a multi-material design and function integration

Multidisciplinary Design Optimization Multidisciplinary Design Optimization (MDO) is a complex and challenging process that involves integrating various engineering disciplines to achieve the best possible design solution. This approach considers the interactions between different components and subsystems of a system, aiming to optimize the overall performance while meeting multiple conflicting objectives. MDO has gained significant attention in recent years due to its potential to improve the efficiency, reliability, and cost-effectiveness of engineering systems. However,it also presents several challenges and requires a multidimensional perspective to be effectively implemented. From an engineering perspective, MDO offers a systematic framework for addressing the inherent complexity of modern engineering systems. By considering the interactions between different disciplines such as structural, thermal, fluid dynamics, and control systems, MDO enables engineers to develop more integrated and optimized designs. This holistic approach can lead to significant improvements in performance, weight, cost, and other key metrics. For example, in the aerospace industry, MDO has been used to design more fuel-efficient aircraft by optimizing the aerodynamic shape, structural layout, and propulsion system in a coordinated manner. However, the implementation of MDO is not without its challenges. One of the primary obstacles is the need for effective collaboration and communication between experts from different disciplines. Each discipline may have its own specialized tools, models, and optimization algorithms, making it difficult to integrate them into a unified framework. Furthermore, the conflicting objectives and constraints of different disciplines can lead to trade-offs and compromises that are not easily resolved. This requires a careful balance between the competing requirements to achieve a satisfactory solution. Moreover, the computational cost of MDO can be substantial, especially when dealing with complex engineering systems and high-fidelity models. The optimization process often involves running numerous simulations and analyses, which can be time-consuming and resource-intensive. This necessitates the use of advanced computational tools and techniques, as well as efficient algorithms for solving large-scale optimization problems. Additionally, the uncertainty and variabilityin the input parameters and models can further complicate the optimization process,requiring robust and reliable methods for handling these uncertainties. From a business perspective, MDO has the potential to provide a competitive advantage by enabling the development of innovative and high-performance products. By optimizing the design of engineering systems, companies can reduce development time, minimize costs, and improve the overall quality and reliability of their products. This can lead to increased customer satisfaction and market share, as well as enhanced profitability and sustainability. However, the initial investment in MDO capabilities and the training of personnel can be significant, requiring a long-term strategic commitment from the organization. Furthermore, theintegration of MDO into the product development process may require changes in the organizational structure and workflow. This can pose challenges in terms of resistance to change, cultural barriers, and the need for cross-functional collaboration. Effective leadership, communication, and change management are essential for successfully implementing MDO within an organization. Additionally, the intellectual property and data management issues associated with MDO, such as sharing proprietary information and protecting sensitive data, need to becarefully addressed to ensure confidentiality and security. From a societal perspective, MDO has the potential to contribute to sustainable development by promoting the efficient use of resources and the reduction of environmental impacts. By optimizing the design of engineering systems, MDO can help minimize energy consumption, emissions, and waste generation, contributing to a more sustainable and eco-friendly future. For example, in the automotive industry, MDO has been used to develop more fuel-efficient and low-emission vehicles, addressing the global challenges of climate change and air pollution. However, the adoption of MDO also raises ethical and social responsibility considerations. The potential misuse of MDO for military purposes, surveillance, or other controversial applications poses ethical dilemmas that need to be carefully considered. Additionally, the accessibility and affordability of MDO tools and technologies can raise equity and inclusivity concerns, as not all individuals and communities may have equal access to the benefits of MDO. It is essential to ensure that the deployment of MDO is aligned with ethical principles, social values, and regulatory frameworks to promote the common good and minimize potential risks andnegative impacts. In conclusion, Multidisciplinary Design Optimization offers significant opportunities for improving the efficiency, reliability, and sustainability of engineering systems. However, its implementation requires a multidimensional perspective that takes into account engineering, business, and societal considerations. By addressing the technical challenges, organizational barriers, and ethical implications, MDO can contribute to the development of innovative and high-performance products that benefit individuals, organizations, and the environment. Embracing a holistic and responsible approach to MDO can lead to a more prosperous and harmonious future for all stakeholders.。

室内设计英文讲课稿范文Today, I would like to talk to you about interior design. Interior design is the art and science of enhancing the interior of a building to achieve a healthier and more aesthetically pleasing environment for the people using the space. It involves conceptual development, space planning, and attention to detail.Firstly, let's discuss the importance of color in interior design. Color has the ability to evoke emotions and create specific atmospheres in a space. Warm colors such as red, orange, and yellow can make a room feel cozy and welcoming, while cool colors like blue and green can promote a sense of calmness and relaxation. It is essential to choose a color scheme that aligns with the purpose and function of the space.Next, let's talk about the role of lighting in interior design. Lighting is crucial as it affects the mood and functionality of a room. Natural light is ideal as it provides a sense of openness and can contribute to the overall well-being of individuals. Artificial lighting, such as ambient, task, and accent lighting, should be carefully selected and placed to enhance the function and aesthetics of the space.Another aspect to consider in interior design is furniture arrangement. Furniture layout plays a significant role in the functionality and flow of a room. It is important to create a balance between open spaces and furniture pieces, ensuring that there is enough room to move around comfortably. Additionally, furniture selection should complement the overall style and design of the space.Furthermore, the use of textures and patterns can add depth and interest to an interior design. Different textures, such as smooth, rough, or tactile surfaces, can create visual and tactile stimuli. Patterns, on the other hand, can help to establish a theme or reinforce the design concept. The careful combination of textures and patterns can significantly impact the overall atmosphere of a space.Lastly, let's touch on the importance of incorporating elements of nature into interior design. Natural elements, such as plants, natural materials, and earthy colors, can bring a sense of calmness and tranquility to a space. Integrating nature into interior design can promote well-being and create a connection between the indoor and outdoor environment.In conclusion, interior design is a multi-faceted discipline that involves various elements and considerations. From color selection to furniture arrangement, lighting, and the integration of natural elements, each aspect plays a crucial role in creating a harmonious and appealing space. By carefully considering and implementing these elements, an interior designer can create a space that not only meets the needs of its occupants but also enhances their overall experience.。

