妇幼保健学 Maternal, Child and Adolescent Health 卫生毒理学 Hygiene Toxicology军事预防医学 Military Preventive Medicine中医学 Chinese Medicine中医基础理论 Basic Theories of Chinese Medicine中医临床基础 Clinical Foundation of Chinese Medicine中医医史文献 History and Literature of Chinese Medicine方剂学 Formulas of Chinese Medicine中医诊断学 Diagnostics of Chinese Medicine中医内科学 Chinese Internal Medicine中医外科学 Surgery of Chinese Medicine中医骨伤科学 Orthopedics of Chinese Medicine中医妇科学 Gynecology of Chinese Medicine中医儿科学 Pediatrics of Chinese Medicine中医五官科学 Ophthalmology and Otolaryngoloy of Chinese Medicine针灸推拿学 Acupuncture and Moxibustion and Tuina of Chinese medicine民族医学 Ethnomedicine中西医结合医学 Chinese and Western Integrative Medicine中西医结合基础医学 Basic Discipline of Chinese and Western Integrative中西医结合临床医学 Clinical Discipline of Chinese and Western Integrative Medicine药学 Pharmaceutical Science药物化学 Medicinal Chemistry药剂学 Pharmaceutics生药学 Pharmacognosy药物分析学 Pharmaceutical Analysis微生物与生化药学 Microbial and Biochemical Pharmacy药理学 Pharmacology中药学 Science of Chinese Pharmacology军事学 Military Science军事思想学及军事历史学 Military Thought and Military History 军事思想学 Military Thought军事历史学 Military History战略学 Science of Strategy军事战略学 Military Strategy战争动员学 War Mobilization战役学 Science of Operations联合战役学 Joint Operation军种战役学(含第二炮兵战役学) Armed Service Operation (including Operation of Strategic Missile Force)战术学 Science of Tactics合同战术学 Combined-Arms Tactics兵种战术学 Branch Tactics军队指挥学 Science of Command作战指挥学 Combat Command军事运筹学 Military Operation Research军事通信学 Military Communication军事情报学 Military Intelligence密码学 Cryptography军事教育训练学(含军事体育学) Military Education and Training (including Military Physical Training)军制学 Science of Military System军事组织编制学 Military Organizational System军队管理学 Military Management军队政治工作学 Science of Military Political Work军事后勤学与军事装备学 Science of Military Logistics and Military Equipment军事后勤学 Military Logistics后方专业勤务 Rear Special Service军事装备学 Military Equipment管理学 Management Science管理科学与工程 Management Science and Engineering工商管理学 Science of Business Administration会计学 Accounting企业管理学(含财务管理、市场营销学、人力资源管理学) Corporate Management (including Financial Management, Marketing, and Human Resources Management)旅游管理学 Tourist Management技术经济及管理学 Technology Economy and Management农林经济管理学 Agricultural and Forestry Economics & Management农业经济管理学 Agricultural Economics & Management林业经济管理学 Forestry Economics & Management公共管理学 Science of Public Management行政管理学 Administration Management社会医学与卫生事业管理学 Social Medicine and Health Management教育经济与管理学 Educational Economy and Management社会保障学 Social Security土地资源管理学 Land Resource Management图书馆、情报与档案学 Science of Library, Information and Archival图书馆学 Library Science情报学 Information Science档案学 Archival Science。
机械设计制造及其自动化专业课程中英文翻译
机械设计制造及其自动化军训及军事理论Military Training and Military Theory计算机实用基础2 Introduction to Computer Application大学英语College English体育Physical Education工科数学分析2 Advanced Mathematics代数与几何 2 Linear Algebra Advanced Algebra and Geometry思想道德修养与法律基础Ideological and Moral Cultivation and Law Basics大学英语College English体育大学物理2 College Physics工科数学分析2C语言程序设计 C Language中国近现代史纲要Modern History of China法语二外(上)The Second Foreign Language French工业造型设计Modeling Design of Industrial Products大学英语College English大学物理2 College Physics大学物理实验1 Experiment in College Physics概率论与数理统计Probability Theory & Mathematical Statistics电工技术1 Electrical Engineering电工与电子技术综合实验1 Experiment for Electrical and Electronic Engineering工程图学(CAD)1 Mechanical Graphing理论力学1 Theoretical Mechanics工程力学实验1 Experiment for Engineering Mechanics毛泽东思想、邓小平理论和“三个代表”重要思想概论Introduction to Mao Zedong Thoughts, Deng Xiaoping Theory and the Important Thought of "Three Represents"文化素质教育系列讲座Cultural quality education lectures体育西方文明简史History of western civilization Introduction to Functional Materials机械原理课程设计Course Exercise of Mechanical Principle工程训练(金工实习)engineering training Metal Working Practice大学物理实验1电子技术1 Electronic Engineering电工与电子技术综合实验1机械原理Principle of Mechanics Mechanical Principles工程图学(CAD)1工程力学实验(材力)1材料力学1 Mechanics of Materials马克思主义基本原理Principles of Marxism文化素质教育系列讲座文化素质教育系列讲座体育项目管理Project Management法语二外(下)法语入门1机械设计课程设计Course Exercise in Mechanical Design工程训练(电子工艺实习)electronic process practice Practice on Electronic Working Techniques互换性与测量技术基础Basic Technology of Exchangeability Measurement工程流体力学Engineering Fluid Mechanics自动控制原理3 Automatic Control Theory电工学新技术实践The new technology of electronics practice机械设计Mechanical Design工程材料成型技术基础Engineering material molding technology机械工程材料Engineering Materials文化素质教育系列讲座文化素质教育系列讲座创新设计与制作Innovation design and production复变函数与积分变换Complex Function Functions of Complex V ariables & Integral Transformation社会热点问题评价evaluation of social issues知识产权"Intellectual Property Law"认识实习Cognition Practice制造系统自动化技术Automation of Mechanical Manufacture System传热学Heat Transfer文化素质教育系列讲座机电控制系统分析与设计Mechanical-Electrical Control system数控技术Numerical Control Technology机械制造装备设计Machinery manufacturing equipment design液压传动Hydraulic Transmission测试技术与仪器Measurement Fundamentals & Meter Design Measurement Fundamentals & Meter Design机械制造技术基础foundation of machine manufacturing technology综合课程设计1 Comprehensive Course Exercise生产实习Production Practice Field Practice现代机械设计方法The modern machinery design method机械动态设计Mechanical Dynamic Design机械结构有限元分析Finite Element of Mechanical Structures Finite Element Analysis and Programming Finite Element Analysis for Mechanical Structures机电系统智能化控制技术(双语Mechanical and electrical system intelligent control technology 综合课程设计2机械优化设计Optimum Design of MachineryMechanical Optimum Design毕业设计Graduation Thesis工程测试技术Engineering Testing Technique。
2012机械设计制造及其自动化专业外语参考答案
一词汇a 英译汉Dimension 尺寸Machine tool Adhesiveness Compound rest复合刀具台机床粘性Apron 挡板,Climb-cut Peripheral milling Slab milling阔面铣削同向铣削Centerless grinding无心轮磨Machinery Cylindrical hole Snag 障碍机械圆柱孔Coarseness 粗糙度Up-milling逆铣Abrasive belt磨带Profile Machine table剖面机表Rectilinear Protecctive guards 直线防护String milling连续铣削b 汉译英刚度,硬度hardess 圆柱形端铣刀cylindric end mill 进给速度feed speed 托架bracket软刚,低碳钢mild steel沉头螺钉sunk screw螺线spiral 平面磨surface grind镗床boring machine 摩擦离合器friction clutch多刃刀具multipoint tool 牛头刨床shaping machine被动皮带轮Passive pulley润滑油lubricating oil燕尾槽dovetail groove 卡盘chuck材料去除装备Material removal equipment插入式磨削Plug-in grinding冷却液coolant 床头箱headstock二翻译句子1) The slides a nd slideways of a machine tool locate and guide members which move relative to each other,usually changing the position of the tool relative to the workpiece.车刀机床的滑块和滑道s使定位和导向构件之间将对移动,常常用于改变工件与工作台的相对位置2)In order to maintain a constant angular velocity, the individual tooth profile must obey the fundamental law of gearing: for a pair of gears to transmit a constant angular velocity ratio, the shape of their contacting profile must be such that the common normal passes through a fixed point on the line of the centers为了维持一个恒定的角速度,单个齿廓必须遵守啮合基本定律:对于一对以固定角速度传动的齿轮,他们的传动比两轮连心线被齿廓接触点公共法线分割的两顿先吨的反比3)Plain milling cutters are adapted to cut by teeth with cutting edges situatued on the surface of a cylinder which can be circumscribed on cutter. face mills are adapted to cutting by teeth with cutting edges situated on the surface of the mill and partially on its cylindrial surface平铣刀适用于使用位于圆柱面上的齿上的切削刃工作的铣削,平面铣刀适用于使用位于铣刀表面和其部分圆柱面的齿上的切削刃做的铣削4)Pressures angles for spur gear are usually 14.5 or 20 degrees, although other values can be used. Meshing gears must have the same pressure angles.虽然其他值也也可以使用,但齿轮的压力角经常为14.5度或20度,相啮合的齿轮必须有相同的压力角5)The cross section of the milled surface corresponds to the outline or contour of the milling cutter or combination of cutters used.加工表面的界面要与使用的刀具或组合刀具的外轮廓一致6)Lets us now discuss the different concepts associated with the manufacturing accuracy required modern mass-production technologies.让我们来讨论有关现代大规模生产技术所要求的制造精度的不同概念。
机械设计制造及其自动化专业英语翻译超级大全
Unit 1 Metals金属绝对纯净的金属从来也没有被生产出来过。
即使绝对纯净的金属可以生产出来,工程师们对它们也并不会特别感兴趣,因为它们很柔软、脆弱。
实际应用中的金属往往都包含着一定数量的一种或多种外来金属或非金属元素,这些外来元素可能是有害的也可能是有益的或者它们对某种特定的属性没有影响。
如果是有害the crystals of the various grains are ran domly orie nted in space. The gra ins are everywhere in in timate con tact with oneanother and joined together on an atomic scale. The region at which they join is known as a grain boun dary.An absolutely pure metal (i.e. one composed of only one type of atom) has never been produced. Engin eers would not be particularly in terested in such a metal even if it were to be produced, because it would be soft and weak. The metals used commercially in evitably con ta in small amounts of one or more foreig neleme nts, either metallic or nonmetallic. These foreig neleme nts may be detrimental , they may be 它们的重量占所有生产出来的金属重量的98%在结构应用(也就是说,可以承受载荷的结构)中居于其次位置的是铝、铜、镍和钛。
机械加工常用术语英文翻译
英语中机械加工常用术语抛光polishing安装to assemble扳手wrench半机械化semi-mechanization; semi-mechanized半自动滚刀磨床semi-automatic hob grinder半自动化semi-automation; semi-automatic备件spare parts边刨床side planer变速箱transmission gear柄轴arbor部件units; assembly parts插床slotting machine拆卸to disassemble超高速内圆磨床ultra-high-speed internal grinder车床lathe; turning lathe车刀lathe tool车轮车床car wheel lathe车削turning车轴axle衬套bushing 按英文字母排序3-Jaws indexing spacers 三爪、分割工具头A.T.C.system 加工中心机刀库Aluminum continuous melting holding furnaces 连续溶解保温炉Balancing equipment 平衡设备Bayonet 卡口Bearing fittings 轴承配件Bearing processing equipment 轴承加工机Bearings 轴承Belt drive 带传动Bending machines 弯曲机Blades 刀片Blades,saw 锯片Bolts,screws nuts 螺栓,螺帽及螺丝Boring heads 搪孔头Boring machines 镗床Cable making tools 造线机Casting,aluminium 铸铝Casting,copper 铸铜Casting,gray iron 铸灰口铁Casting,malleable iron 可锻铸铁Casting,other 其他铸造Casting,steel 铸钢Chain drive 链传动899Chain making tools 造链机Chamfer machines 倒角机Chucks 夹盘Clamping/holding systems 夹具/支持系统CNC bending presses 电脑数控弯折机CNC boring machines 电脑数控镗床CNC drilling machines 电脑数控钻床CNC EDM wire-cutting machines 电脑数控电火花线切削机CNC electric discharge machines 电脑数控电火花机CNC engraving machines 电脑数控雕刻机CNC grinding machines 电脑数控磨床CNC lathes 电脑数控车床CNC machine tool fittings 电脑数控机床配件CNC milling machines 电脑数控铣床CNC shearing machines 电脑数控剪切机CNC toolings CNC刀杆CNC wire-cutting machines 电脑数控线切削机Conveying chains 输送链Coolers 冷却机Coupling 联轴器Crimping tools 卷边工具Cutters 刀具Cutting-off machines 切断机Diamond cutters 钻石刀具Dicing saws 晶圆切割机Die casting dies 压铸冲模Die casting machines 压铸机Dies-progressive 连续冲模Disposable toolholder bits 舍弃式刀头Drawing machines 拔丝机Drilling machines 钻床Drilling machines bench 钻床工作台Drilling machines,high-speed 高速钻床Drilling machines,multi-spindle 多轴钻床Drilling machines,radial 摇臂钻床Drilling machines,vertical 立式钻床drills 钻头Electric discharge machines(EDM) 电火花机Electric power tools 电动刀具Engraving machines 雕刻机Engraving machines,laser 激光雕刻机Etching machines 蚀刻机Finishing machines 修整机Fixture 夹具900Forging dies 锻模Forging,aluminium 锻铝Forging,cold 冷锻Forging,copper 铜锻Forging,other 其他锻造Forging,steel 钢锻Foundry equipment 铸造设备Gear cutting machines 齿轮切削机Gears 齿轮Gravity casting machines 重力铸造机Grinder bench 磨床工作台Grinders,thread 螺纹磨床Grinders,tools & cutters 工具磨床Grinders,ultrasonic 超声波打磨机Grinding machines 磨床Grinding machines,centerless 无心磨床Grinding machines,cylindrical 外圆磨床Grinding machines,universal 万能磨床Grinding tools 磨削工具Grinding wheels 磨轮Hand tools 手工具Hard/soft and free expansion sheet making plant 硬(软)板(片)材及自由发泡板机组Heat preserving furnaces 保温炉Heating treatment funaces 熔热处理炉Honing machines 搪磨机Hydraulic components 液压元件Hydraulic power tools 液压工具Hydraulic power units 液压动力元件Hydraulic rotary cylinders 液压回转缸Jigs 钻模Lapping machines 精研机Lapping machines,centerless 无心精研机Laser cutting 激光切割Laser cutting for SMT stensil 激光钢板切割机Lathe bench 车床工作台Lathes,automatic 自动车床Lathes,heavy-duty 重型车床Lathes,high-speed 高速车床Lathes,turret 六角车床Lathes,vertical 立式车床Lubricants 润滑液Lubrication Systems 润滑系统Lubricators 注油机Machining centers,general 通用加工中心901Machining centers,horizontal 卧式加工中心Machining centers,horizontal & vertical 卧式及立式加工中心Machining centers,vertical 立式加工中心Machining centers,vertical double-column type 立式双柱加工中心Magnetic tools 磁性工具Manifolds 集合管Milling heads 铣头Milling machines 铣床Milling machines,bed type 床身式铣床Milling machines,duplicating 仿形铣床Milling machines,horizontal 卧式铣床Milling machines,turret vertical 六角立式铣床Milling machines,universal 万能铣床Milling machines,vertical 立式铣床Milling machines,vertical & horizontal 立式及卧式铣床Mold & die components 模具单元Mold changing systems 换模系统Mold core 模芯Mold heaters/chillers 模具加热器/冷却器Mold polishing/texturing 模具打磨/磨纹Mold repair 模具维修Molds 模具Nail making machines 造钉机Oil coolers 油冷却器Overflow cutting machines for aluminium wheels 铝轮冒口切断机P type PVC waterproof rolled sheet making plant P型PVC高分子防水PCB fine piecing systems 印刷电器板油压冲孔脱料系统Pipe & tube making machines 管筒制造机Planing machines 刨床Planing machines vertical 立式刨床Pneumatic hydraulic clamps 气油压虎钳Pneumatic power tools 气动工具Powder metallurgic forming machines 粉末冶金成型机Presses,cold forging 冷锻冲压机presses,crank 曲柄压力机Presses,eccentric 离心压力机Presses,forging 锻压机Presses,hydraulic 液压冲床Presses,knuckle joint 肘杆式压力机Presses,pneumatic 气动冲床Presses,servo 伺服冲床Presses,transfer 自动压力机Pressing dies 压模Punch formers 冲子研磨器902Quick die change systems 速换模系统Quick mold change systems 快速换模系统Reverberatory furnaces 反射炉Rollers 滚筒Rolling machines 辗压机Rotary tables 转台Sawing machines 锯床Sawing machines,band 带锯床Saws,band 带锯Saws,hack 弓锯Saws,horizontal band 卧式带锯Saws,vertical band 立式带锯shafts 轴Shapers 牛头刨床Shearing machines 剪切机Sheet metal forming machines 金属板成型机Sheet metal working machines 金属板加工机Slotting machines 插床spindles 主轴Stamping parts 冲压机Straightening machines 矫直机Switches & buttons 开关及按钮Tapping machines 攻螺丝机Transmitted chains 传动链Tube bending machines 弯管机Vertical hydraulic broaching machine 立式油压拉床Vises 虎钳Vises,tool-maker 精密平口钳Wheel dressers 砂轮修整器Woven-Cutting machines 织麦激光切割机Wrenches 扳手903。
