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| material science questions: Materials Science for Engineers J.C. Anderson, Keith D. Leaver, Rees D. Rawlings, Patrick S. Leevers, 2004-06-01 This fifth edition of a successful textbook continues to provide students with an introduction to the basic principles of materials science over a broad range of topics. The authors have revised and updated this edition to include many new applications and recently developed materials. The book is presented in three parts. The first section discusses the physics, chemistry, and internal structure of materials. The second part examines the mechanical properties of materials and their application in engineering situations. The final section presents the electromagnetic properties of materials and their application. Each chapter begins with an outline of the relevance of its topics and ends with problems that require an understanding of the theory and some reasoning ability to resolve. These are followed by self-assessment questions, which test students' understanding of the principles of materials science and are designed to quickly cover the subject area of the chapter. This edition of Materials Science for Engineers includes an expanded treatment of many materials, particulary polymers, foams, composites and functional materials. Of the latter, superconductors and magnetics have received greater coverage to account for the considerable development in these fields in recent years. New sections on liquid crystals, superalloys, and organic semiconductors have also been added to provide a comprehensive overview of the field of materials science. |
| material science questions: Materials sciences overview , 1977 |
| material science questions: Material Science and Metallurgy: Jindal, 2011 Material Science and Metallurgy is presented in a user-friendly language and the diagrams give a clear view and concept. Solved problems, multiple choice questions and review questions are also integral part of the book. The contents of the book ar |
| material science questions: Mathematical Research in Materials Science National Research Council, Division on Engineering and Physical Sciences, Commission on Physical Sciences, Mathematics, and Applications, Committee on Mathematical Sciences Applied to Materials Science, 1993-02-01 This book describes fruitful past collaborations between the mathematical and materials sciences and indicates future challenges. It seeks both to encourage mathematical sciences research that will complement vital research in materials science and to raise awareness of the value of quantitative methods. The volume encourages both communities to increase cross-disciplinary collaborations, emphasizing that each has much to gain from such an increase, and it presents recommendations for facilitating such work. This book is written for both mathematical and materials science researchers interested in advancing research at this interface; for federal and state agency representatives interested in encouraging such collaborations; and for anyone wanting information on how such cross-disciplinary, collaborative efforts can be accomplished successfully. |
| material science questions: Fundamentals of Materials Science for Technologists Larry Horath, 2019-05-01 The properties of materials provide key information regarding their appropriateness for a product and how they will function in service. The Third Edition provides a relevant discussion and vital examples of the fundamentals of materials science so that these details can be applied in real-world situations. Horath effectively combines principles and theory with practical applications used in today's machines, devices, structures, and consumer products. The basic premises of materials science and mechanical behavior are explored as they relate to all types of materials: ferrous and nonferrous metals; polymers and elastomers; wood and wood products; ceramics and glass; cement, concrete, and asphalt; composites; adhesives and coatings; fuels and lubricants; and smart materials. Valuable and insightful coverage of the destructive and nondestructive evaluation of material properties builds the groundwork for inspection processes and testing techniques, such as tensile, creep, compression, shear, bend or flexure, hardness, impact, and fatigue. Laboratory exercises and reference materials are included for hands-on learning in a supervised environment, which promotes a perceptive understanding of why we study and test materials and develop skills in industry-sanctioned testing procedures, data collection, reporting and graphing, and determining additional appropriate tests. |
