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| examples of materials technology: Materials Science and Technology National Research Council, Division on Earth and Life Studies, Board on Chemical Sciences and Technology, Committee on Challenges for the Chemical Sciences in the 21st Century, Organizing Committee for the Workshop on Materials and Manufacturing, 2003-05-16 The report assesses the current state of chemistry and chemical engineering at the interface with materials science and identifies challenges for research. Recent advances are blurring the distinction between chemistry and materials science and are enabling the creation of new materials that, to date, have only been predicted by theory. These advances include a greater ability to construct materials from molecular components, to design materials for a desired function, to understand molecular self-assembly, and to improve processes by which the material is engineered into the final product. |
| examples of materials technology: Graphics with Materials Technology John Halliwell, 2004 Helping students prepare for the Edexcel assessment in graphic products, this revision text offers advice and guidance on what examiners are looking for, focuses on the application of knowledge to industry to build confidence and summarizes key information. |
| examples of materials technology: Graphic with Materials Technology Lesley Cresswell, 2004 A study guide that matches the Edexcel specification to help students succeed at A Level, this volume examines graphics within materials technology and is intended to aid revision as well as study. |
| examples of materials technology: Materials Science and Engineering for the 1990s National Research Council, Division on Engineering and Physical Sciences, National Materials Advisory Board, Board on Physics and Astronomy, Commission on Engineering and Technical Systems, Commission on Physical Sciences, Mathematics, and Resources, Solid State Sciences Committee, Committee on Materials Science and Engineering, 1989-02-01 Materials science and engineering (MSE) contributes to our everyday lives by making possible technologies ranging from the automobiles we drive to the lasers our physicians use. Materials Science and Engineering for the 1990s charts the impact of MSE on the private and public sectors and identifies the research that must be conducted to help America remain competitive in the world arena. The authors discuss what current and future resources would be needed to conduct this research, as well as the role that industry, the federal government, and universities should play in this endeavor. |
| examples of materials technology: Smart Materials and New Technologies D. Michelle Addington, Daniel L. Schodek, 2005 Today, architects are looking for new solutions to old problems, including 'smart' and 'intelligent' materials that can be applied to building design. This text covers the use of smart materials in a design perspective, as well as describing how these solutions could be utilised in other applications. |
| examples of materials technology: Materials Technology , 1995 |
| examples of materials technology: Materials Technology Yvonne Dean, 2016-07-01 Materials Technology clearly identifies materials and technology as the fundamental generators of buildings and examines how they determine the structure, overall form and quality. It examines the issues that determine the choice of materials, and argues that the decision-making of architects, engineers and designers should take account of the environmental impact of sourcing the basic materials, and of the energy implications of their processing and use in manufacturing. Materials Technology is an essential resource for Materials Technology units in building, architecture and surveying degree and postgraduate courses; and students of BTEC HNC/D building and surveying. It will also be a useful reference tool for Advanced GNVQ Construction and the Built Environment courses and Built Environment NVQs at levels 3 and 4. |
| examples of materials technology: Engineering Materials Technology James A. Jacobs, Thomas F. Kilduff, 1997 The unique design of this book provides many helpful features for a sound and proven approach to learning about modern materials science and technology. Interesting case studies, applications, and illustrations, with numerous sample problems and activities, have been provided to facilitate the learning process. The book's extensive index and handy tables qualifies it as a useful ready reference, on the job or elsewhere. You will learn about engineering materials and many associated topics through an integrated approach centering around innovative trends in design and manufacturing that often focus on environmentally friendly processes and products. Special strategies and clear explanations clarify the relationships among the major facets of materials technology. |
