机械制造加工领域的外文期刊

EI收录的机械类期刊1. Journal of Xi'an Jiaotong University 0253-987X 《西安交通大学学报》地址：西安市咸宁西路28号，邮编：7100492. Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University1000-2758 《西北工业大学学报》地址：西安市友谊西路59号，邮编：7100723. Xi'an Dianzi Keji Daxue Xuebao/Journal of Xidian University 1001-2400 西安电子科技大学学报4. Mechanism and Machine TheoryISSN: 0094114XPublisher: Elsevier Ltd, Langford Lane, Kidlington, Oxford, OX5 1GB, United Kingdom5. Computer Methods in Applied Mechanics and EngineeringISSN: 00457825Publisher: Elsevier, P.O. Box 211, Amsterdam, 1000 AE, Netherlands6. Engineering Fracture MechanicsISSN: 00137944Publisher: Elsevier Ltd, Langford Lane, Kidlington, Oxford, OX5 1GB, United Kingdom7. Journal of Applied Mechanics, Transactions ASMEISSN: 00218936Publisher: American Society of Mechanical Engineers, 3 Park Avenue, New York, NY 10016-5990, United States8. International Journal of Mechanical SciencesISSN: 00207403Publisher: Elsevier Ltd, Langford Lane, Kidlington, Oxford, OX5 1GB, United Kingdom9. IEEE Transactions on Pattern Analysis and Machine IntelligenceISSN: 01628828Publisher: IEEE Computer Society, 445 Hoes Lane - P.O.Box 1331, Piscataway, NJ 08855-1331, United States10. International Journal of Machine Tools and ManufactureISSN: 08906955Publisher: Elsevier Ltd, Langford Lane, Kidlington, Oxford, OX5 1GB, United Kingdom11. Genetic Programming and Evolvable MachinesISSN: 13892576Publisher: Springer New York, 233 Springer Street, New York, NY 10013-1578, United States12. Machine LearningISSN: 08856125Publisher: Springer Netherlands, Van Godewijckstraat 30, Dordrecht, 3311 GZ, Netherlands13. Journal of Machine Learning ResearchISSN: 15324435Publisher: Microtome Publishing, 31 Gibbs Street, Brookline, MA 02446, United States14. International Journal of Machining and Machinability of MaterialsISSN: 17485711Publisher: Inderscience Enterprises Ltd, P.O.Box 735, Olney, Bucks, MK46 5WB, United Kingdom15. Nongye Jixie Xuebao/Transactions of the Chinese Society of Agricultural Machinery ISSN: 10001298Publisher: Chinese Society of Agricultural Machinery, No. 1 Beishatan Deshengmen Wai, Beijing, 100083, China16.Journal of Machinery Manufacture and ReliabilityISSN: 10526188Publisher: Allerton Press Inc., 18 West 27th Street, New York, NY 10001, United States17.International Journal of Rotating MachineryISSN: 1023621XPublisher: Hindawi Publishing Corporation, 410 Park Avenue, 15th Floor, 287 pmb, New York, NY 10022, United States。

1418. CIRP ANNALS-MANUFACTURING TECHNOLOGYSemiannual ISSN: 0007-8506 TECHNISCHE RUNDSCHAU EDITION COLIBRI LTD, NORDRING 4, BERN, SWITZERLAND, CH-30013020. INTERNATIONAL JOURNAL OF ADV ANCED MANUFACTURING TECHNOLOGY Monthly ISSN: 0268-3768 SPRINGER LONDON LTD, ASHBOURNE HOUSE, THE GUILDW AY, OLD PORTSMOUTH ROAD, ARTINGTON, ENGLAND, GUILDFORD, GU3 1LP3132. INTERNATIONAL JOURNAL OF MACHINE TOOLS & MANUFACTUREMonthly ISSN: 0890-6955 ELSEVIER SCI LTD, THE BOULEV ARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND, OXON, OX5 1GB3942. JOURNAL OF MANUFACTURING SCIENCE AND ENGINEERING TRANSACTIONS OF ASME Quarterly ISSN: 1087-1357 ASME-AMER SOC MECHANICAL ENG, THREE PARK A VE, NEW YORK, USA, NY, 10016-59903943. JOURNAL OF MANUFACTURING SYSTEMSBimonthly ISSN: 0278-6125 SOC MANUFACTURING ENGINEERS, ONE SME DRIVE, PO BOX 930, DEARBORN, USA, MI, 48121-09304680. MANUFACTURING ENGINEERINGMonthly ISSN: 0361-0853 SOC MANUFACTURING ENGINEERS, ONE SME DRIVE, PO BOX 930, DEARBORN, USA, MI, 48121-09304710. MATERIALS AND MANUFACTURING PROCESSESBimonthly ISSN: 1042-6914TA YLOR & FRANCIS INC, 325 CHESTNUT ST, SUITE 800, PHILADELPHIA, USA, PA, 191063134. INTERNATIONAL JOURNAL OF MATERIALS & PRODUCT TECHNOLOGY Tri-annual ISSN: 0268-1900INDERSCIENCE ENTERPRISES LTD, WORLD TRADE CENTER BLDG, 29 ROUTE DE PRE-BOIS, CASE POSTALE 896, GENEV A, SWITZERLAND, CH-12153951. JOURNAL OF MATERIALS PROCESSING TECHNOLOGYSemimonthly ISSN: 0924-0136ELSEVIER SCIENCE SA, PO BOX 564, LAUSANNE, SWITZERLAND, 10013952. JOURNAL OF MATERIALS RESEARCHMonthly ISSN: 0884-2914MA TERIALS RESEARCH SOC, 506 KEYSTONE DR, WARRENDALE, USA, PA, 150863953. JOURNAL OF MATERIALS SCIENCESemimonthly ISSN: 0022-2461SPRINGER, 233 SPRING STREET, NEW YORK, USA, NY, 100133954. JOURNAL OF MATERIALS SCIENCE & TECHNOLOGYBimonthly ISSN: 1005-0302JOURNAL MA TER SCI TECHNOL, 72 WENHUA RD, SHENY ANG, PEOPLES R CHINA, 110015 4540. JOURNAL OF WUHAN UNIVERSITY OF TECHNOLOGY-MATERIALS SCIENCE EDITION Quarterly ISSN: 1000-2413 JOURNAL WUHAN UNIV TECHNOLOGY, WUHAN UNIV TECHNOLOGY, WUHAN, PEOPLES R CHINA, 4300704726. MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSINGBimonthly ISSN: 1369-8001 ELSEVIER SCI LTD, THE BOULEV ARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND, OXON, OX5 1GB4655. MACHINING SCIENCE AND TECHNOLOGYQuarterly ISSN: 1091-0344 TA YLOR & FRANCIS INC, 325 CHESTNUT ST, SUITE 800, PHILADELPHIA, USA, PA, 191062604. MATERIALS SCIENCE AND TECHNOLOGYMonthly ISSN: 0267-0836 MANEY PUBLISHING, STE 1C, JOSEPHS WELL, HANOVER WALK, LEEDS, ENGLAND, W YORKS, LS3 1AB0272-5673,American Society of Mechanical Engineers, Manufacturing Engineering Division, MED0007-8506 CIRP Annals - Manufacturing Technology0951-5240 Computer Integrated Manufacturing Systems1083-4400 IEEE Transactions on Components, Packaging, and Manufacturing Technology Part C: Manufacturing0894-6507 IEEE Transactions on Semiconductor Manufacturing0957-6061 Integrated Manufacturing Systems0268-3768 International Journal of Advanced Manufacturing Technology0890-6955 International Journal of Machine Tools & Manufacture0899-0956 Journal of Applied Manufacturing Systems1087-1357 Journal of Manufacturing Science and Engineering, Transactions of the ASME1062-0656 Journal of Materials Processing and Manufacturing Science0924-0136 Journal of Materials Processing Technology0956-9944 Manufacturing Engineer0361-0853 Manufacturing Engineering0748-948X Manufacturing Systems0954-4054 Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 0301-4215 Energy Processing/Canada1073-5615 Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science张保国 11:10:38SPRINGER张保国 11:11:08TAYLOR & FRANCIS1.1418. CIRP annals-manufacturing technology2.3020. International Journal of Advanced Manufacturing T echnology3.3132. International Journal of Machine T ools & Manufacture4.3942. Journal of Manufacturing Science And Engineering T ransactions of Asme5.3943. Journal of Manufacturing Systems6.4680. Manufacturing Engineering7.4710. Materials and Manufacturing Processes8.3134. International Journal of Materials & Product T echnology9.3951. Journal of Materials Processing T echnology10.3952. Journal of Materials Research11.3953. Journal of Materials Science12.3954. Journal of Materials Science & T echnology13.4655. Machining Science and T echnology14.2604. Materials Science and T echnology15.0272-5673,American Society of Mechanical Engineers, Manufacturing Engineering Division, MED16.IEEE Transactions on Components, Packaging, and Manufacturing Technology Part C: Manufacturing17.IEEE Transactions on Semiconductor Manufacturing18.Integrated Manufacturing Systems19.International Journal of Advanced Manufacturing Technology20.International Journal of Machine Tools & Manufacture21.Journal of Applied Manufacturing Systems22.Journal of Manufacturing Science and Engineering, Transactions of the ASME23.Journal of Materials Processing and Manufacturing Science24.Journal of Materials Processing Technology25.Manufacturing Engineer26.Manufacturing Engineering27.0748-948X Manufacturing Systems28.Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture29.Energy Processing/Canada。