| material science questions: Mathematical Challenges in a New Phase of Materials Science Yasumasa Nishiura, Motoko Kotani, 2016-07-11 This volume comprises eight papers delivered at the RIMS International Conference Mathematical Challenges in a New Phase of Materials Science, Kyoto, August 4–8, 2014. The contributions address subjects in defect dynamics, negatively curved carbon crystal, topological analysis of di-block copolymers, persistence modules, and fracture dynamics. These papers highlight the strong interaction between mathematics and materials science and also reflect the activity of WPI-AIMR at Tohoku University, in which collaborations between mathematicians and experimentalists are actively ongoing. |
| material science questions: Materials Principles and Practice Charles Newey, Graham Weaver, 2013-10-22 Materials Principles and Practice deals with materials science in the technological context of making and using materials. Topics covered include the nature of materials such as crystals, an atomic view of solids, temperature effects on materials, and the mechanical and chemical properties of materials. This book is comprised of seven chapters and begins with an overview of the properties of different kinds of material, the ways in which materials can be shaped, and the uses to which they can be put. The next chapter describes the state of matter as a balance between the tendencies of atoms to stick together (by chemical bonding) or rattle apart (by thermal agitation), paying particular attention to ionic bonds and ionic crystals, the structure and properties of polymers, and transition metals. The reader is also introduced to how the structure of materials, especially microstructure, can be manipulated to give desired properties via thermal, mechanical, and chemical agents of change. This text concludes by describing the chemistry of processing and service of various materials. Exercises and self-assessment questions with answers are given at the end of each chapter, together with a set of objectives. This monograph will be a valuable resource for students of materials science and the physical sciences. |
| material science questions: Metals and Materials R. E. Smallman, Ray J. Bishop, 1995 |
| material science questions: Engineering Materials RK Rajput, 2008 The book has been throughly revised.Several new articles have been added,specifically,in chapters in mortar ,Concrete ,Paint:Varnishes,Distempers and Antitermite treatmant to make the book to still more comprehensive and a useful unit for the students preparing for the examination in the subject. |
| material science questions: Fundamentals of Materials Science Eric J. Mittemeijer, 2010-12-01 Check out the 2nd, new edition, available here: https://link.springer.com/book/10.1007/978-3-030-60056-3 This book offers a strong introduction to fundamental concepts on the basis of materials science. It conveys the central issue of materials science, distinguishing it from merely solid state physics and solid state chemistry, namely to develop models that provide the relation between the microstructure and the properties. The book is meant to be used in the beginning of a materials science and engineering study as well as throughout an entire undergraduate and even graduate study as a solid background against which specialized texts can be studied. Topics dealt with are crystallography, lattice defects, microstructural analysis, phase equilibria and transformations and mechanical strength. After the basic chapters the coverage of topics occurs to an extent surpassing what can be offered in a freshman's course. About the author Prof. Mittemeijer is one of the top scientists in materials science, whose perceptiveness and insight have led to important achievements. This book witnesses of his knowledge and panoramic overview and profound understanding of the field. He is a director of the Max Planck Institute for Metals Research in Stuttgart. |
| material science questions: Thermodynamics in Materials Science, Second Edition Robert DeHoff, 2006-03-13 Thermodynamics in Materials Science, Second Edition is a clear presentation of how thermodynamic data is used to predict the behavior of a wide range of materials, a crucial component in the decision-making process for many materials science and engineering applications. This primary textbook accentuates the integration of principles, strategies, and thermochemical data to generate accurate “maps” of equilibrium states, such as phase diagrams, predominance diagrams, and Pourbaix corrosion diagrams. It also recommends which maps are best suited for specific real-world scenarios and thermodynamic problems. The second edition yet. Each chapter presents its subject matter consistently, based on the classification of thermodynamic systems, properties, and derivations that illustrate important relationships among variables for finding the conditions for equilibrium. Each chapter also contains a summary of important concepts and relationships as well as examples and sample problems that apply appropriate strategies for solving real-world problems. The up-to-date and complete coverage ofthermodynamic data, laws, definitions, strategies, and tools in Thermodynamics in Materials Science, Second Edition provides students and practicing engineers a valuable guide for producing and applying maps of equilibrium states to everyday applications in materials sciences. |
