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Industrial Materials provides basic coverage of the five major types of industrial materialsmetals and their alloys, plastics, ceramics, wood and engineered wood products, and composites. The text first presents a general overview of material composition, molecular structure, and mechanicaland physical properties of materials. The five major types of industrial materials are then covered in a clear, easy-to-read format. The text concludes with an introduction to material standards. Destructive and nondestructive testing of materials are also presented in an overview format. This textis suitable for an advanced high school and introductory community college/university level materials technology curriculum.
Industrial Design: Materials and Manufacturing Guide, Second Edition provides the detailed coverage of materials and manufacturing processes that industrial designers need without the in-depth and overly technical discussions commonly directed toward engineers. Author Jim Lesko gives you the practical knowledge you need to develop a real-world understanding of materials and processes and make informed choices for industrial design projects. In this book, you will find everything from basic terminology to valuable insights on why certain shapes work best for particular applications. You'll learn how to extract the best performance from all of the most commonly used methods and materials.
An excellent overview of industrial carbon and graphite materials, especially their manufacture, use and applications in industry. Following a short introduction, the main part of this reference deals with industrial forms, their raw materials, properties and manifold applications. Featuring chapters on carbon and graphite materials in energy application, and as catalysts. It covers all important classes of carbon and graphite, from polygranular materials to fullerenes, and from activated carbon to carbon blacks and nanoforms of carbon. Indispensable for chemists and engineers working in such fields as steel, aluminum, electrochemistry, nanotechnology, catalyst, carbon fibres and lightweight composites.
This book is about applied materials research in industry. It presents various important topics and challenges and gives guidance to materials researchers who move to industry. The book focuses on the materials manufacturing issues for industrial application. It deals with developments and challenges in traditional materials areas, such as metals and ceramics, and new opportunities that have risen from nanotechnology and additive manufacturing. The chapters, written by senior people from large companies, include successful manufacturing undertakings, several distinct and unresolved manufacturing challenges, with the focus on approaches, timelines and the skills needed for future company research and development. The book provides a cross-section of current and future approaches valuable for new employees and academics working in industry.
Since its inception in the early 1950s, this work has become the "bible" for those who need to evaluate the hazard of substances used in commerce. It is the only reference that combines, for so many substances, data on toxicological, fire, reactivity, explosive potential, and regulatory information. Highly acclaimed in the professional journals, it was reviewed as "an indispensable reference guide for professionals responsible for managing industrial safety and occupational exposure...an extraordinary work," and as "a monumental work...Efforts like this are the things of what history is made," among other reviews.
The products we purchase and use are assembled from a wide range of naturally occurring and manufactured materials. But too often we create hazards for the ecosystem and human health as we mine, process, distribute, use, and dispose of these materials. Until recently, most research has focused on the waste end of material cycles. This book argues that the safest and least costly point at which to avoid environmental damage is when materials are first designed and selected for use in industrial production. Materials Matter presents convincing evidence that we can use fewer materials and eliminate the use of many toxic chemicals by focusing directly on material (chemical) use when products are designed. It also shows how manufacturers can save money by increasing the effectiveness of material use and reducing the use of toxic chemicals. It advocates new directions for the material sciences and government policies on materials. And it argues that manufacturers, suppliers, and customers need to set more socially responsible policies for products and services to achieve higher environmental and health goals.
Industry relies on heating for a wide variety of processes involving a broad range of materials. Each process and material requires heating methods suitable to its properties and the desired outcome. Despite this, the literature lacks a general reference on design techniques for heating, especially for small- and medium-sized applications. Industri
Studies that integrate scientific, technological, and economic dimensions of industrial ecology and material flows. The use of economic modeling techniques in industrial ecology research provides distinct advantages over the customary approach, which focuses on the physical description of material flows. The thirteen chapters of Economics of Industrial Ecology integrate the natural science and technological dimensions of industrial ecology with a rigorous economic approach and by doing so contribute to the advancement of this emerging field. Using a variety of modeling techniques (including econometric, partial and general equilibrium, and input-output models) and applying them to a wide range of materials, economic sectors, and countries, these studies analyze the driving forces behind material flows and structural changes in order to offer guidance for economically and socially feasible policy solutions. After a survey of concepts and relevant research that provides a useful background for the chapters that follow, the book presents historical analyses of structural change from statistical and decomposition approaches; a range of models that predict structural change on the national and regional scale under different policy scenarios; two models that can be used to analyze waste management and recycling operations; and, adopting the perspective of local scale, an analysis of the dynamics of eco-industrial parks in Denmark and the Netherlands. The book concludes with a discussion of the policy implications of an economic approach to industrial ecology.
A comprehensive handbook of all the crucial information product designers need to know on a daily basis, with information on trademarking, measurements, patents, intellectual property, manufacturing options, packaging, and much more.