各专业英文翻译
法学 Law Study英语 English日语 Japanese信息与计算科学 Information and Computation Science应用物理学 Applied Physics冶金工程 Metallurgical Engineering金属材料工程 Metallic Materials Engineering无机非金属材料 Inorganic Nonmetallic Materials材料成型及控制工程 Material Formation and controlEngineering高分子材料与工程 Multimolecular Materials and Engineering工业设计 Industrial Disign建筑学 Architecture城市规划 City Planning艺术设计 Artistical Disign包装工程 Packaging Engineering机械设计制造及自动化Machine Disign,Manufacturing,and Automation热能与动力工程 Thermal and Power Engineering水利水电工程 WaterConservance and Electro-power Engineering测控技术与仪器 Technique and Instrumentation of Measurements电气工程及其自动化 Electric Engineering and its Automation自动化 Automation通信工程 Communication Engineering电子信息科学与技术 Sience and Technology of Electronic Information 计算机科学与技术 Computer Sience and Technology土木工程 Civil Engineering工程管理 Project Management给水排水工程 Water Supply and Sewage Engineering建筑环境与设备工程 Constructional Environment and Equipment Engineering 过程装备与控制工程 Processing Units and Control Engineering环境工程 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自动化专业英语原文和翻译
自动化专业英语原文和翻译引言概述:自动化专业是现代工程技术领域中的重要学科,涵盖了自动控制系统、机器人技术、工业自动化等多个方面。
在学习和实践中,掌握和理解自动化专业的英文术语和翻译是非常重要的。
本文将从五个大点出发,详细阐述自动化专业英语原文和翻译的相关内容。
正文内容:1. 自动控制系统(Automatic Control System)1.1 控制器(Controller)1.2 传感器(Sensor)1.3 执行器(Actuator)1.4 反馈(Feedback)1.5 稳定性(Stability)2. 机器人技术(Robotics)2.1 机器人(Robot)2.2 机械臂(Manipulator)2.3 传感器(Sensor)2.4 视觉系统(Vision System)2.5 自主导航(Autonomous Navigation)3. 工业自动化(Industrial Automation)3.1 自动化生产线(Automated Production Line)3.2 人机界面(Human-Machine Interface)3.3 传感器网络(Sensor Network)3.4 电气控制(Electrical Control)3.5 数据采集(Data Acquisition)4. 自动化软件(Automation Software)4.1 PLC编程(PLC Programming)4.2 HMI设计(HMI Design)4.3 数据分析(Data Analysis)4.4 模拟仿真(Simulation)4.5 系统集成(System Integration)5. 自动化工程(Automation Engineering)5.1 项目管理(Project Management)5.2 自动化设计(Automation Design)5.3 系统调试(System Debugging)5.4 故障诊断(Fault Diagnosis)5.5 性能优化(Performance Optimization)总结:综上所述,自动化专业英语原文和翻译是自动化工程师必备的技能之一。
机械设计专业术语的英语翻译1
双滑块机构double-slidermechanism,ellipsograph
双曲柄机构doublecrankmechanism
双曲面齿轮hyperboloidgear
双头螺柱studs
双万向联轴节constant-velocityordoubleuniversaljoint
外齿轮externalgear
弯曲应力beadingstress
弯矩bendingmoment
腕部wrist
往复移动reciprocatingmotion
往复式密封reciprocatingseal
网上设计on-netdesign,OND
微动螺旋机构differentialscrewmechanism
双摇杆机构doublerockermechanism
双转块机构Oldhamcoupling
双列轴承doublerowbearing
双向推力轴承double-directionthrustbearing
松边slack-side
顺时针clockwise
瞬心instantaneouscenter
斜齿轮的当量直齿轮equivalentspurgearofthehelicalgear
心轴spindle
行程速度变化系数coefficientoftravelspeedvariation
行程速比系数advance-toreturn-timeratio
行星齿轮装置planetarytransmission
原始机构originalmechanism
圆形齿轮circulargear
圆柱滚子cylindricalroller
自动化专业常用英语词汇
自动化专业常用英语词汇1. Automation (自动化): The use of technology and machines to perform tasks that were previously done by humans.2. Control system (控制系统): A system that manages and regulates the behavior of other systems or devices.3. PLC (Programmable Logic Controller) (可编程逻辑控制器): A digital computer used for automation of electromechanical processes, such as control of machinery on factory assembly lines.4. SCADA (Supervisory Control and Data Acquisition) (监控与数据采集系统): A system that allows for remote monitoring and control of industrial processes.5. HMI (Human-Machine Interface) (人机界面): The interface through which an operator interacts with a machine or system.6. Sensor (传感器): A device that detects and responds to physical inputs from the environment, such as temperature, pressure, or light.7. Actuator (执行器): A device that converts control signals into physical actions, such as movement or force.8. PID controller (Proportional-Integral-Derivative controller) (比例-积分-微分控制器): A control loop feedback mechanism widely used in industrial control systems to maintain desired setpoints.9. Robotics (机器人技术): The design, construction, and operation of robots, which are programmable machines that can perform tasks autonomously or with human assistance.10. Mechatronics (机电一体化): The synergistic integration of mechanical engineering, electronic engineering, and computer science to create intelligent systems.11. Industrial Automation (工业自动化): The use of control systems and information technologies to optimize productivity, efficiency, and safety in manufacturing processes.12. Programmable Automation (可编程自动化): The use of programmable controllers and computers to automate manufacturing processes.13. SCARA robot (Selective Compliance Assembly Robot Arm) (选择性顺应性装配机器人): A type of robot arm that is typically used for assembly tasks, with horizontal reach and vertical movement capabilities.14. DCS (Distributed Control System) (分布式控制系统): A control system that consists of multiple controllers distributed throughout a plant or industrial facility.15. PLC Programming (可编程逻辑控制器编程): The process of writing and debugging programs for programmable logic controllers to control automation processes.16. Industrial Internet of Things (IIoT) (工业物联网): The network of physical devices, vehicles, and other objects embedded with sensors, software, and connectivity to exchange data and enable automation in industrial environments.17. Motion control (运动控制): The process of managing and coordinating the movement of mechanical systems, such as robots or conveyor belts, to achieve desired positions or trajectories.18. Supervisory control (监控控制): The control of multiple processes or systems from a central location, typically using SCADA systems.19. Safety system (安全系统): The set of measures and devices implemented to ensure the safety of personnel and equipment in an automated system.20. Fieldbus (现场总线): A digital communication protocol used in industrial automation to connect and control devices in the field, such as sensors and actuators.以上是自动化专业常用英语词汇的详细介绍。
各专业英文翻译
法学 Law Study英语 English日语 Japanese信息与计算科学 Information and Computation Science应用物理学 Applied Physics冶金工程 Metallurgical Engineering金属材料工程 Metallic Materials Engineering无机非金属材料 Inorganic Nonmetallic Materials材料成型及控制工程 Material Formation and controlEngineering高分子材料与工程 Multimolecular Materials and Engineering工业设计 Industrial Disign建筑学 Architecture城市规划 City Planning艺术设计 Artistical Disign包装工程 Packaging Engineering机械设计制造及自动化Machine Disign,Manufacturing,and Automation热能与动力工程 Thermal and Power Engineering水利水电工程 WaterConservance and Electro-power Engineering测控技术与仪器 Technique and Instrumentation of Measurements电气工程及其自动化 Electric Engineering and its Automation自动化 Automation通信工程 Communication Engineering电子信息科学与技术 Sience and Technology of Electronic Information 计算机科学与技术 Computer Sience and Technology土木工程 Civil Engineering工程管理 Project Management给水排水工程 Water Supply and Sewage Engineering建筑环境与设备工程 Constructional Environment and Equipment Engineering 过程装备与控制工程 Processing Units and Control Engineering环境工程 Environmental Engineering化学工程与工艺 Chemacal Engineering and Technology安全工程 Safty Engineering工商管理 Industrial and Commercial Management市场营销 Market Management and Sales会计学 Accounting旅游管理 Tourism Management信息管理与信息系统 Information Management and System金融学 Finance国际经济与贸易 International Economy and Trade食品科学与工程 Food Sience and Engineering生物工程 Biological Engineering纺织工程 Textile Engineering建筑环境与设备工程、Constructional Environment and Equipment Engineering 过程装备与控制工程、Processing Units and Control Engineering现代家政学、 Modern Domestic Science运动训练科学系、 Sports Train Science食品营养与检测、 Food Nutrition and Detect国际新闻、 International News体育健康教育系 Sports Health Education哲学 Philosophy马克思主义哲学 Philosophy of Marxism中国哲学 Chinese Philosophy外国哲学 Foreign Philosophies逻辑学 Logic伦理学 Ethics美学 Aesthetics宗教学 Science of Religion科学技术哲学 Philosophy of Science and Technology经济学 Economics理论经济学 Theoretical Economics政治经济学 Political Economy经济思想史 History of Economic Thought经济史 History of Economic西方经济学 Western Economics世界经济 World Economics人口、资源与环境经济学 Population, Resources and Environmental Economics应用经济学 Applied Economics国民经济学 National Economics区域经济学 Regional Economics财政学(含税收学) Public Finance (including Taxation)金融学(含保险学) Finance (including Insurance)产业经济学 Industrial Economics国际贸易学 International Trade劳动经济学 Labor Economics统计学 Statistics数量经济学 Quantitative Economics中文学科、专业名称英文学科、专业名称国防经济学 National Defense Economics法学 Law法学 Science of Law法学理论 Jurisprudence法律史 Legal History宪法学与行政法学 Constitutional Law and Administrative Law 刑法学 Criminal Jurisprudence民商法学(含劳动法学、社会保障法学) Civil Law and Commercial Law (including Science of Labour Law and Science of Social Security Law )诉讼法学 Science of Procedure Laws经济法学 Science of Economic Law环境与资源保护法学 Science of Environment and Natural Resources Protection Law国际法学(含国际公法学、国际私法学、国际经济法学、) International law (including International Public law, International Private Law and International Economic Law)军事法学 Science of Military Law政治学 Political Science政治学理论 Political Theory中外政治制度 Chinese and Foreign Political Institution科学社会主义与国际共产主义运动 Scientific Socialism and InternationalCommunist Movement中*史(含党的学说与党的建设) History of the Communist Party of China(including the Doctrine of China Party and Party Building) 马克思主义理论与思想政治教育 Education of Marxist Theory and Education in Ideology and Politics国际政治学 International Politics国际关系学 International Relations外交学 Diplomacy社会学 Sociology社会学 Sociology人口学 Demography人类学 Anthropology民俗学(含中国民间文学) Folklore (including Chinese Folk Literature)民族学 Ethnology民族学 Ethnology马克思主义民族理论与政策 Marxist Ethnic Theory and Policy 中国少数民族经济 Chinese Ethnic Economics中国少数民族史 Chinese Ethnic History中国少数民族艺术 Chinese Ethnic Art教育学 Education教育学 Education Science教育学原理 Educational Principle课程与教学论 Curriculum and Teaching Methodology教育史 History of Education比较教育学 Comparative Education学前教育学 Pre-school Education高等教育学 Higher Education成人教育学 Adult Education职业技术教育学 Vocational and Technical Education特殊教育学 Special Education教育技术学 Education Technology心理学 Psychology基础心理学 Basic Psychology发展与心理学 Developmental and Educational Psychology应用心理学 Applied Psychology体育学 Science of Physical Culture and Sports体育人文社会学 Humane and Sociological Science of Sports 运动人体科学 Human Movement Science体育教育训练学 Theory of Sports Pedagogy and Training民族传统体育学 Science of Ethnic Traditional Sports文学 Literature中国语言文学 Chinese Literature文艺学 Theory of Literature and Art语言学及应用语言学 Linguistics and Applied Linguistics汉语言文字学 Chinese Philology中国古典文献学 Study of Chinese Classical Text中国古代文学 Ancient Chinese Literature中国现当代文学 Modern and Contemporary Chinese Literature 中国少数民族语言文学 Chinese Ethnic Language and Literature比较文学与世界文学 Comparative Literature and World