机械专业SCI期刊汇总1. Journal of Mechanical Design（JMD）主要领域：机械设计与创新、计算机辅助工程设计等。

出版社：ASME。

影响因子：2.1522. Journal of Fluids Engineering（JFE）主要领域：流体力学、流体工程等。

出版社：ASME。

影响因子：1.9523. Journal of Heat Transfer（JHT）主要领域：传热学、热力学等。

出版社：ASME。

影响因子：1.6634. International Journal of Machine Tools and Manufacture （IJMTM）主要领域：机床与制造技术、数控技术等。

出版社：Elsevier。

影响因子：4.2015. Journal of Sound and Vibration（JSV）主要领域：声学、振动工程等。

出版社：Elsevier。

影响因子：2.4686. Tribology International（TI）主要领域：摩擦学、磨损学等。

出版社：Elsevier。

影响因子：3.5427. International Journal of Mechanical Sciences（IJMS）主要领域：机械科学综合、机械系统与控制等。

出版社：Elsevier。

影响因子：4.630。

8. Applied Mechanics Reviews（AMR）主要领域：应用力学、弹性体力学等。

出版社：ASME。

影响因子：12.860。

9. Wear主要领域：磨损学、表面工程等。

出版社：Elsevier。

影响因子：3.32310. Journal of Materials Processing Technology（JMPT）主要领域：材料加工技术、成形工艺等。

出版社：Elsevier。

影响因子：4.080。

除了以上列举的SCI期刊，机械工程领域还有许多其他优秀的SCI期刊，如Journal of Power Sources、Mechatronics等。

刊物号0890-6955 0268-3768 0020-7403 0007-8506 0094-114X 0932-8092 2234-7593 0954-4828 0020-7543 1042-6914 1091-0344 0924-0136 0954-40540954-4062期刊名INTERNATIONAL JOURNAL OF MACHINE TOOLS & MANUFACTURE INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY INTERNATIONAL JOURNAL OF MECHANICAL SCIENCESCIRP ANNALS-MANUFACTURING TECHNOLOGYMECHANISM AND MACHINE THEORYMACHINE VISION AND APPLICATIONSInternational Journal of Precision Engineering and ManufacturingJOURNAL OF ENGINEERING DESIGNSCI分区影响因子（2013）评价2区 2.743机械加工行业顶尖的期刊3区 1.779已投被拒3区 2.061有点难，主要偏力学3区 2.541审稿周期过长，一般都是一年3区 1.31审稿周期过长3区 1.444偏计算机领域3区 1.5精密加工，绿色制造4区 1.381机构，机械工程与材料3区 1.323制造系统自动化也有，但是更偏重管理科学，工业工程方向4区 1.486主要是材料方向，而且会查重，图片格式有要求4区0.657制造过程自动化。

侧重加工过程，切削理论方向，但是一年只接受32篇论文，难3区 2.041偏加工方向，编辑比较认真，有点难度4区0.661偏加工制造方法4区0.5894区0.783审稿很严格，周期一年左右加工制造领域直接相关期刊中的顶级刊物4区3区 3.594区0.279日本期刊，审稿周期短，4区0.454EI接受32篇论文，难度较大级刊物，其对文章的理论性/可实用性/以至文笔都有比较高的要求。