Aluminum multi-degreeof freedom manipulator Design and ImplementationMechanical hand, is also called from begins, auto hand can imitate the manpower and arm's certain holding function, with by presses the fixed routine to capture, the transporting thing 'OR' operation tool's automatic operation installment. It may replace person's strenuous labor to realize the production mechanization and the automation, can operate under the hostile environment protects the personal safety, thus widely applies in departments and so on machine manufacture, metallurgy, electron, light industry and atomic energy.The manipulator is mainly composed of the hand and the motion. The hand is uses for to grasp holds the work piece (or tool) the part, according to is grasped holds the thing shape, the size, the weight, the material and the work request has many kinds of structural styles, like the clamp, the request hold and the adsorption and so on. The motion, causes the hand to complete each kind of rotation (swinging), the migration or the compound motion realizes the stipulation movement, changes is grasped holds the thing position and the posture. Motion's fluctuation, the expansion, revolving and so on independence movement way, is called manipulator's degree-of-freedom. In order to capture in the space the optional position and the position object, must have 6 degrees-of-freedom. The degree-of-freedom is the key parameter which the manipulator designs. The degree-of-freedom are more, manipulator's flexibility is bigger, the versatility is broader, its structure is also more complex. Generally the special-purpose manipulator has 2~3 degrees-of-freedom.The manipulator's type, may divide into the hydraulic pressure type, the air operated according to the drive type, electromotive type, the mechanical manipulator; May divide into the special-purpose manipulator and the general-purpose manipulator two kinds according to the applicable scope; May divide into the position control and the continuous path according to the path control mode controls the manipulator and so on.The manipulator usually serves as the engine bed or other machine's add-on component, like on the automatic machine or the automatic production line loading and unloading and the transmission work piece, replaces the cutting tool in the machining center and so on, generally does not have the independent control device. Some operating equipment needs by the person direct control, if uses in the host who the atomic energy department manages the dangerous goods from the type operator also often being called the manipulator.Robot is a type of mechantronics equipment which synthesizes the last research achievement of engine and precision engine, micro-electronics and computer, automation control and drive, sensor and message dispose and artificial intelligence and so on. With the development of economic and the demand for automation control, robot technology is developed quickly and all types of the robots products are come into being. The practicality use of robot products not only solves the problems whichare difficult to operate for human being, but also advances the industrial automation program. At present, the research and development of robot involves several kinds of technology and the robot system configuration is so complex that the cost at large is high which to a certain extent limit the robot abroad use. To development economic practicality and high reliability robot system will be value to robot social application and economy development.With the rapid progress with the control economy and expanding of the modern cities, the let of sewage is increasing quickly: With the development of modern technology and the enhancement of consciousness about environment reserve, more and more people realized the importance and urgent of sewage disposal. Active bacteria method is an effective technique for sewage disposal，The lacunaris plastic is an effective basement for active bacteria adhesion for sewage disposal. The abundance requirement for lacunaris plastic makes it is a consequent for the plastic producing with automation and high productivity. Therefore, it is very necessary to design a manipulator that can automatically fulfill the plastic holding.With the analysis of the problems in the design of the plastic holding manipulator and synthesizing the robot research and development condition in recent years, a economic scheme is concluded on the basis of the analysis of mechanical configuration, transform system, drive device and control system and guided by the idea of the characteristic and complex of mechanical configuration, electronic, software and hardware. In this article, the mechanical configuration combines the character of direction coordinate and the arthrosis coordinate which can improve the stability and operation flexibility of the system. The main function of the transmission mechanism is to transmit power to implement department and complete the necessary movement. In this transmission structure, the screw transmission mechanism transmits the rotary motion into linear motion. Worm gear can give vary transmission ratio. Both of the transmission mechanisms have a characteristic of compact structure. The design of drive system often is limited by the environment condition and the factor of cost and technical lever. ''''The step motor can receive digital signal directly and has the ability to response outer environment immediately and has no accumulation error, which often is used in driving system. In this driving system, open-loop control system is composed of stepping motor, which can satisfy the demand not only for control precision but also for the target of economic and practicality. On this basis，the analysis of stepping motor in power calculating and style selecting is also given.The analysis of kinematics and dynamics for object holding manipulator is given in completing the design of mechanical structure and drive system. Kinematics analysis is the basis of path programming and track control. The positive and reverse analysis of manipulator gives the relationship between manipulator space and drive space in position and speed. The relationship bet ween manipulator’s tip position and arthrosis angles is concluded by coordinate transform method. The geometry method is used in solving inverse kinematics problem and the result will provide theory evidence for control system. The f0unction of dynamics is to get the relationship between the movement and force and the target is to satisfy the demand of real time control. in thischamfer, Newton-Euripides method is used in analysis dynamic problem of七he cleaning robot and the arthrosis force and torque are given which provide the foundation for step motor selecting and structure dynamic optimal ting.Control system is the key and core part of the object holding manipulator system design which will direct effect the reliability and practicality of the robot system in the division of configuration and control function and also will effect or limit the development cost and cycle. With the demand of the PCL-839 card, the PC computer which has a. tight structure and is easy to be extended is used as the principal computer cell and takes the function of system initialization, data operation and dispose, step motor drive and error diagnose and so on. A t the same time, the configuration structure features, task principles and the position function with high precision of the control card PCL-839 are analyzed. Hardware is the matter foundation of the control. System and the software is the spirit of the control system. The target of the software is to combine all the parts in optimizing style and to improve the efficiency and reliability of the control system. The software design of the object holding manipulator control system is divided into several blocks such as system initialization block, data process block and error station detect and dispose model and so on. PCL-839 card can solve the communication between the main computer and the control cells and take the measure of reducing the influence of the outer signal to the control system.The start and stop frequency of the step motor is far lower than the maximum running frequency. In order to improve the efficiency of the step motor, the increase and decrease of the speed is must considered when the step motor running in high speed and start or stop with great acceleration. The increase and decrease of the motor’s spee d can be controlled by the pulse frequency sent to the step motor drive with a rational method. This can be implemented either by hardware or by software. A step motor shift control method is proposed, which is simple to calculate, easy to realize and the theory means is straightforward. The motor'''' s acceleration can fit the torque-frequency curve properly with this method. And the amount of calculation load is less than the linear acceleration shift control method and the method which is based on the exponential rule to change speed. The method is tested by experiment.A t last, the research content and the achievement are sum up and the problems and shortages in main the content are also listed. The development and application of robot in the future is expected.多自由度铝合金机械手的设计与实现能模仿人手和臂的某些动作功能，用以按固定程序抓取、搬运物件或操作工具的自动操作装置。

我未来的多功能手表作文400字英文回答：My future multi-functional watch is a sleek and sophisticated timepiece that seamlessly blends form and function. Its elegant design features a sleek metal frame with a customizable display that can be tailored to my personal preferences. This advanced watch boasts a host of cutting-edge features that empower me to stay connected, track my health, and enhance my productivity throughout the day.At its core, my future multi-functional watch is a powerful communication device. With built-in cellular connectivity, I can make and receive calls, send text messages, and access social media platforms directly from my wrist. This eliminates the need to constantly掏出我的手机, allowing me to stay connected without being distracted.Beyond communication, my future multi-functional watchalso serves as a comprehensive health tracker. Equipped with advanced sensors, it can monitor my heart rate, steps taken, and sleep patterns. This data provides valuable insights into my overall well-being and allows me to make informed decisions about my health. Additionally, the watch can track my workouts and provide personalized fitness recommendations.Furthermore, my future multi-functional watch is a productivity powerhouse. It can sync with my calendar, allowing me to easily view upcoming appointments and set reminders. The watch also features a note-taking app, which enables me to jot down ideas, create to-do lists, and access important documents on the go. This seamless integration of productivity tools helps me stay organized and efficient throughout the day.In terms of aesthetics, my future multi-functional watch is a true statement piece. Its sleek design and customizable display complement any outfit, from casual to formal. The watchband is interchangeable, allowing me to switch between different styles to match my mood oroccasion.Overall, my future multi-functional watch is more than just a timekeeping device. It is a cutting-edge accessory that empowers me to stay connected, track my health, and enhance my productivity. Its sleek design and advanced features make it an indispensable companion for the modern individual.中文回答：我的未来多功能手表是一款时尚而精致的时计，它无缝地融合了形式和功能。

南阳理工学院
毕业设计（论文）开题报告
机械与汽车工程学院机械设计制造及其自动化专业课题名称：新能源汽车门护板开发与轻量化
学生姓名：宋伟康
学号：1302225036
指导教师：冯庆东
报告日期：2017.01.08
说明：1. 本报告由承担毕业设计（论文）\毕业实践（报告）课题任务的学生在接到“毕业设计（论文）任务书”或“毕业实践（报告）任务书”、正式开始做毕业设计（论文）或毕业实践（报告）的第2周或第3周末之前独立撰写完成，并交指导教师审阅。

2. 每个毕业设计（论文）或毕业实践（报告）课题撰写本报告1份，作为指导教师、毕业设计（论文）\毕业实践（报告）指导小组审查学生能否完成该毕业设计（论文）或毕业实践（报告）课题任务的依据，并接受学校的抽查。

Geometric ModelingGeometric modeling is a fundamental concept in the field of computer graphics and design. It involves the creation and manipulation of digital representations of objects and environments using geometric shapes and mathematical equations. This process is essential for various applications, including animation, virtual reality, architectural design, and manufacturing. Geometric modeling plays a crucial role in bringing creative ideas to life and enabling the visualization of complex concepts. In this article, we will explore the significance of geometric modeling from multiple perspectives, including its technical aspects, creative potential, and real-world applications. From a technical standpoint, geometric modeling relies on mathematical principles to define and represent shapes, surfaces, and volumes in a digital environment. This involves the use of algorithms to generate and manipulate geometric data, enabling the creation of intricate and realistic 3D models. The precision and accuracy of geometric modeling are essential for engineering, scientific simulations, and industrial design. Engineers and designers utilize geometric modeling software to develop prototypes, analyze structural integrity, and simulate real-world scenarios. The ability to accurately model physical objects and phenomena in a virtual space is invaluable for testing and refining concepts before they are realized in the physical world. Beyond its technical applications, geometric modeling also offers immense creative potential. Artists and animators use geometric modeling tools to sculpt, texture, and animate characters and environments for films, video games, and virtual experiences. The ability to manipulate geometric primitives and sculpt organic forms empowers creatives to bring their imaginations to life in stunning detail. Geometric modeling software provides a canvas for artistic expression, enabling artists to explore new dimensions of creativity and visual storytelling. Whether it's crafting fantastical creatures or architecting futuristic cityscapes, geometric modeling serves as a medium for boundless creativity and artistic innovation. In the realm of real-world applications, geometric modeling has a profound impact on various industries and disciplines. In architecture and urban planning, geometric modeling software is used to design and visualize buildings, landscapes, and urban developments. This enables architects and urban designers toconceptualize and communicate their ideas effectively, leading to the creation of functional and aesthetically pleasing spaces. Furthermore, geometric modelingplays a critical role in medical imaging and scientific visualization, allowing researchers and practitioners to study complex anatomical structures and visualize scientific data in meaningful ways. The ability to create accurate and detailed representations of biological and physical phenomena contributes to advancementsin healthcare, research, and education. Moreover, geometric modeling is integral to the manufacturing process, where it is used for product design, prototyping,and production. By creating digital models of components and assemblies, engineers can assess the functionality and manufacturability of their designs, leading tothe development of high-quality and efficient products. Geometric modeling also facilitates the implementation of additive manufacturing technologies, such as 3D printing, by providing the digital blueprints for creating physical objects layer by layer. This convergence of digital modeling and manufacturing technologies is revolutionizing the production landscape and enabling rapid innovation across various industries. In conclusion, geometric modeling is a multifaceteddiscipline that intersects technology, creativity, and practicality. Its technical foundations in mathematics and algorithms underpin its applications in engineering, design, and scientific research. Simultaneously, it serves as a creative platform for artists and animators to realize their visions in virtual spaces. Moreover,its real-world applications extend to diverse fields such as architecture, medicine, and manufacturing, where it contributes to innovation and progress. The significance of geometric modeling lies in its ability to bridge the digital and physical worlds, facilitating the exploration, creation, and realization of ideas and concepts. As technology continues to advance, geometric modeling will undoubtedly play an increasingly pivotal role in shaping the future of design, visualization, and manufacturing.。