Literature外国语言文学 Foreign Languages and Literatures英语语言文学 English Language and Literature俄语语言文学 Russian Language and Literature法语语言文学 French Language and Literature德语语言文学 German Language and Literature日语语言文学 Japanese Language and Literature印度语言文学 Indian Language and Literature西班牙语语言文学 Spanish Language and Literature阿拉伯语语言文学 Arabic Language and Literature欧洲语言文学 European Language and Literature亚非语言文学 Asian-African Language and Literature外国语言学及应用语言学 Linguistics and Applied Linguistics in Foreign Languages新闻传播学 Journalism and Communication新闻学 Journalism传播学 Communication艺术学 Art艺术学 Art Theory音乐学 Music美术学 Fine Arts设计艺术学 Artistic Design戏剧戏曲学 Theater and Chinese Traditional Opera电影学 Film广播电视艺术学 Radio and television Art舞蹈学 Dance历史学 History历史学 History史学理论及史学史 Historical Theories and History of Historical Science考古学及博物馆学 Archaeology and Museology历史地理学 Historical Geography历史文献学(含敦煌学、古文字学) Studies of Historical Literature (includingPaleography and Studies of Dunhuang)专门史 History of Particular Subjects中国古代史 Ancient Chinese History中国近现代史 Modern and Contemporary Chinese History世界史 World History理学 Natural Science数学 Mathematics基础数学 Fundamental Mathematics计算数学 Computational Mathematics概率论与数理统计 Probability and Mathematical Statistics 应用数学 Applied mathematics运筹学与控制论 Operational Research and Cybernetics物理学 Physics理论物理 Theoretical Physics粒子物理与原子核物理 Particle Physics and Nuclear Physics原子与分子物理 Atomic and Molecular Physics等离子体物理 Plasma Physics凝聚态物理 Condensed Matter Physics声学 Acoustics光学 Optics无线电物理 Radio Physics化学 Chemistry无机化学 Inorganic Chemistry分析化学 Analytical Chemistry有机化学 Organic Chemistry物理化学(含化学物理) Physical Chemistry (including Chemical Physics)高分子化学与物理 Chemistry and Physics of Polymers天文学 Astronomy天体物理 Astrophysics天体测量与天体力学 Astrometry and Celestial Mechanics地理学 Geography自然地理学 Physical Geography人文地理学 Human Geography地图学与地理信息系统 Cartography and Geography Information System大气科学 Atmospheric Sciences气象学 Meteorology大气物理学与大气环境 Atmospheric Physics and Atmospheric Environment海洋科学 Marine Sciences物理海洋学 Physical Oceanography海洋化学 Marine Chemistry海洋生理学 Marine Biology海洋地质学 Marine Geology地球物理学 Geophysics固体地球物理学 Solid Earth Physics空间物理学 Space Physics地质学 Geology矿物学、岩石学、矿床学 Mineralogy, Petrology, Mineral Deposit Geology地球化学 Geochemistry古生物学与地层学(含古人类学) Paleontology and Stratigraphy (including Paleoanthropology)构造地质学 Structural Geology第四纪地质学 Quaternary Geology生物学 Biology植物学 Botany动物学 Zoology生理学 Physiology水生生物学 Hydrobiology微生物学 Microbiology神经生物学 Neurobiology遗传学 Genetics发育生物学 Developmental Biology细胞生物学 Cell Biology生物化学与分子生物学 Biochemistry and Molecular Biology 生物物理学 Biophysics生态学 Ecology系统科学 Systems Science系统理论 Systems Theory系统分析与集成 Systems Analysis and Integration科学技术史 History of Science and Technology工学 Engineering力学 Mechanics一般力学与力学基础 General and Fundamental Mechanics固体力学 Solid Mechanics流体力学 Fluid Mechanics工程力学 Engineering Mechanics机械工程 Mechanical Engineering机械制造及其自动化 Mechanical Manufacture and Automation 机械电子工程 Mechatronic Engineering机械设计与理论 Mechanical Design and Theory车辆工程 Vehicle Engineering光学工程 Optical Engineering仪器科学与技术 Instrument Science and Technology精密仪器及机械 Precision Instrument and Machinery测试计量技术及仪器 Measuring and Testing Technologies and Instruments材料科学与工程 Materials Science and Engineering材料物理与化学 Materials Physics and Chemistry材料学 Materialogy材料加工工程 Materials Processing Engineering冶金工程 Metallurgical Engineering冶金物理化学 Physical Chemistry of Metallurgy钢铁冶金 Ferrous Metallurgy有色金属冶金 Non-ferrous Metallurgy动力工程及工程热物理 Power Engineering and Engineering Thermophysics工程热物理 Engineering Thermophysics热能工程 Thermal Power Engineering动力机械及工程 Power Machinery and Engineering流体机械及工程 Fluid Machinery and Engineering制冷及低温工程 Refrigeration and Cryogenic Engineering化工过程机械 Chemical Process Equipment电气工程 Electrical Engineering电机与电器 Electric Machines and Electric Apparatus电力系统及其自动化 Power System and its Automation高电压与绝缘技术 High Voltage and Insulation Technology 电力电子与电力传动 Power Electronics and Power Drives电工理论与新技术 Theory and New Technology of Electrical Engineering电子科学与技术 Electronics Science and Technology物理电子学 Physical Electronics电路与系统 Circuits and Systems微电子学与固体电子学 Microelectronics and Solid State Electronics电磁场与微波技术 Electromagnetic Field and Microwave Technology信息与通信工程 Information and Communication Engineering 通信与信息系统 Communication and Information Systems信号与信息处理 Signal and Information Processing控制科学与工程 Control Science and Engineering控制理论与控制工程 Control Theory and Control Engineering检测技术与自动化装置 Detection Technology and Automatic Equipment系统工程 Systems Engineering模式识别与智能系统 Pattern Recognition and Intelligent Systems导航、制导与控制 Navigation, Guidance and Control计算机科学与技术 Computer Science and Technology计算机软件与理论 Computer Software and Theory计算机系统结构 Computer Systems Organization计算机应用技术 Computer Applied Technology建筑学 Architecture建筑历史与理论 Architectural History and Theory建筑设计及其理论 Architectural Design and Theory城市规划与设计(含风景园林规划与设计) Urban Planning and Design (including Landscape Planning and Design)建筑技术科学 Building Technology Science土木工程 Civil Engineering岩土工程 Geotechnical Engineering结构工程 Structural Engineering市政工程 Municipal Engineering供热、供燃气、通风及空调工程 Heating, Gas Supply, Ventilating and Air Conditioning Engineering防灾减灾工程及防护工程 Disaster Prevention and Reduction Engineering and Protective Engineering桥梁与隧道工程 Bridge and Tunnel Engineering水利工程 Hydraulic Engineering水文学及水资源 Hydrology and Water Resources水力学及河流动力学 Hydraulics and River Dynamics水工结构工程 Hydraulic Structure Engineering水利水电工程 Hydraulic and Hydro-Power Engineering港口、海岸及近海工程 Harbor, Coastal and Offshore Engineering 测绘科学与技术 Surveying and Mapping大地测量学与测量工程 Geodesy and Survey Engineering摄影测量与遥感 Photogrammetry and Remote Sensing地图制图学与地理信息工程 Cartography and Geographic Information Engineering化学工程与技术 Chemical Engineering and Technology化学工程 Chemical Engineering化学工艺 Chemical Technology生物化工 Biochemical Engineering应用化学 Applied Chemistry工业催化 Industrial Catalysis地质资源与地质工程 Geological Resources and Geological Engineering矿产普查与勘探 Mineral Resource Prospecting and Exploration 地球探测与信息技术 Geodetection and Information Technology 地质工程 Geological Engineering矿业工程 Mineral Engineering采矿工程 Mining Engineering矿物加工工程 Mineral Processing Engineering安全技术及工程 Safety Technology and Engineering石油与天然气工程 Oil and Natural Gas Engineering油气井工程 Oil-Gas Well Engineering油气田开发工程 Oil-Gas Field Development Engineering油气储运工程 Oil-Gas Storage and Transportation Engineering 纺织科学与工程 Textile Science and Engineering纺织工程 Textile Engineering纺织材料与纺织品设计 Textile Material and Textiles Design纺织化学与染整工程 Textile Chemistry and Dyeing and Finishing Engineering服装设计与工程 Clothing Design and Engineering轻工技术与工程 The Light Industry Technology and Engineering 制浆造纸工程 Pulp and Paper Engineering制糖工程 Sugar Engineering发酵工程 Fermentation Engineering皮革化学与工程 Leather Chemistry and Engineering交通运输工程 Communication and Transportation Engineering道路与铁道工程 Highway and Railway Engineering交通信息工程及控制 Traffic Information Engineering & Control 交通运输规划与管理 Transportation Planning and Management载运工具运用工程 Vehicle Operation Engineering船舶与海洋工程 Naval Architecture and Ocean Engineering船舶与海洋结构物设计制造 Design and Construction of Naval Architecture and Ocean Structure轮机工程 Marine Engine Engineering水声工程 Underwater Acoustics Engineering航空宇航科学与技术 Aeronautical and Astronautical Science and Technology飞行器设计 Flight Vehicle Design航空宇航推进理论与工程 Aerospace Propulsion Theory and Engineering航空宇航器制造工程 Manufacturing Engineering of Aerospace Vehicle人机与环境工程 Man-Machine and Environmental Engineering兵器科学与技术 Armament Science and Technology武器系统与运用工程 Weapon Systems and Utilization Engineering 兵器发射理论与技术 Armament Launch Theory and Technology火炮、自动武器与弹药工程 Artillery, Automatic Gun and Ammunition Engineering军事化学与烟火技术 Military Chemistry and Pyrotechnics核科学与技术 Nuclear Science and Technology核能科学与工程 Nuclear Energy Science and Engineering核燃料循环与材料 Nuclear Fuel Cycle and Materials核技术及应用 Nuclear Technology and Applications辐射防护及环境保护 Radiation and Environmental Protection农业工程 Agricultural Engineering农业机械化工程 Agricultural Mechanization Engineering农业水土工程 Agricultural Water-Soil Engineering农业生物环境与能源工程 Agricultural Biological Environmental and Energy Engineering农业电气化与自动化 Agricultural Electrification and Automation林业工程 Forestry Engineering森林工程 Forest Engineering木材科学与技术 Wood Science and Technology林产化学加工工程 Chemical Processing Engineering of Forest Products环境科学与工程 Environmental Science and Engineering环境科学 Environmental Science环境工程 Environmental Engineering生物医学工程 Biomedical Engineering食品科学与工程 Food Science and Engineering食品科学 Food Science粮食、油脂及植物蛋白工程 Cereals, Oils and Vegetable Protein Engineering农产品加工及贮藏工程 Processing and Storage of Agriculture Products水产品加工及贮藏工程 Processing and Storage of Aquatic Products农学 Agriculture作物学 Crop Science作物栽培学与耕作学 Crop Cultivation and Farming System作物遗传育种学 Crop Genetics and Breeding园艺学 Horticulture果树学 Pomology蔬菜学 Olericulture茶学 Tea Science农业资源利用学 Utilization Science of Agricultural Resources 土壤学 Soil Science植物营养学 Plant Nutrition植物保护学 Plant Protection植物病理学 Plant Pathology农业昆虫与害虫防治 Agricultural Entomology and Pest Control 农药学 Pesticide Science畜牧学 Animal Science动物遗传育种与繁殖 Animal Genetics, Breeding and Reproduction Science动物营养与饲料科学 Animal Nutrition and Feed Science草业科学 Practaculture Science特种经济动物饲养学(含蚕、蜂等) The Rearing of Special-type EconomicAnimals (including Silkworm, Honeybees, etc.)兽医学 Veterinary Medicine基础兽医学 Basic Veterinary Medicine预防兽医学 Preventive Veterinary Medicine临床兽医学 Clinical Veterinary Medicine林学 Forestry林木遗传育种学 Forest Tree Genetics and Breeding森林培育学 Silviculture森林保护学 Forest Protection森林经理学 Forest Management野生动植物保护与利用 Wildlife Conservation and Utilization 园林植物与观赏园艺 Ornamental Plants and Horticulture水土保持与荒漠化防治 Soil and Water Conservation and Desertification Combating水产学 Fisheries Science水产养殖学 Aquaculture Science捕捞学 Fishing Science渔业资源学 Science of Fisheries Resources医学 Medicine基础医学 Basic Medicine人体解剖与组织胚胎学 Human Anatomy, Histology and Embryology 免疫学 Immunology病原生物学 Pathogenic Organisms病理学与病理生理学 Pathology and Pathophysiology法医学 Forensic Medicine放射医学 Radiation Medicine航空航天与航海医学 Aerospace and Nautical medicine临床医学 Clinical Medicine内科学(含心血管病学、血液病学、呼吸系病学、消化系病学、内分泌与代谢病学、肾脏病学、风湿病学、传染病学) Internal medicine (including Cardiology, Hematology, Respiratory, Gastroenterology, Endocrinology and Metabolism, Nephrology, Rheuma-tology, Infectious Diseases)儿科学 Pediatrics老年医学 Geriatrics神经病学 Neurology精神病与精神卫生学 Psychiatry and Mental Health皮肤病与性病学 Dermatology and Venereology影像医学与核医学 Imaging and Nuclear Medicine临床检验诊断学 Clinical Laboratory Diagnostics护理学 Nursing外科学(含普通外科学、骨外科学、泌尿外科学、胸心血管外科学、神经外科学、整形外科学、烧伤外科学、野战外科学) Surgery (General Surgery, Orthopedics, Urology, Cardiothoracic Surgery, Neurosurgery, Plastic Surgery, Burn Surgery, Field Surgery)妇产科学 Obstetrics and Gynecology眼科学 Ophthalmic Specialty耳鼻咽喉科学 Otolaryngology肿瘤学 Oncology康复医学与理疗学 Rehabilitation Medicine & Physical Therapy 运动医学 Sports Medicine麻醉学 Anesthesiology急诊医学 Emergency Medicine口腔医学 Stomatology口腔基础医学 Basic Science of Stomatology口腔临床医学 Clinical Science of Stomatology公共卫生与预防医学 Public Health and Preventive Medicine 流行病与卫生统计学 Epidemiology and Health Statistics劳动卫生与环境卫生学 Occupational and Environmental Health 营养与食品卫生学 Nutrition and Food Hygiene儿少卫生与妇幼保健学 Maternal, Child and Adolescent Health 卫生毒理学 Hygiene Toxicology军事预防医学 Military Preventive Medicine中医学 Chinese Medicine中医基础理论 Basic Theories of Chinese Medicine中医临床基础 Clinical Foundation of Chinese Medicine中医医史文献 History and Literature of Chinese Medicine方剂学 Formulas of Chinese Medicine中医诊断学 Diagnostics of Chinese Medicine中医内科学 Chinese Internal Medicine中医外科学 Surgery of Chinese Medicine中医骨伤科学 Orthopedics of Chinese Medicine中医妇科学 Gynecology of Chinese Medicine中医儿科学 Pediatrics of Chinese Medicine中医五官科学 Ophthalmology and Otolaryngoloy of Chinese Medicine针灸推拿学 Acupuncture and Moxibustion and Tuina of Chinese medicine民族医学 Ethnomedicine中西医结合医学 Chinese and Western Integrative Medicine中西医结合基础医学 Basic Discipline of Chinese and Western Integrative中西医结合临床医学 Clinical Discipline of Chinese and Western Integrative Medicine药学 Pharmaceutical Science药物化学 Medicinal Chemistry药剂学 Pharmaceutics生药学 Pharmacognosy药物分析学 