2007年SCI收录机械工程学科期刊（103种）• 1. ACTA MECHANICA SINICA《力学杂志》德国• 2. ADV ANCES IN APPLIED MECHANICS《应用力学进展》美国• 3. AEROSOL SCIENCE AND TECHNOLOGY《气溶胶科学与技术》美国• 4. APPLIED THERMAL ENGINEERING《实用热力工程》英国• 5. ASHRAE JOURNAL《美国供暖、制冷与空调工程师学会志》美国• 6. ATOMIZATION AND SPRAYS《雾化与喷射》美国•7. BWK《燃料、热能与动力》德国•8. CHINA OCEAN ENGINEERING《中国海洋工程》中国•9. DIESEL PROGRESS NORTH AMERICAN EDITION《柴油机进展北美版》美国•10. DRYING TECHNOLOGY《干燥技术》美国•11. ENGINEERING FAILURE ANAL YSIS《工程事故分析》英国•12. ENGINEERING WITH COMPUTERS《计算机在工程中的应用》德国•13. EXPERIMENTAL HEAT TRANSFER《实验传热》美国•14. EXPERIMENTAL TECHNIQUES《实验技术》美国•15. EXPERIMENTAL THERMAL AND FLUID SCIENCE《实验热力和流体科学》美国•16. EXPERIMENTS IN FLUIDS《流体力学实验》德国•17. FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES《工程材料及结构的疲劳与断裂》英国•18. FLOW MEASUREMENT AND INSTRUMENTA TION《流量测量与仪表设备》英国•19. FORSCHUNG IM INGENIEURWESEN-ENGINEERING RESEARCH《工程研究》德国•20. HEAT TRANSFER ENGINEERING《传热工程》美国•21. HVAC&R RESEARCH《国际供暖、通风、空调、制冷研究杂志》美国•22. IEEE-ASME TRANSACTIONS ON MECHA TRONICS《IEEE-ASME机械电子学汇刊》美国•23. INDUSTRIAL LUBRICATION AND TRIBOLOGY《工业润滑与摩擦学》英国•24. INTERNATIONAL JOURNAL OF AUTOMOTIVE TECHNOLOGY《国际汽车技术杂志》韩国•25. INTERNATIONAL JOURNAL OF CRASHWORTHINESS《国际防撞性能杂志》英国•26. INTERNA TIONAL JOURNAL OF FATIGUE《国际疲劳杂志》英国•27. INTERNA TIONAL JOURNAL OF HEAT AND FLUID FLOW《国际热与流体流杂志》美国•28. INTERNA TIONAL JOURNAL OF HEAT AND MASS TRANSFER《国际传热与传质杂志》英国•29. INTERNA TIONAL JOURNAL OF HEA VY VEHICLE SYSTEMS《国际重型机动车系统杂志》瑞士•30. INTERNA TIONAL JOURNAL OF IMPACT ENGINEERING《国际冲击工程杂志》英国•31. INTERNA TIONAL JOURNAL OF MACHINE TOOLS & MANUFACTURE《国际机床与制造杂志》英国•32. INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES《国际机械科学杂志》英国•33. INTERNA TIONAL JOURNAL OF OFFSHORE AND POLAR ENGINEERING《国际近海和极地工程师杂志》美国•34. INTERNA TIONAL JOURNAL OF PLASTICITY《国际塑性力学杂志》英国•35. INTERNA TIONAL JOURNAL OF PRESSURE VESSELS AND PIPING《国际压力容器与管道杂志》英国•36. INTERNATIONAL JOURNAL OF REFRIGERA TION-REVUE INTERNATIONALE DU FROID 《国际制冷杂志》英国•37. INTERNATIONAL JOURNAL OF STRUCTURAL STABILITY AND DYNAMICS 《国际结构稳定性与动力学杂志》新加坡•38. INTERNATIONAL JOURNAL OF THERMAL SCIENCES《国际热科学杂志》法国•39. INTERNA TIONAL JOURNAL OF VEHICLE DESIGN《国际机动车设计杂志》瑞士•40. JOURNAL OF AEROSOL SCIENCE《气溶胶科学杂志》英国•41. JOURNAL OF ELECTRONIC PACKAGING《电子封装杂志；美国机械工程师学会汇刊》美国•42. JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER-TRANSACTIONS OF THE ASME 《燃气轮机与动力工程杂志；美国机械工程师学会汇刊》美国•43. JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME《工程材料与工艺杂志；美国机械工程师学会汇刊》美国•44. JOURNAL OF ENGINEERING MECHANICS-ASCE《工程力学杂志》美国•45. JOURNAL OF ENHANCED HEAT TRANSFER《强化传热杂志》英国•46. JOURNAL OF FLUIDS AND STRUCTURES《流体与结构杂志》英国•47. JOURNAL OF FLUIDS ENGINEERING-TRANSACTIONS OF THE ASME《流体工程学杂志；美国机械工程师学会汇刊》美国•48. JOURNAL OF HEAT TRANSFER-TRANSACTIONS OF THE ASME《传热杂志；美国机械工程师学会汇刊》美国•49. JOURNAL OF HYDRAULIC ENGINEERING-ASCE《水力工程杂志》美国•50. JOURNAL OF JAPANESE SOCIETY OF TRIBOLOGISTS《摩擦学》日本•51. JOURNAL OF MANUFACTURING SCIENCE AND ENGINEERING-TRANSACTIONS OF THE ASME《制造科学与工程杂志；美国机械工程师学会汇》美国•52. JOURNAL OF MECHANICAL DESIGN《机械设计杂志；美国机械工程师学会汇刊》美国•53. JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY《韩国机械工程师学会国际杂志》韩国•54. JOURNAL OF MICROELECTROMECHANICAL SYSTEMS《微机电系统杂志》美国•55. JOURNAL OF OFFSHORE MECHANICS AND ARCTIC ENGINEERING-TRANSACTIONS OF THE ASME《海上机械与极地工程杂志；美国机械工程师学会汇刊》美国•56. JOURNAL OF POROUS MEDIA《多孔介质杂志》美国•57. JOURNAL OF PRESSURE VESSEL TECHNOLOGY-TRANSACTIONS OF THE ASME《压力容器技术杂志；美国机械工程师学会汇刊》美国•58. JOURNAL OF SANDWICH STRUCTURES & MA TERIALS《夹层结构与材料杂志》美国•59. JOURNAL OF SOLAR ENERGY ENGINEERING-TRANSACTIONS OF THE ASME《太阳能工程杂志；美国机械工程师学会汇刊》美国•60. JOURNAL OF SOUND AND VIBRATION《声音与振动杂志》英国•61. JOURNAL OF STRAIN ANAL YSIS FOR ENGINEERING DESIGN《工程设计应变分析杂志》英国•62. JOURNAL OF THERMOPHYSICS AND HEAT TRANSFER《热物理学与热传导杂志》美国•63. JOURNAL OF TRIBOLOGY-TRANSACTIONS OF THE ASME《摩擦学杂志；美国机械工程师学会汇刊》美国•64. JOURNAL OF TURBOMACHINERY-TRANSACTIONS OF THE ASME《涡轮机械杂志；美国机械工程师学会汇刊》美国•65. JOURNAL OF VIBRATION AND ACOUSTICS-TRANSACTIONS OF THE ASME 《振动与声学杂志；美国机械工程师学会汇刊》美国•66. JOURNAL OF VIBRATION AND CONTROL《振动与控制杂志》美国•67. MACHINING SCIENCE AND TECHNOLOGY《机械加工科学与技术》美国•68. MECHANICAL ENGINEERING《机械工程》美国•69. MECHANICAL SYSTEMS AND SIGNAL PROCESSING《机械系统与信号处理》英国•70. MECHANISM AND MACHINE THEORY《机构学与机械原理》英国•71. MECHA TRONICS《机械电子学》英国•72. NANOSCALE AND MICROSCALE THERMOPHYSICAL ENGINEERING《纳米尺度和微尺度热物理学工程》英国•73. NONLINEAR DYNAMICS《非线性动力学》荷兰•74. PROBABILISTIC ENGINEERING MECHANICS《概率工程力学》英国•75. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART A-JOURNAL OF POWER AND ENERGY《机械工程师学会会报；A辑：动力与能源杂志》英国•76. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART B-JOURNAL OF ENGINEERING MANUFACTURE《机械工程师学会会报；B辑：工程制造杂志》英国•77. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART C-JOURNAL OF MECHANICAL ENGINEERING SCIENCE《机械工程师学会会报；C辑：机械工程学杂志》英国•78. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART D-JOURNAL OF AUTOMOBILE ENGINEERING《机械工程师学会会报；D辑：机动车辆工程杂志》英国•79. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART E-JOURNAL OF PROCESS MECHANICAL ENGINEERING《机械工程师学会会报；E辑：加工机械工程杂志》英国•80. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART F-JOURNAL OF RAIL AND RAPID TRANSIT《机械工程师学会会报；F辑：铁路与快速运输杂志》英国•81. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART G-JOURNAL OF AEROSPACE ENGINEERING《机械工程师学会会报；G辑：航空航天工程杂志》英国•82. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART H-JOURNAL OF ENGINEERING IN MEDICINE《机械工程师学会会报；H辑：工程医学杂志》英国•83. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART J-JOURNAL OF ENGINEERING TRIBOLOGY《机械工程师学会会报；J辑：工程摩擦学杂志》英国•84. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART K-JOURNAL OF MULTI-BODY DYNAMICS《机械工程师学会会报；K辑：多体动力学杂志》英国•85. PROFESSIONAL ENGINEERING《专业工程》英国•86. PROGRESS IN ENERGY AND COMBUSTION SCIENCE《能源与燃烧科学进展》英国•87. RAPID PROTOTYPING JOURNAL《快速样机成型杂志》英国•88. SHOCK AND VIBRATION《撞击与振动》荷兰•89. SMART STRUCTURES AND SYSTEMS《智能结构与系统》韩国•90. SOUND AND VIBRATION《声与振动》美国•91. STROJARSTVO《机械制造》克罗地亚•92. STROJNISKI VESTNIK-JOURNAL OF MECHANICAL ENGINEERING《机械工程杂志》南斯拉夫•93. STRUCTURAL ENGINEERING AND MECHANICS《结构工程与力学》韩国•94. STRUCTURE AND INFRASTRUCTURE ENGINEERING《结构和基础设施工程》英国•95. THEORETICAL AND APPLIED FRACTURE MECHANICS《理论与应用断裂力学》荷兰•96. TRANSACTIONS OF THE CANADIAN SOCIETY FOR MECHANICAL ENGINEERING《加拿大机械工程学会汇刊》加拿大•97. TRIBOLOGY & LUBRICA TION TECHNOLOGY《摩擦学与润滑技术》美国•98. TRIBOLOGY INTERNATIONAL《国际摩擦学》英国•99. TRIBOLOGY LETTERS《摩擦学通讯》荷兰•100. TRIBOLOGY TRANSACTIONS《摩擦学汇刊》美国•101. VEHICLE SYSTEM DYNAMICS《车辆系统动力学》荷兰•102. WEAR《磨损》瑞士•103. WIND ENERGY《风能》英国。