摘要本设计是一种多功能推车梯子，综合了普通梯子、手推车、平板车、铲车的功能，将此四项功能融合为一体，并拥有独特的攀爬台阶功能，很好的解决了目前人们日常生活中对于搬运货物中经常遇到的问题。

设计中融入了人性化、实用性设计理念，在多功能基础上进行创新设计，通过严格的材料选择和力学分析进行设计。

本设计过程主要依靠电脑绘图，利用大量三维图片将每个结构的设计和模型以图文并茂形式进行了详细的分析和阐述。

本文将分析设计的整个过程，以及每个零件的制作和设计过程进行了详尽的描述，充分体现了针对大众进行设计的方向，将人性化设计贯穿整个设计的始终，在开发多功能的同时也提高了产品的实用性。

关键词：产品多功能设计AbstractThis design is a multi-purpose ladder cart, a comprehensive general ladder, trolleys, Ping Banche, lift truck features, this one for the four functions of integration and unique features climbing stage, a very good solution of the current daily life In the handling of the goods in the often encountered problems. Integrated into the design of humanity, practical design, multi-function on the basis of innovative design, a rigorous analysis of material selection and mechanical design. The design process relied mainly on computer graphics, use of large three-dimensional image of each design and structure of the model illustrated in the form of a detailed analysis and elaboration. This paper will analyse the whole process of design, and every part of the design and production process of a detailed description, fully embodies the general public for the design direction, humanity will run through the entire design has always been designed, in the development of multi-function while Enhance the usefulness of the product.Key words: product-design目录1 绪论 (1)1.1 研究背景 (1)1.2 研究目的及意义 (1)1.3 设计理念 (2)1.4 前期准备 (2)2 前期总体结构分析设计 (4)2.1多功能产品设计中的常见问题 (4)2.1.1 多功能产品使用过程中，功能之间相互影响 (4)2.1.2 多功能造成成本的浪费 (4)2.1.3 多功能造成功能浪费 (4)2.2 产品的人性化设计方法 (4)2.2.1 设计思维 (5)2.2.2 功能规划 (5)2.2.3 造型语意 (5)2.2.4 材料选择 (6)2.2.5 色彩运用 (6)2.2.6 操作界面 (6)2.3 梯子形态下的人体舒适度及安全总体分析设计 (6)2.3.1 上下梯子所需时间 (7)2.3.2 三点接触比例 (7)2.3.3 梯子架材料的选用 (9)2.3.4 梯子踏板结构设计 (10)2.3.5 台阶安全措施 (11)2.3.6 台阶的材料 (13)2.4：推车部分的设计 (15)2.4.1 三种推车示意图 (15)2.4.2 转向问题 (16)2.4.3 锁轮功能 (17)2.5 爬台阶部分设计 (19)2.5.1 星轮的选择 (19)2.5.2 爬台阶功能的实现 (20)2.5.3 三星轮安装位置问题 (21)3 具体结构分析设计 (22)3.1 梯子部分： (22)3.1.1 梯子双杆结构的固定及受力分析 (22)3.1.1.1 前杆部分 (22)3.1.1.2 后杆部分 (22)3.1.1.3 连接器1的设计 (24)3.1.1.4 前杆、后杆、连接器的组合结构 (24)3.1.1.5 受力分析 (25)3.1.2 三个台阶的设计 (25)3.1.3 三个台阶在双杆间的连接 (27)3.2 铲车部分 (29)3.3 平板车和推车部分： (31)3.4 爬台阶功能结构部分 (33)3.4.1 三星轮的结构 (33)3.4.2 三星轮的安装 (34)4 种形态的实现 (36)4.1 梯子形态 (36)4.2平板车形态 (36)4.3手推车形态 (37)4.4铲车形态 (37)4.5攀爬台阶功能 (37)结论 (38)致谢 (39)参考资料 (40)1绪论1.1 研究背景目前，很多功能单一的常规产品已经不能再满足人们生活多元化需要，功能单一的产品由于其功能的局限性，让人们为了需要不得不购买很多此类产品，浪费金钱、占用空间、使用不方便，给人们的生产、生活带来了很多不便。

As an AI, I cant create an original English essay for you without specific details about your design. However, I can provide you with a template that you can fill in with your own information. Heres a basic structure for an essay introducing a design: Title: Introducing My DesignIntroduction:Briefly introduce the purpose of your design.State the significance or the problem it aims to solve.Paragraph 1: Background and ContextProvide background information on the need for your design.Discuss any existing solutions and their limitations.Paragraph 2: Design ConceptDescribe the concept behind your design.Explain the inspiration and the thought process that led to this design.Paragraph 3: Design FeaturesDetail the key features of your design.Explain how each feature contributes to the overall functionality and aesthetics. Paragraph 4: Materials and Techniques UsedDiscuss the materials chosen for your design and why they were selected.Describe any special techniques or processes employed in creating your design. Paragraph 5: Benefits and AdvantagesHighlight the benefits and advantages of your design over existing solutions.Discuss how it addresses the initial problem or need.Paragraph 6: Implementation and TestingIf applicable, describe how you plan to implement or have tested your design.Share any feedback or results from testing.Conclusion:Summarize the main points of your design.Reiterate its importance and potential impact.References:List any sources or references used in your essay.Remember to personalize this template with specific details about your design to create a compelling and informative essay.。

materials and design分区Materials and design can be categorized into several areas including:1. Material selection: This involves choosing the appropriate materials based on their properties, such as strength, durability, conductivity, and aesthetic appeal. Factors such as cost, availability, and environmental impact also play a role in material selection.2. Material testing and analysis: Once materials are chosen, they need to be tested to ensure they meet the required standards and specifications. This includes mechanical testing, chemical analysis, and non-destructive testing methods.3. Manufacturing processes: Designing and optimizing the manufacturing processes to efficiently and accurately produce the desired product. This covers various methods such as casting, molding, machining, and additive manufacturing (3D printing).4. Product design and development: This involves the conceptualization and creation of products while considering factors like functionality, ergonomics, aesthetics, and market demand. CAD (Computer-Aided Design) software is commonly used to create detailed product designs.5. Material characterization: This includes studying the properties and behavior of materials at different scales, such as microscopic analysis, imaging techniques, and determining material properties like hardness, tensile strength, and thermal conductivity.6. Sustainable design: Considering the environmental impact of materials and products throughout their lifecycle, with a focus on reducing waste, minimizing resource consumption, and optimizing energy efficiency.These are just a few examples of how materials and design can be categorized. Each area is interconnected and requires expertise in various disciplines like materials science, mechanical engineering, industrial design, and manufacturing engineering.。