| material science questions: Versatile Solicitations of Materials Science in Diverse Science Fields Mridula Tripathi, 2021 Materials science influences all aspects of society, including the current challenges of environmental issues and of sustainable energy. It also impacts our daily life, because it studies common materials like nanomaterials, composites, hybrid materials, glass, and plastic. Materials science tries to improve these materials in ways such as adding scratch resistance to glass. This science also commonly studies composite materials. This book was motivated by the desire to broaden knowledge and use this knowledge to develop new materials for the utility of mankind. There are innumerable tools currently available that focus on specific knowledge that can largely serve the scientific community. However, this book also explores social issues and outlines applications of different materials. Additionally, this book presents research-based practices related to the usage of advanced materials and covers the application of nanomaterials in solar energy and medicine. The didactic approach of this book is perfectly suited to science and engineering students, as well as to biologists, physicists, or chemists who are not specialized in materials but who, nevertheless, wish to learn about this discipline. This work will also be appreciated by specialists in a particular aspect of materials science wishing to have a global view on the subject and to position their activity in a wider context-- |
| material science questions: Manufacturing Engineering and Materials Science Abhineet Saini, B. S. Pabla, Chander Prakash, Gurmohan Singh, Alokesh Pramanik, 2023-11-15 This book, which is part of a two-volume handbook set, gives a comprehensive description of recent developments in materials science and manufacturing technology, aiming primarily at its applications in biomedical science, advanced engineering materials, conventional/non-conventional manufacturing techniques, sustainable engineering design, and related domains. Manufacturing Engineering and Materials Science: Tools and Applications provides state-of-the-art research conducted in the fields of technological advancements in surface engineering, tribology, additive manufacturing, precision manufacturing, electromechanical systems, and computer-assisted design and manufacturing. The book captures emerging areas of materials science and advanced manufacturing engineering and presents the most recent trends in research for emerging researchers, field engineers, and academic professionals. |
| material science questions: CRC Handbook of Materials Science Charles T. Lynch, 2020-09-23 Published in 1974: The CRC Handbook of Materials Science provides a current and readily accessible guide to the physical properties of solid state and structural materials. |
| material science questions: Materials Experience Zoe Laughlin, Philip Howes, 2013-10-24 Here we discuss multidisciplinary work on a sensoaesthetic theory of materials, studying and unraveling the interconnected nature of how we perceive the sensorial aspects of materials in relation to core physical properties. We consider the definition of material from scientific and artistic perspectives, and describe how experiments undertaken by a multidisciplinary team within the Institute of Making worked to draw these sides together in a coherent and productive fashion. The relationship between the objects created for studying the sound and taste of materials, and how their physical properties affect aesthetic perception of the objects, will be introduced as an innovative methodology for investigating material–user interactions. |
| material science questions: Stuff Matters Mark Miodownik, 2014 An eye-opening adventure deep inside the everyday materials that surround us, from concrete and steel to denim and chocolate, packed with surprising stories and fascinating science. |
| material science questions: Handbook of Materials Science Charles T. Lynch, 2019-07-17 Published in 1974: The CRC Handbook of Materials Science provides a current and readily accessible guide to the physical properties of solid state and structural materials. |
| material science questions: Introduction to Materials Science for Engineers James F. Shackelford, 2005 Accompanying CD-ROM contains ... materials science software, image and video galleries, articles, solutions to practice problems, links to societies and schools, and supplemental materials. -- disc label. |