Elsevier出版社SCI收录6种机械学科期刊投稿指南(精)读者留言希望了解SCI收录的高水平机械期刊，为了帮助读者了解高水平机械期刊，向SCI收录的机械工程期刊投稿，本博客特向各位读者推荐Elsevier出版社的6种SCI收录高水平机械期刊。

6种高水平机械期刊已经为读者做了链接，您可以直接点击期刊名称进入期刊主页，阅读下载全文，了解该期刊的作者指南并在线投稿。

Elsevier出版社机械学科6种高水平期刊推荐：1、CIRP Annals - Manufacturing Technology《国际生产工程研究学会纪事》瑞士ISSN:0007-8506，1951年创刊，全年2期，TECHNISCHE RUNDSCHAU EDITION COLIBRI LTD出版社，SCI收录期刊，SCI 2005年影响因子0.891，2006年影响因子0.989，2007年影响因子0.779，2008年影响因子1.123，2009年影响因子1.603，5年影响因子1.725。

Q1（一区）。

主要刊载有关固体材料的机械加工，包括金属切削等方面的研究论文。

国内订购该数据库读者可以阅读1995至今的全文。

网址：/science/journal/00078506编委会：/wps/find/journaleditorialboard.cws_home/709764/editorialboard作者指南：/wps/find/journaldescription.cws_home/709764/authorinstructions在线投稿：/cirp/2、International Journal of Mechanical Sciences《国际机械科学杂志》英国ISSN:0020-7403，1959年创刊，全年12期，Elsevier Science出版社，SCI、EI收录期刊，SCI 2005年影响因子0.761，2005年EI收录105篇，SCI 2006年影响因子0.950，SCI 2007年影响因子1.013，SCI 2008年影响因子1.077，2009年影响因子1.288，5年影响因子1.544。

机械类研究报告外文期刊以下是一些机械类研究报告的外文期刊列表：1. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science2. Journal of Mechanical Engineering3. Journal of Mechanical Science and Technology4. Journal of Mechanical Design5. Journal of Mechanical Engineering and Automation6. International Journal of Mechanical Engineering and Applications7. Applied Mechanics and Materials8. Mechanics of Advanced Materials and Structures9. International Journal of Precision Engineering and Manufacturing10. International Journal of Automotive Technology11. Journal of Vibration and Control12. International Journal of Fatigue13. International Journal of Impact Engineering14. Journal of Sound and Vibration15. Tribology International16. International Journal of Mechanical Sciences17. International Journal of Heat and Mass Transfer18. Wear19. International Journal of Structural Stability and Dynamics20. Engineering Failure Analysis这些期刊涵盖了机械工程的各个领域，包括力学、设计、热能、振动控制、疲劳、冲击工程、声学、摩擦学等。