Seam detectionHeight controlThickness differentiationThickness differentiationHEIGHT/HEIGHT DIFFERENCE POSITIONINGWARPAGE FEEDBACK LOOP CONTROLTHICKNESS/WIDTH PEAK, BOTTOM AND PEAK TO PEAKCMOS Multi-Function Analog Laser SensorIL SeriesNEWSERIESIntelligent SensorLow-cost HighPerformance2IntelligentHigh repeatability was achieved by using state of art technology and functions specifi cally developed for measuring instruments.RuggedDeveloped for use in harsh environments, the IL Series was designed with a robust structure.EasyExcellent usability makes it possible to quickly and easily perform stable measurements without any diffi cult adjustments or settings.VARIETY OF USES AT LOW COSTCompact and lightweight laser displacement sensorI n t e l l i g e n tR u g g e d Ea s yIS E R I E SIntroducing the IL SeriesThe intelligent I-Series consists of a highly stable sensor lineup that realizes low-cost and high performance with only the most advanced functions for on-site operations.I -SERIESIntelligent SensorLow-cost HighPerformance3I n t e l l i g e n tR u g g e dE a s yIS E R I E SI n t e l l i g e n tR u g g e d E a s yIS E R I ESI n t e l li ge n tR u g g e dE a s yIS E R I E SWhen the workpiece is highly refl ectiveReduced powerWhen the workpieceis darkIncreased power90°RLLoad (W): 250 gBending radius: R50 mm 1.97"Rate: 30 bends/minute(One bend is a cycle whereby the cable is bent from left to right and then from right to left.)20 million cycle servicelife (typical)Free Cut!48.5 mm 1.91"IL-100Reference distance Measurement range Display Resolution Repeatability100 mm 3.94"75 to 130 mm2.95" to 5.12"2 µm0.08 Mil 10 µm 0.39 MilIL-300Reference distance Measurement range Display Resolution Repeatability300 mm 11.81"160 to 450 mm 6.30" to 17.72" 10 µm 0.39 Mil50 µm1.97 MilIL-600Reference distance Measurement range Display Resolution Repeatability600 mm 23.62"200 to 1000 mm 7.84" to 39.37" 50 µm 1.97 Mil 300 µm 11.81 MilIL-065Reference distance Measurement range Display Resolution Repeatability 65 mm 2.56"55 to 105 mm2.17" to 4.13"2 µm0.08 Mil 4 µm 0.16 MilIL-030Reference distanceMeasurement rangeDisplay ResolutionRepeatability30 mm 1.18"20 to 45 mm 0.79" to 1.77"1 µm 0.04 Mil 2 µm 0.08 MilRugged Head Structure[Die cast metal used for IP67/optical base]Compact Head Design + Easy Mounting[Smallest body in its class] + [Hi-fl ex cable]The IL Series automatically controls and optimizes laserpower according to the refl ectance of the target. As a result, stable measurement is possible for almost any target from black rubber to highly refl ective metal surfaces. Furthermore, in order to further streamline communication with process control systems we have installed application specifi c functions into the compact amplifi er.The IL Series has achieved the smallest head housing in its class by adopting the unique aspherical lens. The weight of the head is a mere 60g* (2.1 oz). The sensor head cable is designed with a robot cable. This cable is specifi cally designed for high cycle service life and makes the sensor ideal for robotics or other high cycle applications.*IL-030The head structure was redesigned to make it rugged enough to withstand almost any environment. In addition, the optical base is made of die cast SUS304 for added strength and protection.Super Small Head + Multi-Function Amplifier[Measurement with higher stability] + [All-in-one design]4Step1Step2Step3The multi-function amplifi er with an all-in-one designWhen bringing the target closer to the sensor head in Steps 1 and 2, you are compensating for the misalignments that occur during installation. To set, you can begin with either one of the sensor heads.3-step easy calibration With conventional devices, calibration had to be conducted on each and every individual sensor head, however, as theIL Series has a dedicated mode that allows calibration to be completed in 3 simple steps.Bring the target close to one sensorhead and input the thickness data,then push the set button.Bring the same target used in Step 1close to the opposing sensor head andpush the set button.Insert a target thicker than thetarget used in Step 2. Input thethickness data. Then pushing theset button completes calibration.Ambient light elimination function includedIn order to counteract any ambient light interference, the IL Series automatically activates the ambient light elimination function when the sampling cycle is set to ‘2 ms’ or ‘5 ms’, reducing the effects of ambient light.New mode – Thickness calibration function includedDirect connection with peripheral equipmentPLC, etc.Peripheral equipmentAnalog controller, etc.Data logger, etc.PCHi / Go / Lo judgementoutputVoltage / current analogoutputBCD outputRS232CEmissionLaserThe CMOSwaveform of AAmbient light ispresentThe CMOSwaveform of BAmbient light only(Minus)—=CMOS waveform(difference)Waveform where the ambientlight has been removed(Equals)5Mounting method optionsBoth panel and DIN-rail mount units are available.IL-1500/1550Panel mount typeDL-RB1ABCD output unitDL-RS1ARS-232C communication unitIL-1000/1050DIN-rail mount typeUse this unit when retrieving numericaldata from the IL Series to an externaldevice as digital data. A singlecommunication unit can retrieve datafrom up to 8 IL Series display units viaBCD.Use this unit when outputting digitaldata to an external device withRS-232C signals. In addition the unitcan be used to externally program theamplifi ers.Analog Output SelectionThe following fi ve types of analog outputs can be selected. Theoutput is selected the fi rst time the user turns on the power.The setting can be changed.NPN/PNP Output Selection (judgment selection)Both NPN and PNP outputs are supported. The outputs are setthe fi rst time the user turns on the power. These settings cansubsequently be changed. Judgments are output as HIGH, GO,or LOW.Bank FunctionThe bank function can register up to four patterns of specifi csettings.* For example, in response to a measurement targetchangeover, this function allows the user to easily switchbetween the patterns of registered settings.* HIGH setting value, LOW setting value, shift value, analog output scaling settingAddition modeSetting example 1(thickness measurement)Setting example 2(width measurement)Subtraction modeSetting example 1(Measurement of height difference)Setting example 2(Measuring tilt)Multi-function amplifierCALCULATION FUNCTIONFUNCTION CHOICESCommunication Unit6ApplicationsBy observingthe expansiondisplacement of a canafter heat processing,the results of heatprocessing can beevaluated. Reliabledifferentiation canstill be conductedeven if there are colorchanges in the cans.Thickness and widthcan be simultaneouslymeasured immediatelyafter the extrusionprocess. In addition,man-hours for setup andproduct changeoversare reduced using thethickness calibrationfunction.When assemblingautomotive doors,by simultaneouslymeasuring multiplepoints, the assemblyaccuracy can beevaluated. Reliabledetection is possibleregardless of bodycolor.By using a longrange type of sensorhead, it is possible tocontrol height of hoopmaterials such assteel plates and sheetmaterials even duringtransportation.The sensor headcan be installed ata distance of up to1000 mm 39.37".Provides constantmonitoring by measuringthe height using 2sensors simultaneously,then calculates theheight difference usingthe calculation functionin the amplifi er. Reliabledetection is possibleeven if the product typeor color changes.Even in targets witha large amount ofshape scatter, reliablecounts can still beachieved by detectingrising edges. Theoutput signal is thensent to a counter orother device.As the sensor headis compact, multiplepoint measurements ofsmall-scale boards arepossible. By calculatingthe measurement dataexternally, simultaneousmeasurements ofpositioning and warpageare possible.Through externalcalculations ofheight data from thesensor, the devicedetects the positionof the weld seam.Welding accuracycan be improvedvia measurementdata feedback to thewelder.Heat processing inspection of cansThickness/width measurements of buildingmaterial boardsPackaging material countingAccuracy checks on an automotive doorassemblyHeight controls of a hoop material Height difference measurements of aplastic extrusionWarpage detection in ceramic boardsPositional control of welding beads7Reliable differentiation, even in highly variable small parts, using a high-precision sensor head. Even when the variety changes, external changeover of up to 4 patterns is possible by setting items in the bank function.Controls the PC board height in the mounting and drilling processes. Various kinds of targets can be reliably controlled without being affected by the surface colors of the PC boards.Measures the presence and protrusion of glass in a cassette.Stable detection ispossible even if positional misalignments occur in the cassette itself by utilizing analog processing.Prevents irregular winding by monitoring the traverser position. In addition, feedback control to the device is possible by measuring the volume wound into the bobbin at the same time.Calculates the inclination by measuring multiple points on the stage prior to transferring to the furnace. Transferring the product after correcting the inclination allows for consistent temperature control.Measures the height of the board pre-bonding and the chip post-mounting, allowing control of the post-processing suction nozzle and dispenser nozzle feedback.The IL Series counts how many items are being transported along a conveyer, in addition to the non-contact detection of uneven stacking in the stacker. Reliable detection regardless of color changes in the targets.Measures the behavior of each unit in thedevice. Due to the small head footprint, the IL series can be installed in compact spaces. This means that the IL series can be installed even after the machinery has been set up.Differentiation of different types of plastic componentsHeight controls of a PC boardMisalignment measurement and presence detection of a wafer/glass in a cassette.Wire winding processDetection of stage inclination prior to furnace transportationMeasuring the height of a chip after bondingStacker device counts and stacking disturbancesBehavior detection in an operational unit8Speci fi cationIL-030IL-065IL-10030 mm 1.18"300 mm 11.81"600 mm 23.62"160 to 450 mm200 to 1000 mm 1. The laser classification for FDA (CDRH) is implemented based on IEC 60825-1 in accordance with the requirements of Laser Notice No.50.2. Value when measuring the KEYENCE standard target (white diffuse object).3. F.S. of each model is as follows. IL-030: ±5 mm ±0.20" IL-065: ±10 mm ±0.39" IL-100: ±20 mm ±0.79" IL-300: ±140 mm ±5.51" IL-600: ±400 mm ±15.75"4. Value when measuring the KEYENCE standard target (white diffuse object) at the reference distance, sampling rate: 1 ms, and average number of times: 16. For the IL-300/IL-600, the sampling rate is 2 ms.5. Value when the sampling rate is set to 2 ms or 5 ms.DIN-rail mountDIN-rail mount1. Select and use one of ±5 V, 1 to 5 V, 0 to 5 V or 4 to 20 mA.2. Assign an input of your choice to the 4 external input lines before using.3. – The NPN open collector rated output is: 50 mA max./ch (20 mA when adding an expansion unit) less than 30 V, residual voltage less than 1 V (less than 1.5 V when adding over 6 units including the main unit)– The PNP open collector rated output is: 50 mA max./ch (20 mA/ch when adding expansion units), less than power voltage, and less than 2 V residual voltage (less than 2.5 V when adding over 6 units including the main unit) 4. If there are over 6 additional expansion units, please use a power voltage of 20 to 30 V.Sensor head cables (sold separately)This connector is required if the cable is cut.Connector used to connect to a display unit (2 pcs.)OP-843389DL-RB1A20 to 30 VDC, including ripple, Ripple (P-P): 10% max. Class 2 (Supplied via connected sensor amplifiWiring Diagram1.10 to 30 VDC 4.0VHIGH judgment output LOW judgment output GO judgment output Alarm output Analog output +Analog output GNDExternal input 1 (zero shift input)External input 2 (reset input)External input 3 (timing input)External input 4 (not used)1. The brown, blue, and light blue cables are not provided in a IL-1050/IL-1550 unit (expansion unit).The power is supplied to the expansion unit from the IL-1000/IL-1500 unit (main unit).2. For an analog output, OFF (not used), 0 to 5 V, ±5 V, 1 to 5 V, or 4 to 20 mA can be selected.3. For an external input, bank A input, bank B input, laseremission stop input, or OFF (not used) can also be selected.For details, refer to the User’s Manual.4. If there are over 6 additional expansion units, please use a power voltage of 20 to 30 V.3.23.2Material: SUS304 t=1.5 0.06"Material: SUS12 6.7 150.06"Material: SUS304 t=2.0 0.08"Supplied screw (2 pcs.) M3, P=0.5, L=30 1.18" Material: SUS010DimensionsSensor headsIL-030IL-065/100Mounting bracket (supplied)Mounting bracket (supplied)Unit : mm inchMaterial: SUS304 t=2.0t=2.00.47"0.36"0.36"0.73"ø0.17"0.08"0.08"IL-300/600Mounting bracket (supplied)Cable diameter ø4.7 ø0.19"Cable diameter ø4.7 ø0.19"45X=48 1.89"×(number of amplifiers) -3 0.12"451.77"1.77"45 1.77"0.89"Material : SPCC Steel0.89"Material : SPCC Steel0.89"0.89"OptionsUnit : mm inch11 Communication unit (RS-232C communication type)DL-RS1ACommunication unit (BCD output type)DL-RB1AAmplifi er unit (DIN-rail mount type)IL-1000/IL-1050Amplifi er unitIL-1500/IL-155034-pin MIL connectorDIN-rail mountIL-1000IL-1050When the mounting bracket is attachedOP-60412 (Optional)DIN-rail mount When the mounting bracket is attachedOP-60412 (Optional)KA1-1090■ Regional offices CO FL GA ILDenver Tampa Atlanta ChicagoAL CA CA Birmingham N.California Los AngelesTX VA WADallas Richmond SeattleSC TN TN TXGreenville Knoxville Nashville Austinwww.keyence .comKEYENCE MEXICO S.A. DE C.V.PHONE: +52-81-8220-7900 FAX: +52-81-8220-9097 E-mail:*************************IN KS KY MAIndianapolis Kansas City Louisville BostonMI MI MN MODetroitGrand Rapids Minneapolis St. LouisNJ NY NC NCElmwood Park Rochester Charlotte RaleighOH OH OR PACincinnati Cleveland Portland PhiladelphiaCopyright (c) 2010 KEYENCE CORPORATION. All rights reserved.IL-KA-C2-E 1100-1 611473 Printed in JapanKEYENCE CANADA INC.Head Office PHONE:905-696-9970FAX:905-696-8340E-mail:*************************Montreal PHONE: 514-694-4740 FAX: 514-694-3206KEYENCE CORPORATION OF AMERICACorporate Office 669RiverDrive,Suite403,ElmwoodPark,NJ07407PHONE:201-930-0100FAX:201-930-0099E-mail:*******************Sales & Marketing Head Office 1100 North Arlington Heights Road, Suite 350, Itasca, IL 60143 PHONE: 888-539-3623 FAX: 630-285-1316KEYENCE GLOBAL HEADQUARTERS1-3-14, Higashi-Nakajima, Higashi-Yodogawa-ku, Osaka, 533-8555, Japan PHONE: +81-6-6379-2211SAFETY INFORMATIONPlease read the instruction manual carefully in order to safely operate any KEYENCE product.The information in this publication is based on KEYENCE’s internal research/evaluation at the time of release and is subject to change without notice.1-888-539-36231-888-KEYENCECALL TOLL FREET O C O N TA C T Y O U R L O C A L O F F I C E*611473*Total Solution LineupCCD LASER MICROMETER Multi-PurposeCCD Laser MicrometerIG Series❙ Repeatability of 5 µm (0.20 Mil)❙ Linearity of ± 0.1% (IG-028)❙ Built-in position monitorCONTACT SENSOR High-precision Contact Digital SensorGT2 Series❙ H igh accuracy in the entire measurement range❙ Good temperature characteristics ❙No tracking errors❙Absolute position detectionResolutionAccuracy 0.1 µm 0.004 Mil1 µm0.04 MilINDUCTIVE DISPLACEMENT Digital InductiveDisplacement SensorEX-V Series❙ Resolution of 0.02% of F.S.❙ Linearity of ± 0.3% of F.S.❙ Ultra high-speed sampling of 25 µsOuter diameter/deformation measurement an extrudateDetection of crank shaft defectsMeasuring the gap between rollersFeedback control using edge position controlMeasurement of defects in a press fi t Confi rmation of the die closure of an IC molding press。