Pharmaceutical Analysis微生物与生化药学 Microbial and Biochemical Pharmacy药理学 Pharmacology中药学 Science of Chinese Pharmacology军事学 Military Science军事思想学及军事历史学 Military Thought and Military History 军事思想学 Military Thought军事历史学 Military History战略学 Science of Strategy军事战略学 Military Strategy战争动员学 War Mobilization战役学 Science of Operations联合战役学 Joint Operation军种战役学(含第二炮兵战役学) Armed Service Operation (including Operation of Strategic Missile Force)战术学 Science of Tactics合同战术学 Combined-Arms Tactics兵种战术学 Branch Tactics军队指挥学 Science of Command作战指挥学 Combat Command军事运筹学 Military Operation Research军事通信学 Military Communication军事情报学 Military Intelligence密码学 Cryptography军事教育训练学(含军事体育学) Military Education and Training (including Military Physical Training)军制学 Science of Military System军事组织编制学 Military Organizational System军队管理学 Military Management军队政治工作学 Science of Military Political Work军事后勤学与军事装备学 Science of Military Logistics and Military Equipment军事后勤学 Military Logistics后方专业勤务 Rear Special Service军事装备学 Military Equipment管理学 Management Science管理科学与工程 Management Science and Engineering工商管理学 Science of Business Administration会计学 Accounting企业管理学(含财务管理、市场营销学、人力资源管理学) Corporate Management (including Financial Management, Marketing, and Human Resources Management)旅游管理学 Tourist Management技术经济及管理学 Technology Economy and Management农林经济管理学 Agricultural and Forestry Economics & Management农业经济管理学 Agricultural Economics & Management林业经济管理学 Forestry Economics & Management公共管理学 Science of Public Management行政管理学 Administration Management社会医学与卫生事业管理学 Social Medicine and Health Management教育经济与管理学 Educational Economy and Management社会保障学 Social Security土地资源管理学 Land Resource Management图书馆、情报与档案学 Science of Library, Information and Archival图书馆学 Library Science情报学 Information Science档案学 Archival Science欢迎您的下载,资料仅供参考!致力为企业和个人提供合同协议,策划案计划书,学习资料等等打造全网一站式需求。
机械设计制造及自动化专业英语翻译
机械设计制造及自动化专业英语翻译Translation of Mechanical Design, Manufacturing, and Automation MajorIntroductionKey Concepts2. Manufacturing: This refers to the transformation of raw materials into finished products through various production processes. It includes techniques such as casting, machining, welding, and assembly. The goal is to optimize efficiency, quality, and cost-effectiveness.Courses1. Engineering Mechanics: This course covers the fundamental principles of mechanics, including statics, dynamics, and strength of materials. Students learn how to analyze and predict the behavior of mechanical systems and structures underdifferent conditions.3. Manufacturing Processes: This course introduces students to various manufacturing techniques, such as machining, casting, and welding. They learn how to select the appropriate processfor different types of products and understand the factors that affect production efficiency and quality.4. Industrial Robotics: This course provides an in-depth understanding of robotic systems and their applications in industrial settings. Students learn about robot programming, control, and integration to automate manufacturing processes and improve productivity.5. Control Systems: This course covers the principles of control theory and their application in automation. Students learn about sensor technology, feedback control loops, and programming techniques to design and implement control systems for mechanical processes.Conclusion。
机械名词英译汉大全
机械名词英译汉大全机械行业是一个广泛的领域,其中包含了许多特定的名词和术语。
了解这些名词的英文翻译对于学习机械工程和通信非常重要。
本文将带您了解机械名词英译汉的大全,让您更好地掌握机械工程领域的专业术语。
A•Acceleration: 加速度•Actuator:执行器•Angular velocity: 角速度•Automation:自动化•Axis:轴B•Bearing:轴承•Bevel gear:锥齿轮•Bolt:螺栓•Bore:孔径•Bushing:套筒C•Cam:凸轮•Carrier:承载体•Clutch:离合器•Crankshaft:曲轴•Cylinder:气缸D•Deflection:挠曲•Die:模具•Drive:驱动•Dynamic:动态的E•Efficiency:效率•Elasticity:弹性•Encoder:编码器•Engine:发动机F•Fastener:紧固件•Fatigue:疲劳•Friction:摩擦•Fuel:燃料G•Gear:齿轮•Generator:发电机•Grinder:砂轮•Guide:导轨H•Heat exchanger:换热器•Hydraulic:液压的•Hose:软管•Hub:轮毂I•Idle:空闲的•Inertia:惯性•Inlet:进口•Implement:工具•Jack:千斤顶•Joint:接头•Junction:连接点•Jig:夹具K•Key:键•Kinematics:运动学•Knurling:滚花L•Laser:激光•Lever:杠杆•Lubricant:润滑剂•Lathe:车床•Machine:机器•Machining:加工•Maintenance:维护•Martensite:马氏体N•Nozzle:喷嘴•Newton:牛顿•Nonferrous:有色的•Nylon:尼龙O•Orifice:孔隙•Outlet:出口•Overload:过载P•Piston:活塞•Pulley:滑轮•Pressure:压力•Pneumatic:气动的Q•Quenching:淬火•Quick-release:快速释放•Quill:芯轴•Queue:队列R•Reducer:减速器•Reliability:可靠性•Rivet:铆钉S•Shaft:轴•Screw:螺丝•Spring:弹簧•Static:静态的T•Torque:力矩•Tolerance:公差•Thread:螺纹•Turbine:涡轮机U•Ultrasonic:超声的•Upset:擴頭•Uniform:均匀的•U-bolt:U形螺栓V•Velocity:速度•Valve:阀门•Vibration:振动•Vacuum:真空W•Welder:焊工•Worm gear:蜗杆齿轮•Welding:焊接•Wear:磨损X•X-axis:X轴•Xenon:氙气•X-ray:X射线•Xerography:静电复印Y•Yoke:夹具•Y-axis:Y轴•Yield strength:屈服强度•Yarn:纱线Z•Z-axis:Z轴•Zinc:锌•Zero clearance:零间隙•Zone:区域以上是机械名词英译汉大全,包含了机械工程领域中常见的名词和术语。
机械制造及自动化专业外文翻译--掘进机在采矿和隧道业中的应用1
外文原文:Roadheader applications in mining and tunneling industriesH. Copur1, L. Ozdemir2, and J. Rostami31Graduate Student, 2 Director and Professor, and 3 Assistant ProfessorEarth Mechanics Institute, Colorado School of Mines, Golden, Colorado, 80401 ABSTRACTRoadheaders offer a unique capability and flexibility for the excavation of soft to medium strength rock formations, therefore, are widely used in underground mining and tunneling operations. A critical issue in successful roadheader application is the ability to develop accurate and reliable estimates of machine production capacity and the associated bit costs. This paper presents and discusses the recent work completed at the Earth Mechanics Institute of Colorado School of Mines on the use of historical data for use as a performance predictor model. The model is based on extensive field data collected from different roadheader operations in a wide variety of geologic formations. The paper also discusses the development of this database and the resultant empirical performance prediction equations derived to estimate roadheader cutting rates and bit consumption.INTRODUCTIONThe more widespread use of the mechanical excavation systems is a trend set by increasing pressure on the mining and civil construction industries to move away from the conventional drill and blast methods to improve productivity and reduce costs. The additional benefits of mechanical mining include significantly improved safety, reduced ground support requirements and fewer personnel. These advantages coupled with recent enhancements in machine performance and reliability have resulted in mechanical miners taking a larger share of the rock excavation market.Roadheaders are the most widely used underground partial-face excavation machines for soft to medium strength rocks, particularly for sedimentary rocks. They are used for both development and production in soft rock mining industry (i.e. main haulage drifts, roadways, cross-cuts, etc.) particularly in coal, industrial minerals and evaporitic rocks. In civil construction, they find extensive use for excavation of tunnels (railway, roadway, sewer, diversion tunnels, etc.) in soft ground conditions, as well as for enlargement and rehabilitation of various underground structures. Their ability to excavate almost any profile opening also makes them very attractive to those mining and civil construction projects where various opening sizes and profiles need to be constructed.In addition to their high mobility and versatility, roadheaders are generally low capital cost systems compared to the most other mechanical excavators. Because of higher cutting power density due to a smaller cutting drum, they offer the capability to excavate rocks harder and more abrasive than their counterparts, such as the continuous miners and the borers.ROADHEADERS IN LAST 50 YEARSRoadheaders were first developed for mechanical excavation of coal in the early 50s. Today, their application areas have expanded beyond coal mining as a result of continual performance increases brought about by new technological developments and design improvements. The major improvements achieved in the last 50 years consist of steadily increased machine weight, size and cutterhead power, improved design of boom, muck pick up and loading system, more efficient cutterhead design, metallurgical developments in cutting bits, advances in hydraulic and electrical systems, and more widespread use of automation and remote control features. All these have led to drastic enhancements in machine cutting capabilities, system availability and the service life.Machine weights have reached up to 120 tons providing more stable and stiffer (less vibration, less maintenance) platforms from which higher thrust forces can be generated for attacking harder rock formations. . The cutterhead power has increased significantly, approaching 500 kW to allow for higher torque capacities. Modern machines have the ability to cut cross-sections over 100m2 from a stationary point. Computer aided cutterhead lacing design has developed to a stage to enable the design of optimal bit layout to achieve the maximum efficiency in the rock and geologic conditions to be encountered. The cutting bits have evolved from simple chisel to robust conical bits. The muck collection and transport systems have also undergone major improvements, increasing attainable production rates. The loading apron can now be manufactured as an extendible piece providing for more mobility and flexibility. The machines can be equipped with rock bolting and automatic dust suppression equipment to enhance the safety of personnel working at the heading. They can also be fitted with laser-guided alignment control systems, computer profile controlling and remote control systems allowing for reduced operator sensitivity coupled with increased efficiency and productivity. Figure-1 shows a picture of a modern transverse type roadheader with telescopic boom and bolting system.Mobility, flexibility and the selective mining capability constitute some of the most important application advantages of roadheaders leading to cost effective operations. Mobility means easy relocation from one face to another to meet the daily development and production requirements of a mine. Flexibility allows for quick changes in operational conditions such asFigure-1: A Transverse Cutterhead Roadheader (Courtesy of Voest Alpine)different opening profiles (horse-shoe, rectangular, etc.), cross-sectional sizes, gradients (up to 20, sometimes 30 degrees), and the turning radius (can make an almost 90 degree turn). Selectivity refers to the ability to excavate different parts of a mixed face where the ore can be mined separately to reduce dilution and to minimize waste handling, both contributing to improved productivity. Since roadheaders are partial-face machines, the face is accessible, and therefore, cutters can be inspected and changed easily, and the roof support can be installed very close to the face. In addition to these, high production rates in favorable ground conditions, improved safety, reduced ground support and ventilation requirements, all resulting in reduced excavation costs are the other important advantages of roadheaders.The hard rock cutting ability of roadheaders is the most important limiting factor affecting their applications. This is mostly due to the high wear experienced by drag bits in hard, abrasive rocks. The present day, heavy-duty roadheaders can economically cut most rock formations up to 100 MPa (~14,500 psi) uniaxial compressive strength (UCS) and rocks up to 160 MPa (~23,000 psi) UCS if favorable jointing or bedding is present with low RQD numbers. Increasing frequency of joints or other rock weaknesses make the rock excavation easier as the machine simply pulls or rips out the blocks instead of cutting them. If the rock is very abrasive, or the pick consumption rate is more than 1-pick/m3, then roadheader excavation usually becomes uneconomical due to frequent bit changes coupled with increased machine vibrations and maintenance costs.A significant amount of effort has been placed over the years on