| examples of materials technology: Aerospace Materials and Material Technologies N. Eswara Prasad, R.J.H. Wanhill, 2016-11-07 This book serves as a comprehensive resource on various traditional, advanced and futuristic material technologies for aerospace applications encompassing nearly 20 major areas. Each of the chapters addresses scientific principles behind processing and production, production details, equipment and facilities for industrial production, and finally aerospace application areas of these material technologies. The chapters are authored by pioneers of industrial aerospace material technologies. This book has a well-planned layout in 4 parts. The first part deals with primary metal and material processing, including nano manufacturing. The second part deals with materials characterization and testing methodologies and technologies. The third part addresses structural design. Finally, several advanced material technologies are covered in the fourth part. Some key advanced topics such as “Structural Design by ASIP”, “Damage Mechanics-Based Life Prediction and Extension” and “Principles of Structural Health Monitoring” are dealt with at equal length as the traditional aerospace materials technology topics. This book will be useful to students, researchers and professionals working in the domain of aerospace materials. |
| examples of materials technology: Application of Particle and Laser Beams in Materials Technology P. Misaelides, 2013-03-09 The development of advanced materials with preselected properties is one of the main goals of materials research. Of especial interest are electronics, high-temperature and supemard materials for various applications, as well as alloys with improved wear, corrosion and mechanical resistance properties. The technical challenge connected with the production of these materials is not only associated with the development of new specialised preparation techniques but also with quality control. The energetic charged particle, electron and photon beams offer the possibility of modifying the properties of the near-surface regions of materials without seriously affecting their bulk, and provide unique analytical tools for testing their qUality. This volume includes most of the lectures and contributions delivered at the NATO-funded Advanced Study Institute Application of Particle and Laser Beams in Materials Technology, which was held in Kallithea, Chalkidiki, in Northern Greece, from the 8th to the 21st of May, 1994 and attended by 73 participants from 21 countries. The aim of this ASI was to provide to the participants an overview of this rapidly expanding field. Fundamental aspects concerning the interactions and collisions on atomic, nuclear and solid state scale were presented in a didactic way, along with the application of a variety of techniques for the solution of problems ranging from the development of electronics materials to corrosion research and from archaeometry to environmental protection. |
| examples of materials technology: Introduction to Fluoropolymers Sina Ebnesajjad, 2013-05-11 Introduction to Fluoropolymers demystifies fluoropolymers for a wide audience of designers, engineers, sales staff and managers. This important group of high-performance polymers has applications across a wide range of market sectors, including automotive, aerospace, medical devices, high performance apparel, oil & gas, renewable energy / solar photovoltaics, electronics / semiconductor, pharmaceuticals, and chemical processing. Dr. Ebnesajjad covers the history and applications of a wide variety of materials, including expanded polytetrafluoroethylene, polyvinyl fluoride, vinylidene fluoride polymers and fluoroelastomers, just to name a few. Properties and applications are illustrated by real-world examples as diverse as waterproof clothing, vascular grafts and coatings for aircraft interiors. The different applications of fluoropolymers show the benefits of a group of materials that are highly water-repellant and flame-retardant, with unrivalled lubrication properties and a high level of biocompatibility. Health and safety and environmental aspects are also covered throughout the book. - Demystifies fluoropolymers for a broad audience of engineers in areas such as product design and manufacturing, as well as for non-engineers such as technical sales and management professionals - Explains the potential of fluoropolymers for a wide range of applications across sectors such as aerospace, energy and medical devices - Ideal for both recently qualified engineers and engineers with limited experience of fluoropolymers |
| examples of materials technology: New Materials in Civil Engineering Pijush Samui, Dookie Kim, Nagesh R. Iyer, Sandeep Chaudhary, 2020-07-07 New Materials in Civil Engineering provides engineers and scientists with the tools and methods needed to meet the challenge of designing and constructing more resilient and sustainable infrastructures. This book is a valuable guide to the properties, selection criteria, products, applications, lifecycle and recyclability of advanced materials. It presents an A-to-Z approach to all types of materials, highlighting their key performance properties, principal characteristics and applications. Traditional materials covered include concrete, soil, steel, timber, fly ash, geosynthetic, fiber-reinforced concrete, smart materials, carbon fiber and reinforced polymers. In addition, the book covers nanotechnology and biotechnology in the development of new materials. - Covers a variety of materials, including fly ash, geosynthetic, fiber-reinforced concrete, smart materials, carbon fiber reinforced polymer and waste materials - Provides a one-stop resource of information for the latest materials and practical applications - Includes a variety of different use case studies |
| examples of materials technology: Engineering Materials 1 M. F. Ashby, David Rayner Hunkin Jones, 1996 This book gives a broad introduction to the properties of materials used in engineering applications, and is intended to provide a course in engineering materials for students with no previous background in the subject. |