外文献翻译摘自: 《制造工程与技术（机加工）》（英文版）《Manufacturing Engineering and Technology—Machining》机械工业出版社2004年3月第1版页P560—564美s. 卡尔帕基安(Serope kalpakjian)s.r 施密德(Steven R.Schmid) 著原文：20.9 MACHINABILITYThe machinability of a material usually defined in terms of four factors:1、Surface finish and integrity of the machined part;2、Tool life obtained;3、Force and power requirements;4、Chip control.Thus, good machinability good surface finish and integrity, long tool life, and low force And power requirements. As for chip control, long and thin (stringy) cured chips, if not broken up, can severely interfere with the cutting operation by becoming entangled in the cutting zone.Because of the complex nature of cutting operations, it is difficult to establish relationships that quantitatively define the machinability of a material. In manufacturing plants, tool life and surface roughness aregenerally considered to be the most important factors in machinability. Although not used much any more, approximate machinability ratings are available in the example below.20.9.1 Machinability Of SteelsBecause steels are among the most important engineering materials (as noted in Chapter 5), their machinability has been studied extensively. The machinability of steels has been mainly improved by adding lead and sulfur to obtain so-called free-machining steels.Resulfurized and Rephosphorized steels. Sulfur in steels forms manganese sulfide inclusions (second-phase particles), which act as stress raisers in the primary shear zone. As a result, the chips produced break up easily and are small; this improves machinability. The size, shape, distribution, and concentration of these inclusions significantly influence machinability. Elements such as tellurium and selenium, which are both chemically similar to sulfur, act as inclusion modifiers in resulfurized steels.Phosphorus in steels has two major effects. It strengthens the ferrite, causing increased hardness. Harder steels result in better chip formation and surface finish. Note that soft steels can be difficult to machine, with built-up edge formation and poor surface finish. The second effect is that increased hardness causes the formation of short chips instead ofcontinuous stringy ones, thereby improving machinability.Leaded Steels. A high percentage of lead in steels solidifies at the tip of manganese sulfide inclusions. In non-resulfurized grades of steel, lead takes the form of dispersed fine particles. Lead is insoluble in iron, copper, and aluminum and their alloys. Because of its low shear strength, therefore, lead acts as a solid lubricant (Section 32.11) and is smeared over the tool-chip interface during cutting. This behavior has been verified by the presence of high concentrations of lead on the tool-side face of chips when machining leaded steels.When the temperature is sufficiently high-for instance, at high cutting speeds and feeds (Section 20.6)—the lead melts directly in front of the tool, acting as a liquid lubricant. In addition to this effect, lead lowers the shear stress in the primary shear zone, reducing cutting forces and power consumption. Lead can be used in every grade of steel, such as 10xx, 11xx, 12xx, 41xx, etc. Leaded steels are identified by the letter L between the second and third numerals (for example, 10L45). (Note that in stainless steels, similar use of the letter L means “low carbon,” a condition that improves their corrosion resistance.)However, because lead is a well-known toxin and a pollutant, there are serious environmental concerns about its use in steels (estimated at 4500 tons of lead consumption every year in the production of steels).Consequently, there is a continuing trend toward eliminating the use of lead in steels (lead-free steels). Bismuth and tin are now being investigated as possible substitutes for lead in steels.Calcium-Deoxidized Steels. An important development is calcium-deoxidized steels, in which oxide flakes of calcium silicates (CaSo) are formed. These flakes, in turn, reduce the strength of the secondary shear zone, decreasing tool-chip interface and wear. Temperature is correspondingly reduced. Consequently, these steels produce less crater wear, especially at high cutting speeds.Stainless Steels. Austenitic (300 series) steels are generally difficult to machine. Chatter can be s problem, necessitating machine tools with high stiffness. However, ferritic stainless steels (also 300 series) have good machinability. Martensitic (400 series) steels are abrasive, tend to form a built-up edge, and require tool materials with high hot hardness and crater-wear resistance. Precipitation-hardening stainless steels are strong and abrasive, requiring hard and abrasion-resistant tool materials.The Effects of Other Elements in Steels on Machinability. The presence of aluminum and silicon in steels is always harmful because these elements combine with oxygen to form aluminum oxide and silicates, which are hard and abrasive. These compounds increase tool wear and reduce machinability. It is essential to produce and use cleansteels.Carbon and manganese have various effects on the machinability of steels, depending on their composition. Plain low-carbon steels (less than 0.15% C) can produce poor surface finish by forming a built-up edge. Cast steels are more abrasive, although their machinability is similar to that of wrought steels. Tool and die steels are very difficult to machine and usually require annealing prior to machining. Machinability of most steels is improved by cold working, which hardens the material and reduces the tendency for built-up edge formation.Other alloying elements, such as nickel, chromium, molybdenum, and vanadium, which improve the properties of steels, generally reduce machinability. The effect of boron is negligible. Gaseous elements such as hydrogen and nitrogen can have particularly detrimental effects on the properties of steel. Oxygen has been shown to have a strong effect on the aspect ratio of the manganese sulfide inclusions; the higher the oxygen content, the lower the aspect ratio and the higher the machinability.In selecting various elements to improve machinability, we should consider the possible detrimental effects of these elements on the properties and strength of the machined part in service. At elevated temperatures, for example, lead causes embrittlement of steels(liquid-metal embrittlement, hot shortness; see Section 1.4.3), althoughat room temperature it has no effect on mechanical properties.Sulfur can severely reduce the hot workability of steels, because of the formation of iron sulfide, unless sufficient manganese is present to prevent such formation. At room temperature, the mechanical properties of resulfurized steels depend on the orientation of the deformed manganese sulfide inclusions (anisotropy). Rephosphorized steels are significantly less ductile, and are produced solely to improve machinability.20.9.2 Machinability of Various Other MetalsAluminum is generally very easy to machine, although the softer grades tend to form a built-up edge, resulting in poor surface finish. High cutting speeds, high rake angles, and high relief angles are recommended. Wrought aluminum alloys with high silicon content and cast aluminum alloys may be abrasive; they require harder tool materials. Dimensional tolerance control may be a problem in machining aluminum, since it has a high thermal coefficient of expansion and a relatively low elastic modulus.Beryllium is similar to cast irons. Because it is more abrasive and toxic, though, it requires machining in a controlled environment.Cast gray irons are generally machinable but are. Free carbides in castings reduce their machinability and cause tool chipping or fracture,necessitating tools with high toughness. Nodular and malleable irons are machinable with hard tool materials.Cobalt-based alloys are abrasive and highly work-hardening. They require sharp, abrasion-resistant tool materials and low feeds and speeds.Wrought copper can be difficult to machine because of built-up edge formation, although cast copper alloys are easy to machine. Brasses are easy to machine, especially with the addition pf lead (leadedfree-machining brass). Bronzes are more difficult to machine than brass.Magnesium is very easy to machine, with good surface finish and prolonged tool life. However care should be exercised because of its high rate of oxidation and the danger of fire (the element is pyrophoric).Molybdenum is ductile and work-hardening, so it can produce poor surface finish. Sharp tools are necessary.Nickel-based alloys are work-hardening, abrasive, and strong at high temperatures. Their machinability is similar to that of stainless steels.Tantalum is very work-hardening, ductile, and soft. It produces a poor surface finish; tool wear is high.Titanium and its alloys have poor thermal conductivity (indeed, the lowest of all metals), causing significant temperature rise and built-upedge; they can be difficult to machine.Tungsten is brittle, strong, and very abrasive, so its machinability is low, although it greatly improves at elevated temperatures.Zirconium has good machinability. It requires a coolant-type cutting fluid, however, because of the explosion and fire.20.9.3 Machinability of Various MaterialsGraphite is abrasive; it requires hard, abrasion-resistant, sharp tools.Thermoplastics generally have low thermal conductivity, low elastic modulus, and low softening temperature. Consequently, machining them requires tools with positive rake angles (to reduce cutting forces), large relief angles, small depths of cut and feed, relatively high speeds, andproper support of the workpiece. Tools should be sharp.External cooling of the cutting zone may be necessary to keep the chips from becoming “gummy” and sticking to the tools. Cooling can usually be achieved with a jet of air, vapor mist, or water-soluble oils. Residual stresses may develop during machining. To relieve these stresses, machined parts can be annealed for a period of time at temperatures ranging from C︒315), and then175to F︒160(F︒80to C︒cooled slowly and uniformly to room temperature.Thermosetting plastics are brittle and sensitive to thermal gradients during cutting. Their machinability is generally similar to that of thermoplastics.Because of the fibers present, reinforced plastics are very abrasive and are difficult to machine. Fiber tearing, pulling, and edge delamination are significant problems; they can lead to severe reduction in the load-carrying capacity of the component. Furthermore, machining of these materials requires careful removal of machining debris to avoid contact with and inhaling of the fibers.The machinability of ceramics has improved steadily with the development of nanoceramics (Section 8.2.5) and with the selection of appropriate processing parameters, such as ductile-regime cutting (Section 22.4.2).Metal-matrix and ceramic-matrix composites can be difficult to machine, depending on the properties of the individual components, i.e., reinforcing or whiskers, as well as the matrix material.20.9.4 Thermally Assisted MachiningMetals and alloys that are difficult to machine at room temperature can be machined more easily at elevated temperatures. In thermally assisted machining (hot machining), the source of heat—a torch, induction coil, high-energy beam (such as laser or electron beam), orplasma arc—is forces, (b) increased tool life, (c) use of inexpensive cutting-tool materials, (d) higher material-removal rates, and (e) reduced tendency for vibration and chatter.It may be difficult to heat and maintain a uniform temperature distribution within the workpiece. Also, the original microstructure of the workpiece may be adversely affected by elevated temperatures. Most applications of hot machining are in the turning of high-strength metals and alloys, although experiments are in progress to machine ceramics such as silicon nitride.SUMMARYMachinability is usually defined in terms of surface finish, tool life, force and power requirements, and chip control. Machinability of materials depends not only on their intrinsic properties and microstructure, but also on proper selection and control of process variables.译文：20.9 可机加工性一种材料的可机加工性通常以四种因素的方式定义：1、分的表面光洁性和表面完整性。