increasing the ability of roadheaders to cut hard rock. Most of these efforts have focused on structural changes in the machines, such as increased weight, stiffer frames and more cutterhead power. Extensive field trials of these machines showed that the cutting tool is still the weakest point in hard rock excavation. Unless a drastic improvement is achieved in bit life, the true hard rock cutting is still beyond the realm of possibility with roadheaders. The Earth Mechanics Institute(EMI) of the Colorado School of Mines has been developing a new cutter technology, the Mini-Disc Cutter, to implement the hard rock cutting ability of disc cutters on roadheaders,as well as other types of mechanical excavators (Ozdemir et al, 1995). The full-scale laboratory tests with a standard transverse cutterhead showed that MiniDisc Cutters could increase the ability of the roadheaders for hard rock excavation while providing for lesser cutter change and maintenance stoppages. This new cutting technology holds great promise for application on roadheaders to extend their capability into economical excavation of hard rocks. In addition, using the mini-disc cutters, a drum miner concept has been developed by EMI for application to hard rock mine development. A picture of the drum miner during full-scale laboratory testing is shown in Figure-2.Figure-2: Drum Miner CutterheadFIELD PERFORMANCE DATABASEPerformance prediction is an important factor for successful roadheader application. This deals generally with machine selection, production rate and bit cost estimation. Successful application of roadheader technology to any mining operation dictates that accurate and reliable estimates are developed for attainable production rates and the accompanying bit costs. In addition, it is of crucial importance that the bit design and cutterhead layout is optimized for the rock conditions to be encountered during excavation.Performance prediction encompasses the assessment of instantaneous cutting rates, bit consumption rates and machine utilization for different geological units. The instantaneous cutting rate (ICR) is the production rate during actual cutting time, (tons or m3 / cutting hour). Pick consumption rate refers to the number of picks changed per unit volume or weight of rock excavated, (picks / m3 or ton). Machine utilization is the percentage of time used for excavation during the projectTable-I: Classification of the Information in the DatabaseINFORMATION GROUP DETAILSGeneral Information Type/purpose of excavation (roadway, railway, sewer, mining gallery, etc.), contractor, owner, consultant, location, starting andthe Istanbul Technical University has established an extensive database related to the field performance of roadheaders with the objective of developing empirical models for accurate and reliable performance predictions. The database contains field data from numerous mining and civil construction projects worldwide and includes a variety of roadheaders and different geotechnical conditions.The empirical performance prediction methods are principally based on the past experience and the statistical interpretation of the previously recorded case histories. To obtain the required field data in an usable and meaningful format, a data collection sheet was prepared and sent to major contractors, owners, consultants, and roadheader manufacturers. In addition, data was gathered from available literature on roadheader performance and through actual visits to job sites. This data collection effort is continuing.The database includes six categories of information, as shown in Table-I. The geological parameters in the database consist generally of rock mass and intact rock properties. The most important and pertinent rock mass properties contained in the database include Rock Quality Designation (RQD), bedding thickness, strike and dip of joint sets and hydrological conditions. The intact rock properties are uniaxial compressive strength, tensile strength, quartz content, texture and abrasivity. The rock formations are divided into separate zones to minimize the variations in the machine performance data to provide for moreaccurate analysis. This also simplifies the classification of the properties for each zone and the analysis of the field performance data.The major roadheader parameters included are the machine type (crawler mounted, shielded), machine weight, cutterhead type (axial, transverse), cutterhead power, cutterhead-lacing design, boom type (single, double, telescopic, articulated), and the ancillary equipment (i.e.grippers, automatic profiling, laser guidance, bit cooling and dust suppression by water jets, etc.).The operational parameters generally affect the performance of the excavator through machine utilization. The most important operational parameters include ground support, back up system (transportation, utility lines, power supply, surveying, etc.), ground treatment (water drainage, grouting, freezing, etc.), labor (availability and quality), and organization of the project (management, shift hours, material supply, etc.).CONCLUSIONSThe evaluation and analysis of the data compiled in the roadheader field performance database has successfully yielded a set of equations which can be used to predict the instantaneous cutting rate (ICR) and the bit consumption rate(BCR) for roadheaders. A good relationship was found to exist between these two parameters and the machine power (P), weight (W) and the rock compressive strength (UCS). Equations were developed for these parameters as a function of P, W and UCS. These equations were found mainly applicable to soft rocks of evaporatic origin. The current analysis is being extended to include harder rocks with or without joints to make the equations more universal. In jointed rock, the RQD value will be utilized as a measure of rock mass characteristics from a roadheader cuttability viewpoint. It is believed that these efforts will lead to the formulation of an accurate roadheader performance prediction model which can be used in different rock types where the roadheaders are economically applicable.中文译文:掘进机在采矿和隧道业中的应用摘要掘进机为方便的挖掘中硬岩石提供了一个独特的能力。
机械设计制造及其自动化专业英语翻译超级大全
机械设计制造及其自动化专业英语翻译超级大全Mechanical Design, Manufacturing, and Automation机械 design:机械设计Manufacturing:制造Automation:自动化机械设计、制造和自动化是一个涵盖工程和技术各个方面的多学科领域。
它涉及到机械、工具和系统的设计、开发和生产,以促进工业过程。
机械设计是指创造和优化机械系统、零部件或产品的形态、结构和功能的过程。
这涉及到构思想法、进行分析和计算,并利用计算机辅助设计软件(CAD)创建详细设计。
机械设计还涉及选材、考虑制造方法,并确保最终产品符合行业标准和法规。
The manufacturing process involves transforming raw materials into finished products through various techniques and processes. This can include traditional methods such as casting, machining, and assembly, as well as more advanced techniqueslike additive manufacturing (3D printing). Manufacturing also involves quality control measures to ensure that products meet specifications and standards.制造过程涉及通过各种技术和工艺将原材料转化为成品。
这可能包括传统方法,如铸造、机械加工和组装,也包括更先进的技术,如增材制造(3D打印)。
制造还涉及质量控制措施,以确保产品符合规格和标准。
自动化在现代机械设计和制造中发挥着重要的作用。
它利用技术和控制系统在无人干预的情况下操作和控制机械和工序。
机械设计制造及其自动化毕业论文中英文资料外文翻译
机械设计创造及其自动化毕业论文外文文献翻译INTEGRATION OF MACHINERY译文题目专业机械设计创造及其自动化外文资料翻译INTEGRATION OF MACHINERY(From ELECTRICAL AND MACHINERY INDUSTRY)ABSTRACTMachinery was the modern science and technology development inevitable result, this article has summarized the integration of machinery technology basic outline and the development background .Summarized the domestic and foreign integration of machinery technology present situation, has analyzed the integration of machinery technology trend of development.Key word: integration of machinery ,technology, present situation ,product t,echnique of manufacture ,trend of development0. Introduction modern science and technology unceasing development, impelled different discipline intersecting enormously with the seepage, has caused the project domain technological revolution and the transformation .In mechanical engineering domain, because the microelectronic technology and the computer technology rapid development and forms to the mechanical industry seepage the integration of machinery, caused the mechanical industry the technical structure, the product organization, the function and the constitution, the production method and the management systemof by machinery for the characteristic integration ofdevelopment phase.1. Integration of machinery outline integration of machinery is refers in the organization new owner function, the power function, in the information processing function and the control function introduces the electronic technology, unifies the system the mechanism and the computerization design and the software which constitutes always to call. The integration of machinery development also has become one to have until now own system new discipline, not only develops along with the science and technology, but also entrusts with the new content .But its basic characteristic may summarize is: The integration of machinery is embarks from the system viewpoint, synthesis community technologies and so on utilization mechanical technology, microelectronic technology, automatic control technology, computer technology, information technology, sensing observation and control technology, electric power electronic technology, connection technology, information conversion technology as well as software programming technology, according to the system function goal and the optimized organization goal, reasonable disposition and the layout various functions unit, in multi-purpose, high grade, redundant reliable, in the low energy consumption significance realize the specific function value, and causes the overall system optimization the systems engineering technology .From this produces functional system, then becomes an integration of machinery systematic or the integration of machinery product. Therefore, of coveringtechnology is based on the above community technology organic fusion one kind of comprehensive technology, but is not mechanical technical, the microelectronic technology as well as other new technical simple combination, pieces together .This is the integration of machinery and the machinery adds the machinery electrification which the electricity forms in the concept basic difference .The mechanical engineering technology has the merely technical to develop the machinery electrification, still was the traditional machinery, its main function still was replaces with the enlargement physical strength .But after develops the integration of machinery, micro electron installment besides may substitute for certain mechanical parts the original function, but also can entrust with many new functions,like the automatic detection, the automatic reduction information, demonstrate the record, the automatic control and the control automatic diagnosis and the protection automatically and so on .Not only namely the integration of machinery product is human's hand and body extending, human's sense organ and the brains look, has the intellectualized characteristic is the integration of machinery and the machinery electrification distinguishes in the function essence.2. Integration of machinery development condition integration of machinery development may divide into 3 stages roughly.20th century 60's before for the first stage, this stage is called the initial stage .In this time, the people determination not on own initiative uses the electronic technology the preliminary achievement to consummate the mechanical product the performance .Specially in Second World War period, the war has stimulated the mechanical product and the electronic technology union, these mechanical and electrical union military technology, postwar transfers civilly, to postwar economical restoration positive function .Developed and the development at that time generally speaking also is at the spontaneouscondition .Because at that time the electronic technology development not yet achieved certain level, mechanical technical and electronic technology union also not impossible widespread and thorough development, already developed the product was also unable to promote massively. The 20th century 70~80 ages for the second stage, may be called the vigorous development stage .This time, the computer technology, the control technology, the communication development, has laid the technology base for the integration of machinery development . Large-scale, ultra large scale integrated circuit and microcomputer swift and violent development, has provided the full material base for the integration of machinery development .This time characteristic is :①A mechatronics word first generally is accepted in Japan, probably obtains the quite widespread acknowledgment to 1980s last stages in the worldwide scale ;②The integration of machinery technology and the product obtained the enormous development ;③The various countries start to the integration of machinery technology and the product give the very big attention and the support. 