| examples of materials technology: Materials that Change Color Marinella Ferrara, Murat Bengisu, 2013-11-18 This book presents a design-driven investigation into smart materials developed by chemists, physicists, materials and chemical engineers, and applied by designers to consumer products. Introducing a class of smart materials, that change colors, the book presents their characteristics, advantages, potentialities and difficulties of applications of this to help understanding what they are, how they work, how they are applied. The books also present a number of case studies: products, projects, concepts and experiments using smart materials, thus mapping out new design territories for these innovative materials. These case studies involve different fields of design, including product, interior, fashion and communication design. Within the context of rising sustainable and human-centered design agendas, the series will demonstrate the role and influence of these new materials and technologies on design, and discuss how they can implement and redefine our objects and spaces to encourage more resilient environments. |
| examples of materials technology: Materials that Move Murat Bengisu, Marinella Ferrara, 2018-04-25 This book presents a design-driven investigation into smart materials developed by chemists, physicists, materials and chemical engineers, and applied by designers to consumer products, buildings, interfaces, or textiles. Introducing a class of smart materials (referred to as stimuli-responsive, morphing or kinetic materials) that move and change their shape in response to stimuli, the book presents their characteristics, advantages, potentials, as well as the difficulties involved in their application. The book also presents a large number of case studies on products, projects, concepts, and experiments employing smart materials, thus mapping out new design territories for these innovative materials. The case studies involve different fields of design, including product, interior, fashion, and communication design. Reflecting the growing demand for sustainable and human-centered design agendas, the book explores and reveals the role and influence of these new materials and technologies on design and human experience, and discusses how they can be used to redefine our objects and spaces so as to promote more resilient environments. The book offers an intriguing and valuable resource for design professionals, engineers, scientists and students alike. |
| examples of materials technology: The World is Triangular Horst Czichos, 2020-12-14 This book gives a short presentation of the triad philosophy–physics–technology against the background of the common origin in ancient times. This is the first English edition of this book, previously published in German. The emergence of the book has been described in the foreword of the first German edition. This edition is updated and extended, whereby new physical research results and technological innovations were included: - The physics of space and time after the experimental detection of gravitational waves (Nobel Prize for Physics 2017). - The New International System of Units (SI) for Physics and Technology which is completely based on natural constants and entered into force on World Metrology Day, 20 May 2019. - Actual overview of basic technologies: Material, Energy, Information. - Technologies for the “Digital World” of information and communication. - Mechatronic and Cyber-physical systems for Industry 4.0. The significance of technology for the world in the 21st century is discussed in the final section of the book. |
| examples of materials technology: Hierarchical Structures in Biology as a Guide for New Materials Technology National Research Council, Division on Engineering and Physical Sciences, National Materials Advisory Board, Commission on Engineering and Technical Systems, Committee on Synthetic Hierarchical Structures, 1994-02-01 Hierarchical structures are those assemblages of molecular units or their aggregates embedded within other particles or aggregates that may, in turn, be part of even larger units of increasing levels of organization. This volume reviews the state of the art of synthetic techniques and processing procedures for assembling these structures. Typical natural-occurring systems used as models for synthetic efforts and insight on properties, unusual characteristics, and potential end-use applications are identified. Suggestions are made for research and development efforts to mimic such structures for broader applications. |
| examples of materials technology: New Materials and Technologies for Healthcare L. L. Hench, Michael B. Fenn, Julian R. Jones, 2012 Ch. 1. 