四年级下册第二单元的作文多功能按摩枕头示例回答如下1:As a versatile and practical tool, the multi-functional massage pillow has become a staple in many households. In the second unit of the fourth grade, students are often tasked with writing essays about their favorite products, and themulti-functional massage pillow is an excellent subject for such a task. With its various functions and comfortable design, it is a beloved item for people of all ages.The massage pillow is an exceptional product because it serves multiple purposes. It can be used for relaxation, pain relief, and even stress reduction. The soft material and ergonomic design make it comfortable to use, and the built-in massage functions provide soothing relief for aching muscles. Additionally, many massage pillows are equipped with heat therapy, adding another layer of comfort and relaxation. With these features, the multi-functional massage pillow has become a must-have item for many individuals seeking relief from physical discomfort and mental stress.In Chinese:多功能按摩枕头是一种多功能实用的工具，已经成为许多家庭中的必备品。

paper单词单词：paper1.1 词性：名词1.2 释义：纸；文件；论文；试卷1.3 英文释义：A thin material made from wood pulp or other fibers, used for writing, printing, or packaging.1.4 同义词：document---2 起源与背景2.1 词源：该词源于拉丁语“papyrus”，指的是古埃及人用于书写的纸莎草。

2.2 趣闻：在古代，纸是非常珍贵的物品，只有富人和权贵才能使用得起。

---3 常用搭配与短语3.1 短语：on paper 理论上；在纸面上。

例句：On paper, the plan looks good. 翻译：从理论上讲，这个计划看起来不错。

3.2 短语：paper over 掩盖；掩饰。

例句：They tried to paper over the differences. 翻译：他们试图掩盖分歧。

---4 实用片段（1）"I need to print out this paper before the meeting." The student said as he was rushing to the printer. 翻译：“我需要在会议前把这篇论文打印出来。

”那个学生边说边冲向打印机。

（2）"The teacher handed out the test papers and said, 'Begin.'" 翻译：“老师发下试卷并说：‘开始吧。

’”（3）"I spent hours writing this paper and I hope I get a good grade." 翻译：“我花了好几个小时写这篇论文，我希望能得到一个好成绩。

”（4）"Thepany's financial report is on paper, but we need to analyze it carefully." 翻译：“公司的财务报告在纸上，但我们需要仔细分析它。

How to Design a Vehicle?Designing a vehicle is a complex and multi-disciplinary task that requires expertise in various fields such as mechanical engineering, electrical engineering, aerodynamics, materials science, and more. The process of designing a vehicle involves several stages, each of which presents unique challenges and requires careful consideration.Stage 1: Conceptual DesignThe first stage of designing a vehicle is conceptualizing the design. This involves brainstorming and sketching rough designs that meet the requirements of the vehicle such as performance, size, weight, and aesthetics. The conceptual design stage serves as the foundation for the vehicle design process and helps designers to set specific targets and goals for the design project.Stage 2: Detailed DesigningThe second stage of designing a vehicle is detailed designing. This stage involves creating detailed 3D models using the latest computer-aided design (CAD) software. During this stage, the vehicle design is refined to meet the requirements of the designers and clients. This stage requires expertise in various areas such as structural design, aerodynamics, materials selection, and engineering analysis.Stage 3: PrototypingThe third stage of designing a vehicle is building and testing prototypes. This stage involves creating a physical model of the vehicle design to test form, fit, and function. The prototype is tested under various conditions to ensure that it meets the design specifications and goals. The prototype stage plays a critical role in vehicle design as it helps designers to identify any design flaws that may affect the vehicle’s performance.Stage 4: ProductionThe final stage of designing a vehicle is production. This stage involves mass-producing the final design for the market. The production stage requires expertise in manufacturing processes such as stamping, molding, welding, and assembly. The production stage also requires close attention to detail to ensure that the final product meets quality standards, safety regulations, and customer expectations.ConclusionDesigning a vehicle requires expertise in multiple fields and a careful approach to each step in the process. The conceptual design, detailed designing, prototyping,and production stages require a mix of technical, creative, and analytical skills. The end product should represent the designer’s vision and meet the demands of the market. With careful planning, coordination, and execution, it is possible to create innovative, functional, and aesthetically pleasing vehicle designs that meet the needs and wants of the end-user.。

