Principles and Practices of CAD/CAM


Book Description

CAD/CAM systems are perhaps the most crucial advancement in the field of new technology relating to engineering, design and drawing in all technical domains. CAD/CAM stands for computer-aided design and computer-aided manufacturing. These systems are useful in all facets of contemporary design and architecture. The fundamentals of CAD/CAM systems are covered in detail throughout this book. This book aims to introduce the fundamental aspects, complete with an adequate numberof illustrations and examples, without delving too deeply into the specifics of the subject matter. This book is valuable in the classroom for both teachers and students. Features Each chapter begins with the Learning Outcomes (LOs) section, which highlights the critical points of that chapter. All LOs, solved examples, and questions are mapped to six Bloom Taxonomy levels (BT levels). Offers fundamental concepts of CAD/CAM without becoming too complicated. Solved examples are presented in each section after the theoretical discussion to clarify the concept of that section. Chapter-end summaries reinforce key ideas and help readers recall the concepts discussed. Students and professionals need to have a working knowledge of CAD/CAM since it has many applications and continues to expand. Students at the undergraduate and graduate levels of engineering courses use this book as their primary textbook. It will also be helpful for managers, consultants, and professionals.




Cad/cam and Automation


Book Description




CAD/CAM


Book Description

Primarily intended as a textbook for the undergraduate students of aeronautical, automobile, civil, industrial, mechanical, mechatronics and production, it provides a comprehensive coverage of all the technical aspects related to CAD/CAM. Organized in 26 chapters, the textbook covers interactive computer graphics, CAD, finite element analysis, numerical control, computer numerical control, manual part programming, computer-aided part programming, direct numerical control, adaptive control systems, group technology, computer-aided process planning, computer-aided planning of resources for manufacturing, computer-aided quality control, industrial robots, flexible manufacturing systems, cellular manufacturing, lean manufacturing and computer integrated manufacturing. Each chapter begins with objectives and ends with descriptive and multiple-choice questions. Besides students, this book would be of immense value to practicing engineers and professionals who are interested in the CAD/CAM technology and its applications to design and manufacturing. KEY FEATURES : Many innovative illustrations Case studies Question bank at the end of each chapter Good number of worked out examples Extensive and carefully selected references




Lecture Notes on CAD-CAM


Book Description

Computer-aided manufacturing also known as Computer-aided Modeling or Computer-aided Machining is the use of software to control machine tools and related ones in the manufacturing of work pieces.Computer-aided design is the use of computers to aid in the creation, modification, analysis, or optimization of a design. CAD software is used to increase the productivity of the designer, improve the quality of design, improve communications through documentation, and to create a database for manufacturing.




CAD/CAM


Book Description

In this book, the authors examine interactive computer graphics and its use in design industrial robots, computer control of manufacturing processes, computer-integrated production control, automated inspections, and flexible manufacturing systems. They also discuss the implementation of turnkey CAD/CAM systems.




How to Integrate CAD/CAM Systems


Book Description




Social Science Research on CAD/CAM


Book Description

Computer Aided Design (CAD) and Computer Aided Manufacture (CAM) are but two of the more recent examples of computer applications in domains previously dominated by human labour. The use of computers in such areas has increasingly attracted social science research. There are several reasons one could suggest for this, not least of them being the simple fact that public money is being provided for such research. Of course, some of the interest may be due to the wish to prove that technology is being used to inhuman ends, but undoubtedly there is also some degree of fascination involved. Can you really do all the things with computers that people claim you can? There is certainly satisfaction to be had from smugly pointing out its shortcomings, but many of the few sociologists in our own organisation are also among the most avid users of modern technology. Needless to say, they also belong to the most critical users of the technology! A new strain of motivation for social science research which appears to be gaining significance, is the desire to "re-direct" technology, or at least - and probably more realistically - to playa part in shaping future technology . The entire range of motives may be recognised in the collection of papers contained in this volume.




Fundamentals of Modern Manufacturing


Book Description

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.




What Every Engineer Should Know about Practical Cad/cam Applications


Book Description

This authoritative book -- discussing CAD/CAM in detail from the user's rather than the vendor's point of view -- provides the valuable information engineers and managers need for optimal CAD/CAM implementation and use. It introduces CAD/CAM hardware and software, and demonstrates how to select a CAD/CAM solution for your company's specific requirements ... explains how to implement a CAD/CAM system, with special attention to training and education, and with useful checklists ... describes ongoing systems ... presents an informative overview of CAD/CAM's industrial use ... and details case studies of CAD/CAM applications, representing a broad range of companies throughout the world, in various industrial sectors, at different stages of CAD/CAM use. Complete with a glossary that clearly defines all CAD/CAM terminology, this essential reference source is mandatory reading for mechanical, manufacturing, automotive and aerospace engineers and managers; CAD/CAM system vendors; computer manufacturers; graduate-level courses in mechanical and manufacturing engineering, CAD/CAM, and computer science; and professional seminars in mechanical, manufacturing, and automotive engineering. Book jacket.




CAD/CAM in Practice


Book Description

Little more than a decade ago computer-aided design and manufacture (CAD/CAM) was a very esoteric field indeed, not one that was of much practical concern to a manager or industrialist unless his business was on the scale of, say, a major automobile manufacturer or in a field of high technology such as aerospace. Like so much else, this situation was revo lutionized by the invention of the silicon chip, the arrival of the micro processor and the dramatic fall in the cost of computer hardware. Today, CAD/CAM has spread down the market, and down the price scale, to the point at which it is both a feasible and an affordable technology for a wide range of small-and medium-sized companies in areas as various as architec ture and general engineering, plastic moulding and consumer electronics. But the explosion - there is no other word for it - in the variety and capabilities of CAD/CAM systems, and their spectacular climb to the top of the hi-tech hit parade, has placed the potential purchaser and user of the new technology in a difficult position. On the one hand he is assured, not least by the manufacturers of CAD/CAM equipment, that a failure to invest in it will leave his company stranded in the industrial Stone Age.