| material science questions: Materials for Engineering, Third Edition John Martin, 2006-07-07 This third edition of what has become a modern classic presents a lively overview of materials science that is ideal for students of structural engineering. It contains chapters on the structure of engineering materials, the determination of mechanical properties, metals and alloys, glasses and ceramics, organic polymeric materials and composite materials. It contains a section with thought-provoking questions as well as a series of useful appendices. Tabulated data in the body of the text, and the appendices, have been selected to increase the value of Materials for Engineering as a permanent source of reference to readers throughout their professional lives. The Second edition was awarded Choice's Outstanding Academic Title award in 2003. This third edition includes new information on emerging topics and updated reading lists. |
| material science questions: Materials Experience Elvin Karana, Owain Pedgley, Valentina Rognoli, 2013-10-24 There currently exists an abundance of materials selection advice for designers suited to solving technical product requirements. In contrast, a stark gap can be found in current literature that articulates the very real personal, social, cultural and economic connections between materials and the design of the material world. In Materials Experience: Fundamentals of Materials and Design, thirty-four of the leading academicians and experts, alongside 8 professional designers, have come together for the first time to offer their expertise and insights on a number of topics common to materials and product design. The result is a very readable and varied panorama on the world of materials and product design as it currently stands. - Contributions by many of the most prominent materials experts and designers in the field today, with a foreword by Mike Ashby - The book is organized into 4 main themes: sustainability, user interaction, technology and selection - Between chapters, you will find the results of interviews conducted with internationally known designers - These 'designer perspectives' will provide a 'time out' from the academic articles, with emphasis placed on fascinating insights, product examples and visuals |
| material science questions: Handbook of Research on Recent Developments in Materials Science and Corrosion Engineering Education Lim, Hwee Ling, 2015-02-28 The latest research innovations and enhanced technologies have altered the discipline of materials science and engineering. As a direct result of these developments, new trends in Materials Science and Engineering (MSE) pedagogy have emerged that require attention. The Handbook of Research on Recent Developments in Materials Science and Corrosion Engineering Education brings together innovative and current advances in the curriculum design and course content of MSE education programs. Focusing on the application of instructional strategies, pedagogical frameworks, and career preparation techniques, this book is an essential reference source for academicians, engineering practitioners, researchers, and industry professionals interested in emerging and future trends in MSE training and education. |
| material science questions: Materials for Engineers Jonathan B. Puthoff, Vilupanur A. Ravi, 2024-08-22 A working understanding of materials principles is essential in every area of engineering. However, the materials requirements of different engineering disciplines can vary considerably. Existing introductory textbooks on engineering materials adopt a universalist approach, providing theoretical development and surveying a landscape of topics suitable for introducing materials engineers to their field. Materials for Engineers: Principles and Applications for Non-Majors has been constructed with the requirements of non-materials engineering students (“non-majors) in mind. The theoretical foundations of material structure and behavior are curated and focused, and the description of the behavior of materials as they pertain to performance, measurement, and design are developed in detail. The book: Places applications and essential measurement methods before detailed theory Features a variety of types end-of-chapter exercises, including forum discussion topics for online course components Emphasizes computer-based problem solving and includes numerous examples and exercises for MATLAB® Includes optional “topic” chapters for course customization, including structures, transportation, and electronics Outlines practical details of how and why knowledge of materials is necessary for engineers, including the various roles that materials engineers play and the impact of materials on cost, lifespan, and safety of components and products This textbook is aimed at undergraduate engineering students taking their first materials engineering course. It can also be used by professional engineers interested in a ready reference. A solutions manual, lecture slides, and example data sets are available for adopting professors. |