21st century challenges for biomaterials / Larry L. Hench -- ch. 2. Stem cell technology: hope or hype? / Larry L. Hench and Julian R. Jones -- ch. 3. Bioactive materials for gene control / Larry L. Hench -- ch. 4. Nanoparticles for novel healthcare therapeutics / Sudipta Seal [und weitere] -- ch. 5. Glass microspheres for cancer treatment / Delbert E. Day -- ch. 6. Bioactive glasses and angiogenesis / Alejandro A. Gorustovich, Luis A. Haro Durand, Aldo R. Boccaccini -- ch. 7. Clinical applications of bioactive glasses for maxillo-facial repair / Ian Thompson -- ch. 8. Clinical applications of bioactive glass-ceramics / Takao Yamamuro -- ch. 9. Hierarchical porous scaffolds for bone regeneration / Julian R. Jones -- ch. 10. Cartilage regeneration / Adam C. Grochowski and MIchael B. Fenn -- ch. 11. Hydrogels for tissue engineering of articular cartilage / Javier S. Castro -- ch. 12. Total knee replacements / Jason Wertz -- ch. 13. Total hip replacement / Kim Elshot Alvarez -- ch. 14. Bioactive surfaces for total hip prosthesis / Takao Yamamuro -- ch. 15. Artificial skin and wound dressings / Krystle Placencio [und weitere] -- ch. 16. Degenerative disc disease in the lumbar spine / Russell Beal -- ch. 17. Shoulder repair / Shane D. Smith -- ch. 18. Drug-eluting stents: worth the risk? / Adam Estelle -- ch. 19. Treating aortic aneurysms / Rochellee Manygoats -- ch. 20. Abdominal aortic aneurysms: treatment and repair / John Ashton -- ch. 21. Heart valve stenosis and surgical repair: present and future / Scott Cooper -- ch. 22. Prosthetic vascular grants for treatment of peripheral arterial disease / Margo Ellis -- ch. 23. Small-diameter vascular grafts / Kyle Marr -- ch. 24. Spinal cord repair: current methods and limitations / Julie Lockwood -- ch. 25. Spinal cord repair for paraplegics / Jeffrey Calhoun -- ch. 26. Brain-machine interfaces / Matthew Goodman -- ch. 27. Stem cell research for treatment of Parkinson's disease / Colleen Young and Michael B. Fenn -- ch. 28. Tissue engineering for corneal regeneration / Ayyasamy Aruchamy -- ch. 29. Development of Lasik: laser-assisted in situ keratomileusis -- ch. 30. Hearing devices: experiencing a world of sound / Savannah Burnside -- ch. 31. Glass-ceramic dental restorations / Wolfram Holand and Volker M. Rheinberger -- ch. 32. Pain-desensitizing dental materials / David C. Greenspan -- ch. 33. Ethical considerations in biomaterials research and development / Mrinal K. Musiband and Subrata Saha -- ch. 34. The ending / Larry L. Hench |
| examples of materials technology: International Handbook of Technology Education , 2006-01-01 This first volume in the International Technology Education Series offers a unique, worldwide collection of national surveys into the developments of Technology Education in the past two decades. |
| examples of materials technology: EHP , 1993 |
| examples of materials technology: Department of the Air Force United States. Congress. Senate. Committee on Appropriations, 1969 |
| examples of materials technology: Biopersistence of Respirable Synthetic Fibers and Minerals , 1994 |
| examples of materials technology: Printing of Graphene and Related 2D Materials Leonard W. T. Ng, Guohua Hu, Richard C. T. Howe, Xiaoxi Zhu, Zongyin Yang, Christopher G. Jones, Tawfique Hasan, 2018-07-24 This book discusses the functional ink systems of graphene and related two-dimensional (2D) layered materials in the context of their formulation and potential for various applications, including in electronics, optoelectronics, energy, sensing, and composites using conventional graphics and 3D printing technologies. The authors explore the economic landscape of 2D materials and introduce readers to fundamental properties and production technologies. They also discuss major graphics printing technologies and conventional commercial printing processes that can be used for printing 2D material inks, as well as their specific strengths and weaknesses as manufacturing platforms. Special attention is also paid to scalable production methods for ink formulation, making this an ideal book for students and researchers in academia or industry, who work with functional graphene and other 2D material ink systems and their applications. Explains the state-of-the-art 2D material production technologies that can be manufactured at the industrial scale for functional ink formulation; Provides starting formulation examples of 2D material, functional inks for specific printing methods and their characterization techniques; Reviews existing demonstrations of applications related to printed 2D materials and provides possible future development directions while highlighting current knowledge gaps; Gives a snapshot and forecast of the commercial market for printed GRMs based on the current state of technologies and existing patents. |
| examples of materials technology: Materials for Automobile Bodies Geoffrey Davies, 2012-03-30 1 Introduction -- 2 Design and material utilization -- 3 Materials for consideration and use in automotive body structures -- 4 The role of demonstration, concept and competition cars -- 5 Component manufacture -- 6 Component assembly: materials joining technology -- 7 Corrosion and protection of the automotive structure -- 8 Environmental considerations -- 9 Future trends in automotive body materials. |
| examples of materials technology: Department of Defense Appropriations for Fiscal Year 1970, Hearings Before ..., 91-1 United States. Congress. Senate. Appropriations Committee, 1969 |