1990s later periods, started the integration of machinery technology the new stagewhich makes great strides forward to the intellectualized direction, the integration of machinery enters the thorough development time .At the same time, optics, the communication and so on entered the integration of machinery, processes the technology also zhan to appear tiny in the integration of machinery the foot, appeared the light integration of machinery and the micro integration of machinery and so on the new branch; On the other hand to the integration of machinery system modeling design, the analysis and the integrated method, the integration of machinery discipline system and the trend of development has all conducted the thorough research .At the same time, because the hugeprogress which domains and so on artificial intelligence technology, neural network technology and optical fiber technology obtain, opened the development vast world for the integration of machinery technology .These research, will urge the integration of machinery further to establish the integrity the foundation and forms the integrity gradually the scientific system. Our country is only then starts from the beginning of 1980s in this aspect to study with the application .The State Councilsummary had considered fully on international the influence which and possibly brought from this about the integration of machinery technology developmenttrend .Many universities, colleges and institutes, the development facility and some large and middle scale enterprises have done the massive work to this technical development and the application, does not yield certain result, but and so on the advanced countries compared with Japan still has the suitable disparity.3. Integration of machinery trend of development integrations of machinery are the collection machinery, the electron, optics, the control, the computer, the information and so on the multi-disciplinary overlapping syntheses, its development and the progress rely on and promote the correlation technology development and the progress .Therefore, the integration of machinery main development direction is as follows:3.1 Intellectualized intellectualizations are 21st century integration of machinery technological development important development directions .Theartificial intelligence obtains day by day in the integration of machinery constructor's research takes, the robot and the numerical control engine bedis to the machine behavior description, is in the control theory foundation, the absorption artificial intelligence, the operations research, the computer science, the fuzzy mathematics, the psychology, the physiology and the chaos dynamics and so on the new thought, the new method, simulate the human intelligence, enable it to have abilities and so on judgment inference, logical thinking, independent decision-making, obtains the higher control goal in order to .Indeed, enable the integration of machinery product to have with the human identical intelligence, is not impossible, also is nonessential .But, the high performance, the high speed microprocessor enable the integration of machinery product to have preliminary intelligent or human's partial intelligences, then is completely possible and essential.In the modern manufacture process, the information has become the control manufacture industry the determining factor, moreover is the most active actuation factor .Enhances the manufacture system information-handling capacity to become the modern manufacture science development a key point .As a result of the manufacture system information organization and structure multi-level, makes the information the gain, the integration and the fusion presents draws up the character, information measure multi-dimensional, as well as information organization's multi-level .In the manufacture information structural model, manufacture information uniform restraint, dissemination processing and magnanimous data aspects and so on manufacture knowledge library management, all also wait for further break through.Each kind of artificial intelligence tool and the computation intelligence method promoted the manufacture intelligence development in the manufacture widespread application .A kind based on the biological evolution algorithm computation intelligent agent, in includes thescheduling problem in the combination optimization solution area of technology, receives the more and more universal attention, hopefully completes the combination optimization question when the manufacture the solution speed and the solution precision aspect breaks through the question scale in pairs the restriction .The manufacture intelligence also displays in: The intelligent dispatch, the intelligent design, the intelligent processing, the robot study, the intelligent control, the intelligent craft plan, the intelligent diagnosis and so on are various These question key breakthrough, may form the product innovation the basic research system. Between 2 modern mechanical engineering front science different science overlapping fusion will have the new science accumulation, the economical development and society's progress has had the new request and the expectation to the science and technology, thus will form the front science .The front science also has solved and between the solution scientific question border area .The front science has the obvious time domain, the domain and the dynamic characteristic .The project front science distinguished in the general basic science important characteristic is it has covered the key science and technology question which the project actual appeared.Manufacture system is a complex large-scale system, for satisfies the manufacture system agility, the fast response and fast reorganization ability, must profit from the information science, the life sciences and the social sciences and so on the multi-disciplinary research results, the exploration manufacture system new architecture, the manufacture pattern and the manufacture system effective operational mechanism .Makes the system optimization the organizational structure and the good movement condition is makes the system modeling , the simulation and the optimized essential target .Not only the manufacture system new architecture to makes the enterprise the agility and may reorganize ability to the demand response ability to have the vital significance, moreover to made the enterprise first floor production equipment the flexibility and may dynamic reorganization ability set a higher request .The biological manufacture view more and more many is introduced the manufacture system, satisfies the manufacture system new request.The study organizes and circulates method and technique of complicated system from the biological phenomenon, is a valid exit which will solve many hard nut to cracks that manufacturing industry face from now on currently .Imitating to living what manufacturing point is mimicry living creature organ of from the organization, from match more, from growth with from evolution etc. function structure and circulate mode of a kind of manufacturing system and manufacturing process.The manufacturing drives in the mechanism under, continuously by one's own perfect raise on organizing structure and circulating mode and thus to adapt the process of[with] ability for the environment .For from descend but the last product proceed together a design and make a craft rules the auto of the distance born, produce system of dynamic state reorganization and product and manufacturing the system tend automatically excellent provided theories foundation and carry out acondition .Imitate to living a manufacturing to belong to manufacturing science and life science of"the far good luck is miscellaneous to hand over", it will produce to the manufacturing industry for 21 centuries huge of influence .机电一体化摘要机电一体化是现代科学技术发展的必然结果,本文简述了机电一体化技术的基本概要和发展背景。
机械制造及自动化专业外文翻译--螺旋输送机
外文原文:AbstractA screw conveyor composed of a plurality of modules mated end to end and of identical integrally molded construction. Each module is molded of a suitable plastic material and has integrally formed therewith a cylindrical body, a coaxially disposed tube within the body, and a web helically disposed between the coaxial tube and the cylindrical body. The module includes ends mateable with corresponding ends of like modules to provide a screw conveyor of intended length and which is rotatable as a single unitary structure. Each module may have a sheave integrally molded thereon for mating with a V-belt drive. Alternatively, the modules can be of open form each having a helical web molded on a central tube preferably having a non-circular and adapted for end to end mating with like modules to provide a screw conveyor of desired length. This open type of screw conveyor can be readily retrofitted to systems havingconventional metal conveyor screws.MODULAR SCREW CONVEYOR.FIELD OF THE INVENTIONThis invention relates to screw conveyors, and more 10 particularly to an integrally constructed modular screw conveyor molded of a plastic material.BACKGROUND OF THE INVENTIONScrew conveyors are well known for the transport of bulk material. Such conveyors generally include a helical screw disposed within housing, often of trough like form, and rotatable about its longitudinal axis to cause propulsion of bulk material along the length of the screw. Conveyors of known construction are usually fabricated of metal and are constructed to an intended finished size to provide a conveyor of intended length. Screw conveyors have also been constructed of modular or segmented form to provide sections which can be assembled into a complete conveyor of a desired length. Examples of segmented or modular conveyors are shown in U.S. Pat. Nos. 349,233; 525,194; 1,867,573; 2,394,163; 2,492,915 and 3,178,210.SUMMARY OF THE INVENTIONThe present invention provides a screw conveyor composed of identical end to end mated modules, each module being of integral plastic molded construction. Each module includes a body of cylindrical configuration, a tube coaxially disposed within the cylindrical body and having an opening extending there through, with a web helically disposed between the coaxial tube and cylindrical body. The ends of the body and coaxial tube are configured to seemingly engage like ends of mated modules, and the respective ends of the helical web include surfaces mateable with corresponding surfaces of the modules. The modules are axially mated to form a conveyor of desired length, the mated modules being retained in engagement by a tensile member such as a rod disposed through the aligned openings of the coaxial tubes and operative to provide an intended compressive force on the engaged modules. Alternatively, the