| material science questions: Fundamentals of Materials Science and Engineering William D. Callister, Jr., David G. Rethwisch, 2020-07-28 This text is an unbound, three hole punched version. Fundamentals of Materials Science and Engineering: An Integrated Approach, Binder Ready Version, 5th Edition takes an integrated approach to the sequence of topics – one specific structure, characteristic, or property type is covered in turn for all three basic material types: metals, ceramics, and polymeric materials. This presentation permits the early introduction of non-metals and supports the engineer's role in choosing materials based upon their characteristics. Using clear, concise terminology that is familiar to students, Fundamentals presents material at an appropriate level for both student comprehension and instructors who may not have a materials background. This text is an unbound, three hole punched version. Access to WileyPLUS sold separately. |
| material science questions: Workshop Practice R. K. Rajput, 2004 |
| material science questions: Surface Problems in Materials Science and Technology H. Fischmeister, 1980 |
| material science questions: A MATLAB® Primer for Technical Programming for Materials Science and Engineering Leonid Burstein, 2020-02-06 A MATLAB® Primer for Technical Programming for Materials Science and Engineering draws on examples from the field, providing the latest information on this programming tool that is targeted towards materials science. The book enables non-programmers to master MATLAB® in order to solve problems in materials science, assuming only a modest mathematical background. In addition, the book introduces programming and technical concepts in a logical manner to help students use MATLAB® for subsequent projects. This title offers materials scientists who are non-programming specialists with a coherent and focused introduction to MATLAB®. - Provides the necessary background, alongside examples drawn from the field, to allow materials scientists to effectively master MATLAB® - Guides the reader through programming and technical concepts in a logical and coherent manner - Promotes a thorough working familiarity with MATLAB® for materials scientists - Gives the information needed to write efficient and compact programs to solve problems in materials science, tribology, mechanics of materials and other material-related disciplines |
| material science questions: Questions About Elastic Waves Jüri Engelbrecht, 2015-03-05 This book addresses the modelling of mechanical waves by asking the right questions about them and trying to find suitable answers. The questions follow the analytical sequence from elementary understandings to complicated cases, following a step-by-step path towards increased knowledge. The focus is on waves in elastic solids, although some examples also concern non-conservative cases for the sake of completeness. Special attention is paid to the understanding of the influence of microstructure, nonlinearity and internal variables in continua. With the help of many mathematical models for describing waves, physical phenomena concerning wave dispersion, nonlinear effects, emergence of solitary waves, scales and hierarchies of waves as well as the governing physical parameters are analysed. Also, the energy balance in waves and non-conservative models with energy influx are discussed. Finally, all answers are interwoven into the canvas of complexity. |
| material science questions: Transmission Electron Microscopy David Bernard Williams, C. Barry Carter, 1996 This groundbreaking text provides the necessary instructions for hands-on application of this versatile materials characterization technique and is supported by over 600 illustrations and diagrams. |
| material science questions: Applications of Raman Spectroscopy to Biology M. Ghomi, 2012-02-23 Raman spectroscopy has been known and used as a technique for 80 years, originally for the study of inorganic substances. Recent advances in underlying technology, such as lasers, detectors, filters and components, have transformed the technique into a very effective modern tool for studying complex biological problems. Professor Mahmoud Ghomi (of the University of Paris XIII) has edited this book on the applications of Raman spectroscopy to biology, covering in a readily accessible way the area from basic studies to the diagnosis of disease. The early chapters provide background information on basic principles underlying the main Raman methods covered in the book, with information on Surface-Enhanced Raman Scattering (SERS) and Surface-Enhanced Fluorescence (SEF), as well as giving accounts of applications to biomolecular and cellular investigations. Among the topics covered are studies of drugs and their complexes with biomolecules on nanoparticles, application of SERS to blood analysis, studies of single cells and of applications to human cancer diagnostics.This will be a useful book for experimental scientists in academic, governmental, industrial and clinical environments and for those entering the field of biomolecular spectroscopy. |