| examples of materials technology: Competitive Advantage Michael E. Porter, 2008-06-30 Now beyond its eleventh printing and translated into twelve languages, Michael Porter’s The Competitive Advantage of Nations has changed completely our conception of how prosperity is created and sustained in the modern global economy. Porter’s groundbreaking study of international competitiveness has shaped national policy in countries around the world. It has also transformed thinking and action in states, cities, companies, and even entire regions such as Central America. Based on research in ten leading trading nations, The Competitive Advantage of Nations offers the first theory of competitiveness based on the causes of the productivity with which companies compete. Porter shows how traditional comparative advantages such as natural resources and pools of labor have been superseded as sources of prosperity, and how broad macroeconomic accounts of competitiveness are insufficient. The book introduces Porter’s “diamond,” a whole new way to understand the competitive position of a nation (or other locations) in global competition that is now an integral part of international business thinking. Porter's concept of “clusters,” or groups of interconnected firms, suppliers, related industries, and institutions that arise in particular locations, has become a new way for companies and governments to think about economies, assess the competitive advantage of locations, and set public policy. Even before publication of the book, Porter’s theory had guided national reassessments in New Zealand and elsewhere. His ideas and personal involvement have shaped strategy in countries as diverse as the Netherlands, Portugal, Taiwan, Costa Rica, and India, and regions such as Massachusetts, California, and the Basque country. Hundreds of cluster initiatives have flourished throughout the world. In an era of intensifying global competition, this pathbreaking book on the new wealth of nations has become the standard by which all future work must be measured. |
| examples of materials technology: Evaluation of the National Aerospace Initiative National Research Council, Division on Engineering and Physical Sciences, Air Force Science and Technology Board, Committee on the National Aerospace Initiative, 2004-06-16 The National Aerospace Initiative (NAI) was conceived as a joint effort between the Department of Defense (DOD) and the National Aeronautics and Space Administration (NASA) to sustain the aerospace leadership of the United States through the acceleration of selected aerospace technologies: hypersonic flight, access to space, and space technologies. The Air Force became concerned about the NAI's possible consequences on Air Force programs and budget if NAI program decisions differed from Air Force priorities. To examine this issue, it asked the NRC for an independent review of the NAI. This report presents the results of that assessment. It focuses on three questions asked by the Air Force: is NAI technically feasible in the time frame laid out; is it financially feasible over that period; and is it operationally relevant. |
| examples of materials technology: Construction Materials Martin Preene, 2001-08-30 Thoroughly revised and updated, the third edition of this popular textbook continues to provide a comprehensive coverage of the main construction materials for undergraduate students of civil engineering and construction related courses. It creates an understanding of materials and how they perform through a knowledge of their chemical and physical |
| examples of materials technology: Commercialization of New Materials for a Global Economy National Research Council, Division on Engineering and Physical Sciences, National Materials Advisory Board, Commission on Engineering and Technical Systems, 1993-02-01 Materials are important in the pursuit of virtually every human endeavor. Advances in materials are applied not only in advanced technological systems such as spacecraft, jet engines, computers, and telecommunications but also in a world of more familiar applications from automobiles to floor coverings to fishing rods. This book addresses the factors that impede the transition of new materials from concepts into commercial use. It identifies policies and actions that government and industry, together with universities, can take to remove these impediments. Incentives to accelerate the commercialization of advanced materials are suggested, and recommendations are presented on ways to stimulate competitive commercialization of materials by government, industry, and academia. |
| examples of materials technology: Thin Film Materials Technology Kiyotaka Wasa, Makoto Kitabatake, Hideaki Adachi, 2004 |
| examples of materials technology: Energy Research Abstracts , 1991 |
| examples of materials technology: Waste Management: Concepts, Methodologies, Tools, and Applications Management Association, Information Resources, 2019-12-06 As the world’s population continues to grow and economic conditions continue to improve, more solid and liquid waste is being generated by society. Improper disposal methods can not only lead to harmful environmental impacts but can also negatively affect human health. To prevent further harm to the world’s ecosystems, there is a dire need for sustainable waste management practices that will safeguard the environment for future generations. Waste Management: Concepts, Methodologies, Tools, and Applications is a vital reference source that examines the management of different types of wastes and provides relevant theoretical frameworks about new waste management technologies for the control of air, water, and soil pollution. Highlighting a range of topics such as contaminant removal, landfill treatment, and recycling, this multi-volume book is ideally designed for environmental engineers, waste authorities, solid waste management companies, landfill operators, legislators, environmentalists, policymakers, government officials, academicians, researchers, and students. |