国内机械工程类相关期刊大全国内机械工程类相关期刊1.机械设计方向：机械科学与技术、机械设计与研究、机械设计、工程设计学报、机械设计与制造、计算机辅助设计与图形学学报（EI）、工程图学学报、振动工程学报（EI）、振动与冲击（EI）、计算力学学报（EI）、应用力学学报（EI）、力学进展、地震工程与工程振动、爆炸与冲击、力学季刊、力学学报（EI）、工程力学（EI）、固体力学学报（EI）、实验力学、计算机辅助工程、机械强度、强度与环境、摩擦学学报（EI）、润滑与密封、系统仿真学报、计算机仿真、应用基础与工程科学学报、应用科学学报、科学技术与工程、轴承、机械传动2.机械制造方向：制造技术与机床、机床与液压、组合机床与自动化加工技术、现代制造工程、机械制造、制造业自动化、中国制造业信息化、航空精密制造技术、航空制造技术、精密制造与自动化、计算机集成制造系统CIMS（EI）、模具技术、模具工业、焊接、焊接技术、焊接学报（EI）、铸造、铸造技术、锻压技术、锻压装备与制造技术、金刚石与磨料磨具工程、中国表面工程、工具技术、塑性工程学报、机械工程材料、热加工工艺3.机电测控方向：机电工程、机械与电子、机电一体化、数据采集与处理、信号处理、仪器仪表学报（EI）、测试技术学报、传感技术学报、现代仪器、自动化与仪表、仪表技术与传感器、电子测量技术、电子测量与仪器学报、传感器与微系统、自动化学报（EI）、控制理论与应用（EI）、控制与决策（EI）、控制工程、测控技术、信息与控制、模式识别与人工智能（EI）、电机与控制学报（EI）、工业仪表与自动化装置、遥感技术与应用、自动化仪表、计算机测量与控制、振动测试与诊断（EI）、噪声与振动控制、计算机工程与应用、机器人（EI）、无损检测、液压与气动、计量学报、电机与控制应用4.专业机械方向：农业机械学报（EI）、建筑机械、矿山机械、流体机械、起重运输机械、工程机械、石油机械、石油矿场机械、重型机械、煤矿机械、化工机械、食品与机械、筑路机械与施工机械化、压缩机技术、风机技术、水泵技术、声学技术、光学技术、汽轮机技术、车用发动机、压力容器、微电机、微特电机、汽车工程、船舶工程、动力工程、热能动力工程、材料工程（EI）、材料科学与工艺（EI）、光学精密工程（EI）、工程塑料应用、应用声学、声学学报（EI）、工业安全与环保、工业工程、工业工程与管理、实验技术与管理、磁性材料及器件、中国电机工程学报（EI）5.军工机械方向：航空学报、航空学报英文版（SCI）、航空动力学报（EI）、航空材料学报（EI）、宇航学报（EI）、宇航材料工艺（EI）、宇航计测技术、航天控制、飞行器测控学报、空间科学学报、中国航天、中国空间科学技术、探测与控制学报、弹箭与制导学报（EI）、弹道学报（EI）、固体火箭技术（EI）、火炮发射与控制学报、飞航导弹、导弹与航天运载技术、现代防御技术、火工品、推进技术（EI）、兵工学报（EI）、火炸药学报、核技术（EI）、核技术英文版、核科学与工程、核电子学与探测技术、西北工业大学学报（EI）、中北大学学报（EI）、北京航空航天大学学报（EI）、南京航空航天大学学报（EI）、沈阳航空航天大学学报、哈尔滨工业大学学报（EI）、北京理工大学学报（EI）、南京理工大学学报（EI）、哈尔滨工程大学学报（EI）6.综合机械方向：机械工程学报英文版（SCI）、机械工程学报（EI）、中国机械工程、西安交通大学学报（EI）、清华大学学报（EI）、上海交通大学学报（EI）、浙江大学学报（EI）、华中科技大学学报（EI）、重庆大学学报（EI）、大连理工大学学报（EI）、天津大学学报（EI）、北京工业大学学报（EI）、北京交通大学学报（EI）、东北大学学报（EI）、厦门大学学报（EI）、北京科技大学学报（EI）、西安电子科技大学学报（EI）、武汉理工大学学报（EI）、上海大学学报（EI）、合肥工业大学学报（EI）7.其他非核心期刊：机械、机械工程师、机械工程与自动化、机电技术、机电工程技术、机电信息、机电产品开发与创新、传动技术、电子机械工程、国防制造技术、中国工程机械学报、装备机械、装备制造技术、装备维修技术、阀门、排灌机械工程学报、工程机械与维修、中国工程机械学报、国际设备工程与管理（英文版）、中国重型装备、液压气动与密封、现代制造、现代零部件、现代机械、通用机械、世界制造技术与装备市场、设备管理与维修、现代制造技术与装备、流体传动与控制、机械制造与自动化、机械研究与应用、机械管理开发、动力学与控制学报、车辆与动力技术、电气传动、航空工程进展、CAD/CAM与制造业信息化、金属加工。