| material science questions: Material Science & Engineering R. K. Rajput, 2009 |
| material science questions: Reader's Guide to the History of Science Arne Hessenbruch, 2013-12-16 The Reader's Guide to the History of Science looks at the literature of science in some 550 entries on individuals (Einstein), institutions and disciplines (Mathematics), general themes (Romantic Science) and central concepts (Paradigm and Fact). The history of science is construed widely to include the history of medicine and technology as is reflected in the range of disciplines from which the international team of 200 contributors are drawn. |
| material science questions: Resources in education , 1983-08 |
| material science questions: Materials Science and Engineering Anish Upadhyaya, 2015-08-30 Describes structure-property-processing-performance relationships in varied classes of materials - metals, ceramics, polymers and composites. The text is illustrated with worked examples dealing with the engineering aspects of materials and includes abundant questions and problems at the end of each chapter. |
| material science questions: Chemistry and Physics of Fullerenes and Carbon Nanomaterials Electrochemical Society. Fullerenes Group, Electrochemical Society. Meeting, 2000 |
| material science questions: Fundamentals of Modern Manufacturing Mikell P. Groover, 2010-01-07 Engineers rely on Groover because of the book’s quantitative and engineering-oriented approach that provides more equations and numerical problem exercises. The fourth edition introduces more modern topics, including new materials, processes and systems. End of chapter problems are also thoroughly revised to make the material more relevant. Several figures have been enhanced to significantly improve the quality of artwork. All of these changes will help engineers better understand the topic and how to apply it in the field. |
| material science questions: Introduction to Materials Chemistry Harry R. Allcock, 2011-09-20 Introduction to Materials Chemistry will appeal to advanced undergraduates and graduate students in chemistry, materials science,and chemical engineering by leading them stepwise from the elementary chemistry on which materials science depends, through a discussion of the different classes of materials, and ending with a description of how materials are used in devices and general technology. |
| material science questions: Statutes and Ordinances of the University of Cambridge 2004 University of Cambridge, 2004-09-30 This is the latest updated edition of the University of Cambridge's official statutes and Ordinances. |
| material science questions: Comprehensive Basic Mechanical Engineering R.K. Rajput, 2005 |
| material science questions: Transmission Electron Microscopy C. Barry Carter, David B. Williams, 2016-08-24 This text is a companion volume to Transmission Electron Microscopy: A Textbook for Materials Science by Williams and Carter. The aim is to extend the discussion of certain topics that are either rapidly changing at this time or that would benefit from more detailed discussion than space allowed in the primary text. World-renowned researchers have contributed chapters in their area of expertise, and the editors have carefully prepared these chapters to provide a uniform tone and treatment for this exciting material. The book features an unparalleled collection of color figures showcasing the quality and variety of chemical data that can be obtained from today’s instruments, as well as key pitfalls to avoid. As with the previous TEM text, each chapter contains two sets of questions, one for self assessment and a second more suitable for homework assignments. Throughout the book, the style follows that of Williams & Carter even when the subject matter becomes challenging—the aim is always to make the topic understandable by first-year graduate students and others who are working in the field of Materials Science Topics covered include sources, in-situ experiments, electron diffraction, Digital Micrograph, waves and holography, focal-series reconstruction and direct methods, STEM and tomography, energy-filtered TEM (EFTEM) imaging, and spectrum imaging. The range and depth of material makes this companion volume essential reading for the budding microscopist and a key reference for practicing researchers using these and related techniques. |