modules can be secured in engagement by other means such as flanges on the ends of the body. The module body, coaxial tube, and helical web are integrally molded of a suitable plastic material, typically by an injection molding process. Each module may include a sheave integrally formed with the body which is composed of a plurality of spaced segments todefine a V-groove configured to mate with a V-belt of an exterior drive. Alternatively, sprocket teeth may be integrally formed with the module body to mate with a chain drive, or other driving means can be employed.In the embodiment described above, the helical web is integrally formed within a surrounding tube which provides a self-enclosure for the helical screw. The conveyor of the present invention can also be embodied in open form in which the module comprises a central tube preferably having a non-circular opening, about which the helical web is integrally molded. The ends of the central tube and ends of the web are mateable with the ends of the modules to provide a conveyor of desired length.The modules are retained in compressive engagement by a tensile member such as a shaft of non- circular cross-section extending through the aligned non-circular openings of the central tubes, the rod also serving as a tensional drive shaft for the mated modules. This open type of screw conveyor driven by a central shaft is adapted to be readily retrofitted to existing conveyor systems which presently employ conventional metal conveyor screws.The molded plastic conveyor of this invention offers major benefits over screw conveyors of conventional construction. The assembled modules offer smooth effectively continuous surfaces throughout the length of the conveyor with no hardware or other obstructions along the conveying surfaces. The novel conveyor is easily cleaned and can be molded of a variety of materials compatible with and suitable for particular operational purposes. The conveyor is not subject to rust or corrosion, as with many conveyors, and is of much less weight than a metal conveyor of the same size. The modular construction allows a single unitary module to be manufactured and stocked for assembly as necessary to achieve conveyors of different lengths. The modules can be easily shipped to an installation site and assembled on site for use. The conveyor can also be readily disassembled into its component modules such as for cleaning, shipping, or repair.DESCRIPTION OF THE DRAWINGSThe invention will be more fully understood from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. 1 is a pictorial view of a screw conveyor module embodying the invention; FIG. 2 is an end view of the module of FIG. 1; FIG. 3 is a sectional view taken along lines 3—3 of FIG. 2; FIG. 4 is a pictorial view of an embodiment similar to that of FIG. 1 and including an integrally molded sheave thereon; FIG. 5 is an end view of the module of FIG. 4; FIG. 6 is a sectional view taken along lines 6—6 of FIG. 5; FIG. 7 is a sectional side view of a screw conveyor embodying the invention and composed of the modules of FIGS. 1-3; FIG. 8 is a cutaway side view of a module having alternative mounting means; FIG. 9 is a sectional elevation view of a further embodiment of a screw conveyor module of the invention; FIG. 10 is an end view of the module of FIG. 9; FIG.11 is a side view of a screw conveyor embodying the invention and composed of the modules of FIGS. 9 and 10; and FIG. 12 is a pictorial view of a further embodiment of a screw conveyor module of the invention.DETAILED DESCRIPTION OF THEINVENTIONReferring to FIGS. 1-3 of the drawing, there is shown an integrally molded module which is mated with like modules to form a screw conveyor of intended length. The module is molded of a suitable plastic material such as polyethylene, polypropylene or polyurethane and has integrally formed therewith all essential constituents of the screw conveyor. The module includes a body of tubular configuration having on the ends thereof circular grooves 12 and 16, respectively, for accommodation of an O-ring seal between mated modules. A tube 16 is coaxially disposed within body 10 and having an opening 18 extending there through, with a web 20 helically disposed between the inner surface of body 10 and outer surface of tube 16. The tube 16 includes on the respective ends thereof circular grooves 5 17 for accommodation of an O-ring seal. The web 20 is slightly less than one helical pitch length terminating in respective ends 22 and 24 which include radically parallel surfaces 26 adapted to confront corresponding surfaces of like modules. Thus, the surface 26 of helix end 10 22 is adapted to confront the oppositely facing edge of end 24 of an adjacent module. The web ends extend outward of the confronting ends of body 10 typically by approximately 1/2 the wall thickness of the web, as illustrated. By having the length of the helical web 15 slightly less than the helical pitch it is possible to injection mold the module by conventional molding techniques since as seen from FIG. 2 the two halves of an injection mold can open axially of the module which, because its helical length is slightly less than one helical pitch, presents no undercuts to the mold halves. Typically, the web length is about one percent less than the pitch length to provide sufficient clearance for mold tooling.An embodiment similar to that of FIGS. 1-3 is shown in FIGS. 4-6 and includes a sheave integrally molded with the conveyor module. The sheave isprovided around the body centrally disposed between the respective ends of the body, the sheave being composed of alternating segments. A first array of segments is disposed around the body in spaced circumferential arrangement.A second array of segments is axially spaced from the segments and is circumferentially disposed about body in spaced position staggered from the position of the segments, as illustrated. The confronting surfaces and of respective segments and define a V-groove, best seen in FIG. 6, configured to mate with a V-belt of an exterior drive. The module is otherwise the same as described above with respect to FIGS. 1-3. The staggered arrangement of the segments and allow injection molding by conventional injection molding techniques since the staggered arrangement as seen from FIGS. 4-5 permits the mold halves to open axially of the module and presents no undercuts to the mold halves.The module of FIGS. 1-3 is axially mated with like modules, as shown in FIG. 7, to form a conveyor of desired length. Each of the modules is aligned with the ends of adjacent bodies in engagement with an interposed O-ring, and with the ends of adjacent tubes in engagement with an interposed O-ring. The helical webs have their edges confronting to provide an effectively continuous helical screw disposed within the continuous tubular body formed by the mated modules. Since the web is slightly less than one helical pitch length, small spaces exist between the confronting web ends of mated modules. Typically, the gap between confronting web ends is about 0.1 inch for a web of eight inch diameter. The small spaces between the confronting ends of the helical web are of little consequence to the ability of the assembled screw to convey most products.The small spaces may be filled in with material which is the same as or compatible with that of the module. For example, molded strips of plastic material can be inserted into the small spaces between web ends and fusedtherein, such as by hot gas welding, to produce a helical web having fully continuous surfaces. The elimination of the small gaps is useful in some applications such as where sanitary conditions require. For most conveying purposes, the small spaces are not of any consequence.The mated modules are maintained in engagement by a tensile member disposed within the openings of tubes. This member typically is a metal rod 41 having threaded ends 42 and fasteners 44 which are tightened to provide an intended compressive force on the engaged modules. Alternatively, the tensile member can be a wire, plastic, or other rope disposed within the openings 18 of tubes 16 and tensioned by appropriate fasteners on the respective ends of the rope. In cases where the conveyor is subject to changes in temperature, it would be preferable to have a tensile member which allows for expansion and contraction of the conveyor while maintaining the axial compressive force on the mated modules. The tensile member should be of a material having thermal expansion and contraction characteristics in relation to those of the modules to maintain a compressive load on the mated modules even during temperature cycling.The modules can alternatively be secured together by means other than a tensile member. One such alternative is illustrated in FIG. 8 in which the body 10 includes on each end thereof an integral flange 45 having openings 47 disposed about the circumference of the flange and through which fasteners are insert able for securing mated ends together.The mated modules may be supported for rotation on rollers 46. Typically, an array of three circumferentially spaced rollers is provided near each end of the conveyor body. Additional rollers can be provided as necessary, depending upon the length of the particular conveyor. Axial positioning of the conveyor body is maintained by horizontally disposed rollers 48 at each end of the body, these rollers being circumferentially spaced about the periphery ofthe body. A flange 50 is attached to the end modules of the conveyor and includes a circular surface 52 which is cooperative with the rollers 48 to maintain the axial position of the rot able body. A slip seal can be machined or otherwise formed in the outer end of the outermost module. In the illustrated embodiment, the slip seal is in the form of an annular groove 54 into which an end of a feed tube 56 is inserted, and with respect to which the conveyor body is rotatable. The feed tube 56 is typically connected to a hopper 58 into which a product is fed (as shown by the arrow) for conveyance.The drive assembly 60 includes sheaves 62 carried by and rotatable with a shaft 64 which is supported on bearing blocks 66 and which is driven by a motor (not shown). The shaft 64 is spaced from and parallel to the conveyor body, and each sheave 62 may be in association with a respective conveyor module. V-belts 68 couple the drive sheaves 62 to the conveyor modules and by which power is transmitted to the conveyor body for rotation thereof. In the illustrated embodiment, each of the modules is driven by an associated conveyor belt coupled to the drive assembly. All of the conveyor modules need not be driven, and the driven number will be determined in accordance with the motive force necessary to rotate the conveyor for particular applications.If the modules of FIGS. 4-6 are employed, the sheaves 28 are operative to engage the V-belts 68 for driving the conveyor. It is appreciated that the conveyor can be driven by other than V-belts. For example, chain sprockets can be formed on or attached to the modules for cooperation with a chain drive.Another embodiment of the invention is shown in FIGS. 9 and 10 and includes a screw conveyor module having a central tube 70 of cylindrical exterior form, 5 with a non-circular opening there through and with a web 72 helically disposed about the central tube. The helical web is slightly less in length than one helical pitch length, as described, and terminates at edges 74and 76, these edges being adapted to confront corresponding edges of adjacent modules. The opening 78 through the central tube is of non-circular cross-section at end portions 80 and tapers to a non-circular cross-section at a central portion 82. This tapering is slight and is provided as "draft angle" to facilitate removal of the 15 module from axially separable molds. The opening is configured to mate with a non-circular shaft which serves as a tensile member to lock the modules into axial engagement and which also serves as a positive drive shaft for rotation of the conveyor. In the embodiment of FIGS. 9 and 10, the opening is illustrated as hexagonal, although other noncircular shaped openings can be provided in tube for use with a correspondingly shaped shaft to prevent rotation of the engaged modules relative to the shaft.A screw conveyor composed of the modules of FIGS. 9 and 10 is shown in FIG. 11. Each of the modules is aligned with the ends of adjacent central tubes 70 in engagement with an interposed O-ring 84, and with the helical webs 72 having their ends confronting to 35 provide an effectively continuous helical screw. A shaft 86 is fitted through the openings 80 through the tubes 70 and is secured by end fasteners, such as nuts 88 threaded onto threaded ends of shaft 86, which are tightened to provide an intended compressive force on the interconnected modules, as described above. This embodiment of FIG. 11 can be employed to retrofit existing metal screw conveyors without material change to the drive system.中文译文:摘要螺旋输送机由多个首尾相连的组件和同一的整体塑造构件组成。