机械工程师杂志
有很多机械工程师杂志可供选择，以下是一些著名的机械
工程师杂志：
1. Mechanical Engineering（《机械工程》杂志）
由美国机械工程师学会（ASME）出版的权威机械工程师杂志，涵盖各个领域的机械工程技术和创新。

2. Machine Design（《机械设计》杂志）
一本面向机械设计师和工程师的专业杂志，包括机械设计、工程分析、制造技术等方面的文章。

3. International Journal of Mechanical Engineering （《国际机械工程学报》）
一本以机械工程为主题的国际期刊，涵盖了机械工程的各个领域，提供了最新的研究成果和技术进展。

4. ASME Journal of Mechanical Design（ASME机械设计学报）
由美国机械工程师学会（ASME）出版，重点关注机械系统和设备的设计和优化问题。

5. Journal of Mechanical Engineering Science（机械工程科学学报）
一本国际著名的机械工程期刊，涵盖了机械工程科学的各个方面，包括设计、制造、材料科学等。

以上只是一些著名的机械工程师杂志，还有许多其他的杂志也提供有关机械工程技术和创新的文章。

你可以根据自己的兴趣和需求选择适合你的杂志。

机械类期刊投稿汇总机械类期刊是指专门发表机械工程领域相关研究成果的学术期刊。

投稿到机械类期刊可以帮助研究人员分享自己的研究成果、获取同行评审、提高学术声誉等。

在投稿之前，了解不同期刊的投稿要求和关注点是很重要的。

本文将对几个机械类期刊的投稿指南进行汇总，帮助读者更好地了解这些期刊。

1.《Journal of Mechanical Design》（机械设计学报）该期刊是由美国机械工程师学会出版的权威期刊，主要关注机械设计领域的原创性研究。

期刊接受基础性和应用性的机械设计研究论文，包括但不限于设计理论、创新方法、设计优化、机械系统分析等。

投稿要求：-研究原创性：论文的创新性和研究价值是被考量的重要因素；-方法可行性：应提供详细的实验或模拟方法，确保研究结果的可重复性；-解决实际问题：论文需说明研究的实际应用意义，指出解决了什么问题；-结果可验证：研究结果应与实验或仿真数据相吻合；-语言表达清晰：论文应用简洁、准确的语言描述研究方法和结果。

2.《Journal of Manufacturing Science and Engineering》（制造科学与工程学报）该期刊是由美国机械工程师学会出版，旨在发表制造工程领域的原创性研究成果。

涵盖的研究方向包括但不限于制造工艺、加工技术、工装设计、机器人应用、智能制造等。

投稿要求：-研究创新性：论文应为原创性研究，具有较高的学术价值；-实验验证：论文应提供有关实验的详细信息，确保研究结果可重复；-论文结构完整：论文应具有明确的结构，包括摘要、引言、材料与方法、结果与讨论、结论等部分；-结果可靠性：研究结果应有充分的数据支持，并进行合理解释。

3.《Journal of Engineering Technology》（工程技术学报）该期刊是由美国工程技术协会出版，旨在发布工程领域的新技术、新方法和新应用。

涵盖的研究方向包括机械工程、土木工程、电气工程、航空航天工程等。

《International Journal of Mechanical Sciences》（《国际机械科学期刊》）是一本重要的学术期刊，专门致力于机械科学领域的学术研究。

以下是该期刊的评价：
1. 学术水平高：该期刊的论文通常来自世界各地的知名学者和研究人员，其学术水平较高。

论文内容涵盖了机械科学的各个方面，包括理论、实验和应用等。

2. 发表周期短：该期刊的出版周期较短，通常每月一期，这意味着作者可以更快地获得发表和交流的机会。

3. 审稿严格：该期刊的审稿程序较为严格，通常会经过多轮审稿和修改，以确保论文的质量和学术价值。

这也意味着在该期刊上发表论文需要较高的学术水平和严密的学术准备。

4. 影响因子高：该期刊的影响因子较高，表明其发表的论文在学术界的影响力较大，对于提升作者的学术声誉和学术地位具有重要意义。

5. 引用次数多：该期刊的论文被引用的次数较多，表明其发表的论文对于机械科学领域的发展和进步具有重要影响。

总的来说，《International Journal of Mechanical Sciences》是一本质量较高、影响较大的学术期刊，是机械科学领域学者和研究人员重要的发表平台。