| examples of materials technology: Semiconductor Gas Sensors Raivo Jaaniso, Ooi Kiang Tan, 2019-09-24 Semiconductor Gas Sensors, Second Edition, summarizes recent research on basic principles, new materials and emerging technologies in this essential field. Chapters cover the foundation of the underlying principles and sensing mechanisms of gas sensors, include expanded content on gas sensing characteristics, such as response, sensitivity and cross-sensitivity, present an overview of the nanomaterials utilized for gas sensing, and review the latest applications for semiconductor gas sensors, including environmental monitoring, indoor monitoring, medical applications, CMOS integration and chemical warfare agents. This second edition has been completely updated, thus ensuring it reflects current literature and the latest materials systems and applications. - Includes an overview of key applications, with new chapters on indoor monitoring and medical applications - Reviews developments in gas sensors and sensing methods, including an expanded section on gas sensor theory - Discusses the use of nanomaterials in gas sensing, with new chapters on single-layer graphene sensors, graphene oxide sensors, printed sensors, and much more |
| examples of materials technology: The Science of Construction Materials Per Freiesleben Hansen, 2009-09-18 The Science of Construction Materials is a study and work book for civil engineering students. It includes a large number of thoroughly prepared calculation examples. The book is also suitable for self-study for the researcher and practicing civil engineer. |
| examples of materials technology: Circular Economy in the Construction Industry Sadhan Kumar Ghosh, Sannidhya Kumar Ghosh, Benu Gopal Mohapatra, Ronald L. Mersky, 2021-12-22 Circular Economy in the Construction Industry is an invaluable resource for researchers, policymakers, implementers and PhD and Masters-level students in universities analyzing the present status of Construction and Demolition Wastes (C&DW) management, materials development utilizing slag, fly ash, HDPE fibre, geo-wastes, and other wastes, green concrete, soil stabilization, resource circulation in construction sectors, success in experimentation & commercial production, future needs, and future research areas. While huge C&DW is wasted by dumping, there is potential of recycling preventing greenhouse gas (GHG) emissions and environmental pollution as well as creating business opportunities. Circularity of resources in the construction industry can contribute to a more secure, sustainable, and economically sound future through proper policy instruments, management systems, and recycling by selecting the following: Supply chain sustainability and collection of C&D Wastes, Appropriate separation and recycling technology, Enforcement of policy instruments, Productivity, quality control of recycled products and intended end use, Economic feasibility as business case, commercialization, generating employment. This book addresses most of the above issues in a lucid manner by experts in the field from different countries, which are helpful for the related stakeholders, edited by experts in the field. |
| examples of materials technology: Composite Materials Technology S.M. Sapuan, Iqbal Mohammed Mujtaba, 2009-12-23 Artificial neural networks (ANN) can provide new insight into the study of composite materials and can normally be combined with other artificial intelligence tools such as expert system, genetic algorithm, and fuzzy logic. Because research on this field is very new, there is only a limited amount of published literature on the subject.Compiling in |
| examples of materials technology: Scientific and Technical Aerospace Reports , 1991 |
| examples of materials technology: National Materials and Minerals Policy United States. Congress. Senate. Committee on Commerce, Science, and Transportation. Subcommittee on Science, Technology, and Space, 1982 |
| examples of materials technology: 1995 Federal Research and Development Program in Materials Science and Technology National Science and Technology Council (U.S.). Materials Technology Subcommittee, 1995 |
| examples of materials technology: Advances in Mechanical and Materials Technology Kannan Govindan, Harish Kumar, Sanjay Yadav, 2022-01-01 This book presents select papers from the International Conference on Energy, Material Sciences and Mechanical Engineering (EMSME) - 2020. The book covers the three core areas of energy, material sciences and mechanical engineering. The topics covered include non-conventional energy resources, energy harvesting, polymers, composites, 2D materials, systems engineering, materials engineering, micro-machining, renewable energy, industrial engineering and additive manufacturing. This book will be useful to researchers and professionals working in the areas of mechanical and industrial engineering, materials applications, and energy technology. |
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Apache ECharts,一款基于JavaScript的数据可视化图表库,提供直观,生动,可交互,可个性化定制的数据可视化图表。
Examples - Apache ECharts
Examples; Resources. Spread Sheet Tool; Theme Builder; Cheat Sheet; More Resources; Community. Events; Committers; Mailing List; How to Contribute; Dependencies; Code …
Examples - Apache ECharts
Examples; Resources. Spread Sheet Tool; Theme Builder; Cheat Sheet; More Resources; Community. Events; Committers; Mailing List; How to Contribute; Dependencies; Code …
Apache ECharts
ECharts: A Declarative Framework for Rapid Construction of Web-based Visualization. 如果您在科研项目、产品、学术论文、技术报告、新闻报告、教育、专利以及其他相关活动中使用了 …
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