自动化专业英语原文和翻译
自动化专业英语原文和翻译英文原文:Automation in the field of engineering has brought about significant advancements and revolutionized various industries. With the help of cutting-edge technology and innovative solutions, automation has become an integral part of many processes, increasing efficiency and productivity.In the field of automation engineering, professionals are responsible for designing, developing, and implementing automated systems and machinery. These systems are designed to perform tasks with minimal human intervention, reducing the risk of errors and improving overall performance.Automation engineering involves the use of various tools and technologies such as programmable logic controllers (PLCs), robotics, and computer-aided design (CAD) software. These tools enable engineers to design and control complex systems, ensuring smooth operations and optimal performance.One of the key benefits of automation in engineering is the ability to streamline processes and reduce manual labor. By automating repetitive tasks, engineers can focus on more complex and critical aspects of their work, leading to increased productivity and higher quality output.Moreover, automation plays a crucial role in enhancing safety in various industries. By replacing human workers with automated systems, the risk of accidents and injuries can be significantly reduced. Automated systems are designed to follow strict safety protocols and can perform tasks in hazardous environments that may be dangerous for humans.In addition to improving efficiency and safety, automation also offers cost-saving benefits. Although the initial investment in automation technology may be high, the long-term savings in labor costs and increased productivity outweigh the initial expenses.Automation can also lead to reduced material wastage and improved resource management.Automation engineering professionals play a vital role in the design and implementation of automated systems. They are responsible for conducting thorough analysis, developing system requirements, and ensuring seamless integration of automation technology into existing processes. They also provide technical support and troubleshooting expertise to address any issues that may arise.In conclusion, automation in the field of engineering has revolutionized various industries by increasing efficiency, productivity, and safety. Automation engineering professionals play a crucial role in designing and implementing automated systems, utilizing cutting-edge technology and innovative solutions. With the continuous advancements in automation technology, the future of engineering looks promising, with even greater possibilities for improved performance and streamlined processes.中文翻译:自动化在工程领域带来了重大的进步,并对各行各业进行了革命性的改变。
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MechatronicsElectrical machinery and electronics, also known as the integration of science, English as Mechatronics, it is by English mechanics of the first half of Mechanics and Electronics of the latter part of a combination of Electronics. Mechatronics 1971, first appeared in Japanese magazine, "Machine Design" on the supplement, with the mechanical-electrical integration of the rapid development of technology, electromechanical integration, the concept was widely accepted and we have universal application. With the rapid development of computer technology and extensive application of mechatronics technology unprecedented development. Mechatronics present technology, mechanical and micro-electronics technology is closely a set of technologies, the development of his machine has been cold humane, intelligent.Specific mechanical and electrical integration technologies, including the following: (1) mechanical engineering machinery and technology is the basis of mechatronics, mechanical technology, focused on how to adapt to mechanical and electrical integration technologies, the use of other high and new technology to update the concept, the realization of the structure, materials, the performance changes to meet the needs to reduce weight, reduce the size and improve accuracy, increase the stiffness and improving the performance requirements. Mechatronic systems in the manufacturing process, the classical theory and technology of mechanical computer-aided technology should help, while the use of artificial intelligence and expert systems, the formation of a new generation of mechanical manufacturing technology.(2) Computer and Information TechnologyWhich information exchange, access, computing, judge and decision-making, artificial intelligence techniques, expert system technology, neural networks are computer information processing technology.(3) System TechnologySystem technology that is the concept of the overall application of related technology organizations, from the perspective of the overall objectives and systems will be interconnected into the overall number of functional units, system interface technology is an important aspect of technology, it is an organic part of the realization of system guarantee connectivity.(4) Automatic Control TechnologyIts scope is broad, under the guidance of the control theory for system design, design of system simulation, live debugging, control technology include, for example,high-precision positioning control, speed control, adaptive control, self-diagnosis calibration, compensation, reproduction, retrieval, etc. .(5) Sensor detection technologySensor detection technology is the feeling of organ systems, is to achieve automatic control, the key to automatic adjustment. The stronger its functions, the system the higher the automation process. Engineering requirements of modern sensors can be fast and accurate access to information and are able to withstand the harsh environment of the test, it is the mechanical-electrical integration systems to achievea high level of assurance.(6) Servo-drive technology, including electric, pneumatic, hydraulic and other types of actuators, servo system is a signal to the mechanical action to achieve the conversion devices and components, the dynamic performance of the system, control the quality and features have a decisive impact.Mechatronics system1. Machinery ontology ontology including mechanical rack, mechanical connections, such as mechanical transmission, which is the basis of mechanical-electrical integration, play a support system of other functional units, transmission of the role of movement and power. And compared to purely mechanical products, electrical and mechanical systems integration technology to improve performance, enhanced functionality, which requires mechanical ontology in the mechanical structure, materials, processing technology, as well as the areas of geometry to adapt, with high efficiency, multi-functional, reliable and energy-saving, small, lightweight, aesthetically pleasing characteristics.2. Detection sensor detecting sensor part includes a variety of sensors and signal detection circuit, and its function is to detect the process of mechatronic systems in the work itself and the external environment changes in the relevant parameters and information to the electronic control unit, electronic control unit checks the information in accordance with the actuator to the corresponding control issue.3. Electronic Control Unit, also known as electronic control unit ECU (Electrical Control Unit), is the core of Mechatronic Systems, responsible for testing the sensor from the external input signal and centralized command, storage, computing, analysis, information processing based on the results of according to a certain extent and pace of the instructions issued to control the destination for the entire system.4. Executor's role in the implementation of electronic control unit in accordance with the order-driven movement of mechanical components. Implementation is movingparts, usually electric, pneumatic and hydraulic drive, such as driving a number of ways.5. The power source power source is a mechanical-electrical integration products part of the energy supply, the role of system control in accordance with the requirements of mechanical systems to provide energy and power system normal operation. Way to provide energy, including electricity, gas, energy and hydraulic energy, mainly electricity.Main Courses MechatronicsMechanical aspects: mechanical drawing, mechanical design, engineering materials, engineering mechanics, numerical control programming techniques, autoCAD, Mastercam software, C #Electrical connection: Programmable Logic Controller PLC, MCU, Automatic Control Theory, Digital Circuits, Electrical and ElectronicInternship Program: Power Drive, PLC, MCU, fitter, ordinary cars, milling, planer, NC cars, milling, machining centerThe professional training objectivesProfessional training of the moral, intellectual, physical, and aesthetic development, entrepreneurial, innovative spirit and the high professional ethics expertise, master mechanical technology and electrical technology, basic theory and professional knowledge; have the appropriate practical skills, as well as strong practical work the ability to carry out skilled mechanical and electrical integration products and equipment, maintenance, installation, commissioning, sales and management of front-line personnel in high technology applications.The professional career-orientedMechatronics is a professional宽口径professional, to adapt to a wide range of students in school during the study in addition to a variety of mechanical, electrical electronics, computer technology, control technology, sensor detection, such as theory of knowledge, will also participate in a variety of skills training and National Vocational Qualification Certificate Examination, fully embodies the characteristics of attention to skills development. Students graduated from the Pearl River Delta will be mainly oriented company engaged in processing and manufacturing, household appliances production and after-sales service, the use of CNC machine tool equipment maintenance, property management system for automation, electrical and mechanical product design, production, transformation, technical support, as well as electrical and mechanical equipment installation, commissioning, maintenance, sales, management and so on.1, the main jobs: electromechanical integration equipment, installation, commissioning, maintenance, sales and management; general machine tools, such as modification of the NC.2, secondary jobs: mechatronics product design, production, transformation, and other technical services机电一体化技术机电一体化又称机械电子学,英语称为Mechatronics,它是由英文机械学Mechanics的前半部分与电子学Electronics的后半部分组合而成。