布料术语英⽂翻译Different types of valances and toppers can transform a “blah” window into an “ah” window, and with all the ready-made drapery products available, putting the finishing touches on a window dressing should be easy. But knowing the kind of window topper you need can be confusing.According to Marilee Nestlee, interior designer and owner of Nestlee's Nest, in Sacramento, Callifornia, choosing the right window topper for your décor is easy once you knowthe window topper names and their design function within a room.ValancesA valance is a multi-dimensional word that can mean anything from a simple gatheredrod-pocket valance placed at the top of a window, to a sophisticated lined material that folds, pleats and drapes over decorative rods and poles.Rod-Pocket ValanceAccording to Nestlee, the easiest and simplest type of window topper is the rod-pocket valance. It is considered the least formal of all window treatments, is loaded onto standard rods or decorator poles and mounted just outside the window casing.“Rod-pocket valances are made of various fabrics,” says Nestlee.“Double-gathered sheer fabric lends to an airy, contemporary design and works as more of an accessory to the room's overall theme or decor; but stiffer, heavier fabric makes a bolder design statement that often helps anchor the style of the room. “For sheer rod-pocket valances, Nestlee recommends two times the window's width. “The beauty of the gathered valance is in the fullness of the gathers, but for medium-weight fabric, one-and-a-half times the window width is sufficient.”SwagsSwags, sometimes referred to as a Jabot, are typically used for a formal décor. Vertical swags may be pleated and lined with a contrasting fabric that shows when the pleat is folded back, and are characterized by a drop in the fabric at the sides of the window.AscotsUneven hemlines, often in triangles or soft, rounded edges, characterize the Ascot. It may be trimmed with beads, lace, fringe or any type of trim that coordinates with the décor.Ascots are usually made from medium-weight fabric and are used in both formal and informal settings. “The triangle-shaped ascot is a popular window topper for kids rooms,” Nestlee says, “and the ro unded ascot, when lined and edged with elegant trim, is often used in formal dining rooms.”Sheer ScarfA long, flowing sheer scarf draped across the top of the window is considered an elegant window topper. It is used both as a complement to a bottom drapery, and as a stand-alonewindow treatment. Scarves draped over decorative rods are usually held in place by finals on the ends of the rod, or looped through slotted corbels that are hung to the outside of the window casing.Tailored ValanceTo mimic the look of a cornice board, Nestlee recommends using a tailored valance loaded onto a continental curtain rod. The rod should be mounted slighlty wider than the window to allow for installation of bottom curtains. “It's important to measure your window correctly,” says Nestlee. “Tailored valances, used in both formal and casual rooms, look best when stretched taught onto the rod.”Buying AdviceSays Nestlee, “Always purchase valances and window toppers from a store that has a return policy. Sometimes you just have to try them to see if they work within your personal design scheme.”Types of Window ValancesBy Susan Kerr, eHow ContributorNow that you've hung your curtains or draperies in that newly decorated room, you've decided the effect isn't quite what you had envisioned. Your window treatments need a little extra pizazz. A valance can provide that extra something special. Choosing the right one for your room is easy if you know what you're shopping for.Valance Factors1.Fabric type, window size, decorating style and light exposure areimportant elements in selecting the right kind of valance for yourwindows. Mixing these factors can give your windows vastly differenteffects.Tailored2.Tailored valances are constructed of one thickness of fabric, hemmed atthe bottom and with a rod pocket in the top. This window treatment isusually made of a stiffer fabric that blocks and filters just a bit of light, allowing the remainder to shine through the draperies or curtainsunderneath. This type of valance works well in more traditional decorsbut can be used in a modern scheme where a minimalist approach is achieved through use of the valance alone.Balloon3.Balloon valances consist of a layer of fabric doubled over lengthwise,forming an open-ended pocket at the bottom. The top of the valance is then gathered, or shirred, on a curtain rod. The fabric pocket can be stuffed with crumpled tissue paper to add fullness. When stuffed in this manner, the balloon valance gives a more decorative or romantic effect to a room's windows. Alternately, the valance can remain unstuffed, presenting a more tailored effect in modern or traditional rooms.Swag4.Swag valances are made of one or more lengths of fabric draped over adecorative curtain or valance rod. The ends of the swag can either hanga few inches on either side of the window or can be somewhat longer,reaching perhaps to the middle of the window. These shorter swags are usually made of a more substantial fabric and might have pleats, offeringa more formal effect.Scarf5.Scarf valances that are long enough to touch the floor, or even puddle onit, are usually made of a sheer nylon fabric that admits light, provides some privacy and dresses a window in a simple but effective fashion.They are looped and draped over a rod much like a swag but are much more casual in appearance. These are often found in romantic decorating schemes but are increasingly used in modern décor as well because of their simplicity.Ascot6.Ascot valances have the familiar rod pocket on their tops. A central piece,usually triangular in shape, hangs down in the middle of the window. It is often flanked by longer pieces that hang further down on the window to cover part of the frame. Ascot valances are usually constructed of more substantial fabric than are theother types, allowing various pleating effects. They are very attractive in either contemporary or vintage decorating schemes.布料英⽂翻译S k y-b l u e:天蓝⾊l i m e:淡黄绿⾊o l i v e:橄榄绿j a d e:碧⽟⾊p o p p y:深红⾊v i o l e t:紫罗兰⾊b e i g e:⽶⽩⾊s c a r l e t:鲜红g o l d e n:⾦⾊n a v y-b l u e:海蓝r u s s e t:⾚褐⾊k h a k i:卡其⾊m u s t a r d:深黄⾊t a n茶⾊b o t t l e g r e e n:深绿⾊c r e a m:淡黄⾊m a r o o n:褐红⾊r o y a l b l u e宝蓝t u r q u o i s e:青绿⾊e m e r a l d:祖母绿p e a c h:粉红⾊b u r g u n d y：枣红l e m o n柠檬⾊t a n g e r i n e:橘红⾊a p r i c o t:杏黄⾊l i g h t g r a y;浅灰r o s e a t e：深粉红⾊m a g e n t a:红紫⾊m a u v e:淡紫⾊l i l a c:紫丁⾹⾊c o f f e e:咖啡⾊b u f f:暗黄⾊a q u a m a r i n e:碧绿⾊y e l l o w:黄⾊o r a n g e:橙⾊c r i m s o n:深红⾊r e d:红⾊g r e e n绿⾊p i n k:粉红⾊p u r p l e：紫⾊b r o w n:棕⾊g r a y:灰⾊f u c h s i a:紫红⾊c y a n:青⾊/蓝绿⾊材料和配件：t h i n:薄t h i c k厚n e t p o c k e t/m e s h:⽹袋b r i e fc a s e:公⽂包w a i s t b a g:腰包f o a m:泡棉p a d d e d:垫料p a n e l:底板/侧板c o m p a r t m e n t:间隔层s h o u l d e r b a g s:肩包s t r a p:带⼦h a n d l e:⼿把p u l l e r拉头g r i p:把⼿R i p s t o p:格⼦布m i c r o f i b e r:花瑶布420D c r i n k l e n y l o n420D的⽔洗布P E b o a r d:P E板f l a p:盖⼦t r o l l e y:拉杆s w a t c h:样卡e l a s t i c:松紧带a d j u s t ab l e:可调节的c a rd b o a r d:纸板c a m o u f l a g e:迷彩⾊w e a v e l a b e l:织唛s t u d:⾓钉f a b r i c:布料p l a s t i c:塑料t a s l o n:塔丝龙t a p e s t r y:窗帘提花布b ac k p a c k:背包p o u c h钱包r i p t o p:格⼦布n i c k e l镍r i v e t:铆钉z i p p e r:拉链l o g o:标记b uc k l e:扣⼦m a t c h c o l o r:配⾊r i b b o n:缎带e m b r o i d e r y刺绣y a r n;线m a r k:唛头p r i n t i n g:印刷i n n e r l a b e r内标h a n g t a g挂牌c a r t o n;纸箱p a c k i n g:包装p a n t o n e⾊卡v e l c r o麾术贴P i p i n g:胶⾻B i n d i n g包边e m b r o i d e r y绣花h a n g e r⾐架b ab r e a k s t i tc h断针l a b o u r c o s t⼯价o v e r t i m e w o r k i n g加班t a f f e t a平纹t w i l l斜纹j a c q u a r d提花c h e c k格⼦s t r i p e条纹f a b r i c⾯料p o l y e s t e r涤纶n y l o n尼龙l i n i n g⾥布p i p i n g凯线m a t c h c o l o r配⾊p a t t e r n纸样d e s i g n s k e t c h设计图i n v i s i b l e z i p p e r/c o n c e a l z i p p e r隐形拉链b a c k i n g c o a t i n g涂层b uc k l e l o o p钮圈p l a s t i c s t i n g胶针j e l p r i n t胶体印刷w o v e n l a b e l织唛;F E L T⽑绒布;r u b b e r p a t c h滴塑;r u b b e r l a b e l滴唛;e l a s t i c c o r d橡⽪筋;s e l f f a b r i c p i p p i n g本布包⾻;p i p p i n g c o r d衬条;S e m i t r a n s p a r e n t:磨沙P V C70D s p o n g e:70发泡P V C m e s h/n e t:⽹布;r o p e:绳⼦;i n t e r i o r:/o u t e r内/外部l a y e r:层。