SCI、EI收录机械工程学科期刊刊名Mechanical Engineering（机械工程）美国Machine Design（机械设计）美国Journal of Mechanical Design, Transactions of the ASME（机械设计杂志，美国机械工程师学会汇刊）ProceedingsoftheInstitutionofMechanicalEngineers,PartC:Journal of Mechanical Engineering Science（机械工程师学会会报，C辑：机械工程学杂志）英国ProceedingsoftheInstitutionofMechanicalEngineers;PartE:Journal of Process Mechanical Engineering（机械工程师学会会报；E辑：加工机械工程杂志）英国International Journal of Mechanical Sciences（国际机械科学杂志）英国Maching Science and Technology（机械科学和技术）International Journal of Computer Integrated Manufacturing（国际计算机集成制造杂志）英国JSME International Journal, Series A（日本机械工程师学会国际杂志，A辑）Manufacturing Engineer（制造工程）美国Manufacturing Engineering(制造工程)美国Human Factors and Ergonomics In Manufacturing（制造业中的人因素和人机工程学）Mechanism and Machine Theory（机构学与机械原理）英国QualityandReliabilityengineeringinternational(国际质量与可靠性工程)美国工业工程Quality Engineering（质量工程）美国质量协会官方期刊International Journal of Reliability Quality and Safety engineering（国际可靠性、质量管理和安全工程学报）Journal of quality technology（质量技术杂志）IEEE Transactions on Reliability（IEEE可靠性）International Journal of Industrial Engineering（国际工业工程学报）International Journal of Production Research（国际产品研究杂志）European Journal of Industrial Engineering（欧洲工业工程学报）Production Planning & Control（生产规划与控制）International Journal of Computer Integrated ManufacturingThe international Journal of Advanced Manufacturing TechnologyChinese Journal of Mechanical Engineering（中国机械工程学报）0020-7403 1091-03440951-192X1340-80460956-99440361-08531090-84710094-114X1099-16380898-21120."5240954-40890."0940954-4062ISSN号0025-65010024-91141050-0472SCI收录影响因子0.121EI收录篇数98年79 4630.2770.23739411165150.286 0.169 0.062 0.150 0.459。

中文ei 机械
中文ei 机械方面的期刊较多，以下是部分期刊推荐：
- 《机械工程学报》：中国机械工程学会主办的权威期刊，涵盖了机械工程的各个领域，包括机械设计、制造工艺、材料力学、控制与自动化等。

- 《摩擦学学报》：关注摩擦、润滑和磨损等方面的研究，涵盖了摩擦学的基础理论、表征与测量、摩擦副设计与优化等。

- 《机械强度》：关注机械结构的强度和疲劳性能等，涵盖了结构强度、疲劳断裂、有限元分析等方面的研究。

- 《振动工程学报》：关注振动与噪声控制方面的研究，包括振动分析、结构动力学、振动信号处理等内容。

- 《流体机械》：关注流体机械的设计、制造与应用，涵盖了水泵、风机、涡轮机等方面的研究。

- 《机械设计与研究》：专注于机械设计、CAD/CAM技术、产品创新等方面的研究。

- 《机电工程》：关注机电一体化技术及其应用，包括机电系统设计、驱动与控制技术等内容。

- 《塑性工程学报》：关注金属材料的塑性变形与加工，涵盖了塑性力学、变形加工工艺、塑性成形模拟等方面的研究。

- 《计算力学学报》：关注计算力学理论、方法和应用，包括有限元分析、计算流体力学、多体系统动力学等方面的研究。

- 《焊接学报》：关注焊接与连接技术，包括焊接工艺、焊缝性能评价、焊接机器人等内容。

- 《机械传动》：关注机械传动与控制技术，包括齿轮传动、皮带传动、气动传动等方面的研究。

- 《机械工艺学报》：关注机械制造工艺与技术，包括数控加工、装配工艺、精密制造等内容。

如果你还想了解更多关于中文ei 机械方面的内容，可以继续向我提问。

附录4 机械类学科期刊
1. 美国机械工程师学会(ASME, American Society of Mechanical Engineers）
ASME成立于1880年，是世界上最大的技术出版机构之一，出版24种技术期刊。

表1 ASME出版的学术期刊
2. 英国机械工程师学会（IMechE, Institution of Mechanical Engineers）
IMechE出版16个分辑（Part A-part P）的系列期刊，该系列期刊始于1847年。

每一种期刊都关注于某一个工程研究领域。

表2 IMechE出版的系列期刊
3. 美国电气和电子工程师协会（IEEE, Institute of Electrical and Electronics Engineers）表3 IEEE系列期刊
4. 中国机械工程学会（CMES, Chinese Mechanical Engineering Society）表4 中国机械工程学会期刊
5. 机构学领域公认的核心期刊表5 机构学领域公认的核心期刊
6. 其他国际上有影响力的期刊。

机械类期刊列表1. 《机械科学与技术》《机械科学与技术》是一本专注于机械工程领域的学术期刊。

该期刊涵盖了机械设计、制造、控制、材料和力学等多个方面。

它提供了丰富的科技论文和研究成果，旨在促进机械学科的发展和交流。

该期刊的文章对于从事机械工程研究和应用的专家、学者和工程师们具有重要的参考价值。

2. 《国际机械工程杂志》《国际机械工程杂志》是一本国际性的机械工程学术期刊。

该期刊发表了涵盖机械设计、制造、自动化、能源和环境等多个领域的研究论文和技术报告。

它的目标是为全球机械工程师和科研人员提供一个分享和交流研究成果的平台，推动机械工程技术的进步和创新。

3. 《机械设计》《机械设计》期刊是一个专注于机械设计和制造领域的学术刊物。

它涵盖了机械结构设计、机械系统仿真、机械创新技术等内容。

该期刊以质量高、内容广泛、信息及时为特点，为机械设计师、研究人员和工程师们提供了一个展示和交流成果的平台。

4. 《国际机械制造技术与装备》《国际机械制造技术与装备》是一本涵盖机械制造和加工技术的国际期刊。

该期刊刊登了从机械制造技术、数控加工、先进制造工艺到机器人技术等方面的研究文章。

它的目的是促进机械制造技术的创新和发展，为制造工程领域的科研人员和工程师提供一个专业的刊物。

5. 《机械设计与研究》《机械设计与研究》期刊致力于机械设计与创新领域的研究。

该期刊发表了机械设计方法、结构分析、创新设计等方面的学术文章。

它为从事机械设计和创新研究的学者、工程师和设计师们提供了一个交流和学习的平台，推动机械设计技术的不断进步。

6. 《国际机械工程研究》《国际机械工程研究》是一份国际性的机械工程研究期刊。

该期刊涵盖了机械制造、材料、力学、自动化和控制等多个领域的研究成果。

它的目标是促进机械工程学科的发展和交流，并为研究人员和工程师提供一个分享研究成果的平台。

7. 《机械制造与自动化》《机械制造与自动化》期刊聚焦于机械制造和自动化领域的学术研究。