| material science questions: Electronic Materials Science Eugene A. Irene, 2005-03-25 A thorough introduction to fundamental principles andapplications From its beginnings in metallurgy and ceramics, materials sciencenow encompasses such high- tech fields as microelectronics,polymers, biomaterials, and nanotechnology. Electronic MaterialsScience presents the fundamentals of the subject in a detailedfashion for a multidisciplinary audience. Offering a higher-leveltreatment than an undergraduate textbook provides, this textbenefits students and practitioners not only in electronics andoptical materials science, but also in additional cutting-edgefields like polymers and biomaterials. Readers with a basic understanding of physical chemistry or physicswill appreciate the text's sophisticated presentation of today'smaterials science. Instructive derivations of important formulae,usually omitted in an introductory text, are included here. Thisfeature offers a useful glimpse into the foundations of how thediscipline understands such topics as defects, phase equilibria,and mechanical properties. Additionally, concepts such asreciprocal space, electron energy band theory, and thermodynamicsenter the discussion earlier and in a more robust fashion than inother texts. Electronic Materials Science also features: * An orientation towards industry and academia drawn from theauthor's experience in both arenas * Information on applications in semiconductors, optoelectronics,photocells, and nanoelectronics * Problem sets and important references throughout * Flexibility for various pedagogical needs Treating the subject with more depth than any other introductorytext, Electronic Materials Science prepares graduate andupper-level undergraduate students for advanced topics in thediscipline and gives scientists in associated disciplines a clearreview of the field and its leading technologies. |
material是什么意思_material的翻译_音标_读音_用法_例句_爱词霸 …
爱词霸权威在线词典,为您提供material的中文意思,material的用法讲解,material的读音,material的同义词,material的反义词,material的例句等英语服务。
recycle是什么意思_ recycle的翻译_音标_读音_用法_例句_爱词霸在 …
In order to recycle the useful material often needs stave processing and separation processing. 为了回收有用物质,常需加以破碎处理和分选处理. 期刊摘选
alloy是什么意思_alloy的翻译_音标_读音_用法_例句_爱词霸在线词典
We have products of different metal material , such as alloy, brass. 而在产品当中, 我们以合金及铜为主要生产原料. 期刊摘选
scrap是什么意思_scrap的翻译_音标_读音_用法_例句_爱词霸在线词典
2. worthless material that is to be disposed of 3. a small piece of something that is left over after the rest has been used; "she jotted it on a scrap of paper"
plastic是什么意思_plastic的翻译_音标_读音_用法_例句_爱词霸在线 …
"material...transformed by the plastic power of the imagination"--Coleridge. 2. capable of being molded or modeled (especially of earth or clay or other soft material); "plastic substances such …
hazardous是什么意思_hazardous的翻译_音标_读音_用法_例句_爱 …
Route optimization is an effective safety measure for hazardous material transportation. 道路危险品运输路径优化是提高危险品运输安全的一项重要措施. 期刊摘选
aluminium是什么意思_aluminium的翻译_音标_读音_用法_例句_爱 …
White aluminium oxide abrasive is electrically fused in an arc furnace processed alumina as raw material. 白刚玉是以铝氧粉为原料,在电弧炉内经高温冶炼而成. 期刊摘选
substance是什么意思_substance的翻译_音标_读音_用法_例句_爱词 …
material : 通常指组成客观存在物的部分或其原料。 matter : 通常指构成实物的物质,与精神相对立。 在科学上,指占有空间,并能以某种方式被感官觉察的一切东西。
stuff是什么意思_stuff的翻译_音标_读音_用法_例句_爱词霸在线词典
material, matter, substance, stuff. 这些名词均含"物质,东西"之意。 material : 通常指组成客观存在物的部分或其原料。 matter : 通常指构成实物的物质,与精神相对立。在科学上,指占有 …
heterogeneous是什么意思_heterogeneous的翻译_音标_读音_用法_ …
The heterogeneous material specimen is discretized into lattice elements with the same size. 非均匀材料试件离散为几何尺寸相同的有限元格子模型. 期刊摘选
material是什么意思_material的翻译_音标_读音_用法_例句_爱词霸 …
爱词霸权威在线词典,为您提供material的中文意思,material的用法讲解,material的读音,material的同义词,material的反义词,material的例句等英语服务。
recycle是什么意思_ recycle的翻译_音标_读音_用法_例句_爱词霸在 …
In order to recycle the useful material often needs stave processing and separation processing. 为了回收有用物质,常需加以破碎处理和分选处理. 期刊摘选
alloy是什么意思_alloy的翻译_音标_读音_用法_例句_爱词霸在线词典
We have products of different metal material , such as alloy, brass. 而在产品当中, 我们以合金及铜为主要生产原料. 期刊摘选
scrap是什么意思_scrap的翻译_音标_读音_用法_例句_爱词霸在线词典
2. worthless material that is to be disposed of 3. a small piece of something that is left over after the rest has been used; "she jotted it on a scrap of paper"
plastic是什么意思_plastic的翻译_音标_读音_用法_例句_爱词霸在线 …
"material...transformed by the plastic power of the imagination"--Coleridge. 2. capable of being molded or modeled (especially of earth or clay or other soft material); "plastic substances such …
hazardous是什么意思_hazardous的翻译_音标_读音_用法_例句_爱 …
Route optimization is an effective safety measure for hazardous material transportation. 道路危险品运输路径优化是提高危险品运输安全的一项重要措施. 期刊摘选
aluminium是什么意思_aluminium的翻译_音标_读音_用法_例句_爱 …
White aluminium oxide abrasive is electrically fused in an arc furnace processed alumina as raw material. 白刚玉是以铝氧粉为原料,在电弧炉内经高温冶炼而成. 期刊摘选
substance是什么意思_substance的翻译_音标_读音_用法_例句_爱词 …
material : 通常指组成客观存在物的部分或其原料。 matter : 通常指构成实物的物质,与精神相对立。 在科学上,指占有空间,并能以某种方式被感官觉察的一切东西。
stuff是什么意思_stuff的翻译_音标_读音_用法_例句_爱词霸在线词典
material, matter, substance, stuff. 这些名词均含"物质,东西"之意。 material : 通常指组成客观存在物的部分或其原料。 matter : 通常指构成实物的物质,与精神相对立。在科学上,指占有 …
heterogeneous是什么意思_heterogeneous的翻译_音标_读音_用法_ …
The heterogeneous material specimen is discretized into lattice elements with the same size. 非均匀材料试件离散为几何尺寸相同的有限元格子模型. 期刊摘选