材料科学专业英语词汇(M)m-alkalinitym 硷度m-vinylphenol 邻乙烯基酚m-vinyltoluene 间乙烯基苯mack's cement 麦克胶合剂macromolecule magazine 接合机收纳盒，弹匣magazine stacker 接合机收纳盒堆叠机magic mirror method 魔镜法magnesia 镁氧；苦土magnesioferrite 镁铁矿magnesite 菱镁矿magnesite brick 镁砖magnesite-chrome brick 镁铬砖magnesite-chrome refractory 镁铬耐火物magnesium aluminate 铝酸镁magnesium fluoride 氟化镁magnesium oxychloride cement 镁氧氯水泥magnesium titanate 钛酸镁magnetic ceramics 磁性陶瓷magnetic coupled feedthrough 磁耦合旋转馈通magnetic field applied czochralski crystal growth method 施加磁场切克劳斯基结晶成长法magnetic levitation transfer 磁悬浮输送magnetic neutral loop discharge 磁中性环路放电magnetic particle test 磁粉探伤magnetic separator 磁力分离器magnetite 磁铁矿magnetization magneto-microwave plasma etching system 磁场微波型等离子体蚀刻系统magnetron 磁控管magnetron discharge 磁控管放电magnetron enhanced reactive ion etaching system 磁控管增强型反应性离子蚀刻系统magnetron sputtering system 磁控管溅镀系统magnification correction system for atmospheric pressure 大气压对应投影透镜放大率校正系统main arch 主拱main discharge 主放电main roller 主滚轮maiolica man machine interface 人机介面manganese glass 锰玻璃manganese-alumina pink 锰铝红mangle 卷扬乾燥器manipulator 操纵器，键控器mantel block 挡砖[块]manual station 手动测试站marangoni drying 马兰葛尼乾燥marbling 大理石纹釉marcasite 白铁矿marco-crystalline 巨晶margarite 珍珠云母marine clay 海面[黏]土mariotte tube 马氏黏度计marker 标印器marking 加标记，打标印marking accuracy 标印精确度marking area 标印面积marking ink 标印油墨marking machine 标印机器marking optics 标印光定系marking speed 标记速度marking strength 标印附着强度marking visibility 标记可见性marl 泥灰岩mask 孔板，障板mask holder 遮光罩固定器mask loader/mask changer 遮光罩搭载器/遮光罩更换器mask stage 遮光罩载物台masking blade 遮光板，掩蔽片masking power 遮盖力masonry 圬工masonry cement 墁砌水泥mass analyzing capability 质量分析能力mass analyzing system 质量分析系统mass resolution 质量分解力master mould 原模matching box/matching network 匹配箱/匹配网路matching piece 配合槽matching unit 匹配单元material lift travel 材料升降行程material safety data sheet 材料安全数据清单matrix frame 矩阵式引线框架matrix probing 矩阵检测matt blue 无觉蓝matt glaze 无光釉maturing range 成熟范围mazarine blueroyal blue mean diameter 平均直径measurement method of interstitial oxygen content in silicon wafer by infrared a 以p 偏光布儒斯特角入射，靠红外光吸收光谱学之矽晶圆晶格间隙氧气浓度测试法measurement method of interstitial oxygen content in silicon wafer by infrared a 以p 偏布儒斯特角入射，靠红外光吸收光谱学之矽晶圆晶格间隙氧气浓度测试法mechanical analysis 机械分析mechanical blade tensioning 机械式张力刀片mechanical chuck 机械式夹头mechanical press 机力压机mechanical scan 机械式扫描mechanical spalling 机械剥落法mechanical water 机械水mechanicl shovel 机力铲mechano chemical polishing 机械化学抛光加工medium current ion implanter 中电流离子注入机medium energy ion implanter 中能量离子注入机medium surface 中间面medium-duty fireclay brick 中级火黏土砖mega cell 超大型功能电路胞megasonic cleaning equipmentmhz 超音波洗条设备melt 融解melting 熔化melting area 熔化区melting end 熔化端melting point 融点melting temperature 熔[化]温[度]melting zone 熔化带membrane curing 液膜养护membrane probe card 薄膜探测卡membrane theory of plasticity 塑性液膜论memory exerciser 记忆体测试程式memory test pattern 记忆体测试图案memory under test 被测试记忆体mending slip 修补泥浆mercury penetration method 汞渗法mesh[ 筛]目；筛孔metahalloysite 偏多水高岭土metakaolin 偏高岭土metal bonded grinding wheel 金属结合研磨轮metal contamination level 金属污染等级metal cvd method 金属cvd 法metal line 玻膏面metal organic cvd system 有机金属cvd 系统metal organic molecular beam epitaxial growth system 有机金属分子束磊晶生长系统metal organic vapor phase epitaxial growth system /movpe system 有机金属汽相磊晶生长系统/movpe 系统metal protection 金属保护[法]metal surface treatment 金属表面处理metallic decoration 金属彩饰metallic dryer 金属乾燥剂metallic luster 金属闪光料metallic material 金属材料metallizing 金属化metallurgical thermodynamics 治金热力学metallurgymica 云母micro bubble 微细气泡micro computer asic（asic）微电脑micro-hardness 微硬度microcline 钾微斜长石microcomputer software 微电脑软体microlite 微晶microloading effect 微型加载效应micromeritics 微粒学micrometry 显微术microminiaturization 微尘化micron microroughness 微型粗糙度microscopy microstructure microvoid coalescence (mvc) microwave plasma enhanced cvd system 微波等离子体增强型cvd 系统mil 密耳(1/1000寸)milk glass 乳白玻璃mill addition 磨机添加剂miller bravais indices 密勒布喇菲指数mineral wool 矿物绵mineralizer 矿化剂minimum detectable pulse width 最小可?测脉冲宽minimum pulse width 最小脉冲宽minium 铅丹mirror 反射镜mirror lens projection aligner 镜面透镜对准曝光器mirror projection aligner 镜面投影对准曝光器mirror wafer 镜面晶圆misfire 点火不良，无法发射mismatch 失配mist in bowl 碗盘内雾状mix 混合料mix simulator 混合模拟器mix-and-match/m&m 混合与匹配/m&m mixed dislocation mixed gas 混合气体mixed level simulator 混合位阶模拟器mixed level test bus 混合位阶测试用汇流排mixer 混合机mixture 混合物mobility 迁移率model 模样(陶)model parameter extraction 模型参数萃取modeling 塑造modeling clay 可雕塑成形的土；雕塑土；油土modified illumination 变形照明module 模组module generator 模组产生器module test 模组测试modulus 模数modulus of elasticity 弹性模数modulus of rigidity 刚性模数modulus of rupture mohammedan blue 回回青mohs' hardness 莫士硬[度]标moir'e topography 莫氏构形学moisture content 水分moisture expansion 水分膨胀mold clamping force 成型夹住力mold cleaner/die cleaner 铸模洗涤器mold release/release agent 铸模分离/铸模分离剂mold temperature 铸模温度molding die 成型铸模molding equipment 塑模成型装置，封胶装置molding press 封胶冲压molding time 成型时间molecular beam epitaxial growth system 分子束磊晶生长系统molecule molten-cast refractory 熔铸耐火物monazite 独居石monel alloy 蒙纳合金(商名)monitor 侦查器monitor board 监测基板monitored burn-in system 监视老化测试系统monochrome decoration 单色彩monolithic 整块的monomer monticellite 钙橄榄石montmorillonite 微晶高岭石mortar 墁料；水泥胶砂；灰泥；灰浆mosaic 马赛克；驻嵌瓷片mother board 母基板motifmotif 图形介面mottling 斑点彩饰moudlus of rupture 破坏模数mould 模型mould brick 模砖mould mark 模痕mount plate/top plate 固定板/上方板mounter 安装器mounting machine /mount station 晶圆固定机mouse hole 老鼠洞mouthpiece 口型moving picture experts 动画专家群mud gun 泥枪muffle 隔焰室muliple tilt angle implantation 多倾斜角植入mulit media 多媒体mulit media microcomputer 多媒体微电脑muller mixer 碾式混合机mullite 富铝红柱石multi band saw 多条带锯子multi blade saw 多刀片锯子multi cassette rotor 多个套装匣转子multi cycle annealing 多循环退火处理multi magazine type 多个收盒型multi pulling method 多段拉晶法multi step annealing 多步骤退火处理multi steps annealing 多步骤退火热处理multi wire saw 多钢线锯子multi-bath wet cleaning equipment 多槽浸渍式洗条装置multi-bit memory application function 多位元记忆体应用功能multi-bucket excavator 着斗挖土机multi-cellular glass 泡沫玻璃multi-chamber vacuum system 多室真空系统multi-passage kiln 多隧窑multi-plunger molding die 多柱塞型成型铸模multi-site probing 多部位探测multi-station cleaning equipment 多处理站洗条装置multi-station synchronous probe test 多数测试站同步探针测试multichip module 多晶片模组multiplayer mirror optics 多层镜面光学multiplayer resist method 多层抗蚀剂法multiple bonding 多数个晶片接合multiple head bonder 多焊接头压接机multiple interference effect 多重干涉效应multiple nozzle 多喷嘴(配料机)multiple parallel plate electrode plasma enhanced cvd system 多平行电极等离子体增强型cvd 系统multiple tilt angle implantation 多倾斜角植入multiple-hearth furnace 多床炉multiplex test function 多工测试功能，多路复用测试功能multiplexer 选通器，选择器multiwall carbon nanotubes 多层碳奈米管muscovite 白云母。

Part Design - Moldmaking - Rotary Platens Molding - Portable Injection UnitsOur solutions cut cycle times, increase productivity, improve quality, and reduce costs.We provide multishot technologies, engineering, mold building, and manufacturing solutions.These Multishot Technologies are designed and built by theENGINEERING FOR OPTIMUM PERFORMANCEW188 N11707 Maple Rd. Germantown, WI 53022 USA Phone: (262) 255-5790 Fax: (262) 255-7206Email: contact@ Web: ELIMINATE SECONDARY OPERATIONSBy design, multishot technology can eliminate downstream assembly by achieving the task during the molding process. O-rings, gaskets, caps, straps, inserts, handles, grips, logos, text, masking areas for metal plating, and hinges can be molded into the part.These improvements can assist in the reduction or elimination of assembly equipment, labor, non-conforming parts, and part failure in the field.IN MOLD ASSEMBLYUsing mechanical design techniques, moving parts can be achieved with multishotinjection molding! The valve shown at right has a polypropylene petcock (red) molded into a static polycarbonate housing (white). The petcock can rotate inside the housing 360 degrees by incorporating the use of a mechanical bond (bonded together by designand the use of dissimilar materials). The third shot material (blue) uses chemical bonding (bonded by the natural characteristics of similar materials) creating a soft rubber seal. This valve leaves the mold fully assembledexactly as shown because all three materials are introduced during the same molding cycle!The battery latch shown demonstrates a multishot part with a movable component. The internal black module of this part is 0.7cm in diameter and rotates 180 degrees inside the gray housing, acting as a locking mechanism that can be fastened and unfastened in order to secure and remove the battery housing.SOFT TOUCHErgonomics has proven to be a deciding factor in today's consumer market. Multishot applications such as grips,handles, text, and color separations fuel customer desirability.COST EFFECTIVE SOLUTIONSImagine your program requiring less press time, manpower, storage, and injection molds. MGS customers realize these cost savings every day.MOLDED GRAPHICSLogos, text, and graphic elements can be molded right into part geometry, eliminating costly labels and stickers that wear, fade, and fall off.Multishot Injected Molded ValveU.S. Patent 6,371,444 B1Battery Latch(Front & Back Views)Multishot Grip Cap Patents pendingMGS MoldmakingWe have been manufacturing multishotmolds since the 1980's. Up-front productengineering facilitates effective molddesign and automated manufacturingefficiencies. Early involvement from ourdesign and engineering teams providesyou with molds which are easier tomaintain, have an extended productionlife, and provide cost-effective solutionsfor your company.MGS MoldingWe handle high technology molding.TecStar, our custom molding company,has presses that range from 28-880 tons,over 50 multishot systems, and over200,000 square feet of production space.With multiple manufacturing facilities, wehave the capabilities and capacities yourprograms require.MGS Rotary PlatensDesigned for a fast-paced market, webuild platens with quality and performancein mind. Sizes range from 400mm to2200mm and style options include:Standard Flush Mounted, Euro StyleWater Jacket, and Servo Driver Electrical.Bolt hole patterns, knock out patterns,platen style, rotation, and other optionscan be customized to fit your needs.Rotary Platen Assembly U.S. Patent # 6,402,504 B1 (other patents pending)MGS Injection UnitsOur portable injection units configure toexisting molding presses making themmultishot capable. These units are capableof shot sizes ranging from .16 to over 2,000grams. Our vertical units save valuable floorspace and mount right on the press or mold,while our horizontal units are placed pressside to accommodate larger shot sizes orceiling restrictions. We also offercustom-built portable injection units toaccommodate special production needs. Multishot Injection Molding Arrangement U.S. Patent 6,994,810 B2 (other patents pending)5-2008MGS Mfg. Group, Inc. W188 N11707 Maple Rd. Germantown, WI 53022 USA Phone: (262) 255-5790 Fax: (262) 255-7206Email: contact@ Web: We are an engineering company delivering performance solutions for moldmaking, development/qualification, manufacturing, andequipment for the plastics industry.MoldmakingEngineering & Design High Speed / High Precision Machining Automated Mold Building CellsDevelopment/QualificationDiverse Metrology Capabilities Mold Testing &Process Development Mold OptimizationManufacturingISO Class 8 Clean Room Molding & Assembly Continuous Extrusion Shuttle Blow MoldingValue-Added Secondary Operations & Flexible Assembly AutomationEquipmentUniversal Multishot Systems - Portable Injection Units - Rotary Platens - Vacuum Units- Hot Runner ControllersPart / Product Design Mold Design Prototype MoldsPre-Production Molds Die Cast Molds Contract MachiningMulti-Cavity / High CavitationInjection Molds, Multishot (Multi-Material)Thermo-Forming & Compression Dies / Molds Fixtures - Degating - InspectionEnd-of-Arm ToolingManufacturing Development Mold / Part QualificationManufacturing System Qualification Sampling ServicesProcess / Window Studies Material EvaluationsScientific Molding PrinciplesAPQP (Applied Product Quality Planning)Customer Specific Submission Formats Gauge Design and Build First Article Inspection (FAI)IQ/OQ/PQ PPAPPlastic Injection Molding - Conventional- Multishot (Multi-Material)ISO Class 8 Clean Room Molding and Assembly Secondary Operations Insert MoldingTransfer ProgramsSemi to Fully Automatic Assembly Systems Continuous Extrusion Shuttle Blow Molding - In Line Automated Leak Testing - In Line Automated CNC Machining - Closure Tooling and Molding Automation SystemsUMS Vacuum UnitsUMS Hot Runner Controllers - 5, 15, 20, or 30 ZonesUMS Portable Injection Units - Hydraulic and Servo Options - Mold Mounted Options - Press Mounted Options - Horizontal Options UMS Rotary Platens- Hydraulic and Servo Options - Size OptionsConsumer / Disposable Construction IndustrialWater Treatment / Irrigation Appliance CosmeticAeronautic / AerospaceMedical & HealthcarePackaging / Closures / Containers AutomotiveTelecommunication Electrical Computer Housewares。

自行车设计理念怎么写英语Title: The Concept of Bicycle Design。

Bicycle design is a fascinating and ever-evolving field that encompasses both form and function. The design of a bicycle involves not only the aesthetics of the bike, but also the engineering, ergonomics, and user experience. In this article, we will explore the key principles and concepts that drive bicycle design.One of the fundamental principles of bicycle design is simplicity. A well-designed bicycle should be simple and easy to use, with intuitive controls and minimalistic features. This not only enhances the user experience, but also reduces the risk of mechanical failures and maintenance issues.Another important aspect of bicycle design is comfort. A bicycle should be designed with the rider in mind, providing a comfortable and ergonomic riding position. This includes the design of the saddle, handlebars, and frame geometry to ensure a smooth and enjoyable ride.In addition to simplicity and comfort, safety is a paramount consideration in bicycle design. A well-designed bicycle should incorporate safety features such as effective braking systems, visibility-enhancing lights, and reflective materials to ensure the rider's safety on the road.Furthermore, the use of sustainable materials and manufacturing processes is becoming increasingly important in bicycle design. Designers are now exploring innovative materials and production methods to create environmentally-friendly and durable bicycles.The concept of versatility is also a key driving force in bicycle design. Modern bicycles are designed to be multi-functional, catering to a wide range of riding styles and terrains. Whether it's commuting in the city, off-road adventures, or long-distance touring, a well-designed bicycle should be adaptable to different riding conditions.Lastly, the aesthetic appeal of a bicycle cannot be overlooked. Designers strive to create visually appealing bicycles that reflect the brand's identity and appeal to the personal tastes of the riders. From sleek and modern designs to classic and vintage-inspired aesthetics, the visual aspect of bicycle design plays a crucial role in the overall appeal of the bike.In conclusion, the concept of bicycle design is a multi-faceted and dynamic field that encompasses simplicity, comfort, safety, sustainability, versatility, and aesthetics. As designers continue to push the boundaries of innovation, we can expect to see even more exciting and groundbreaking developments in the world of bicycle design.。