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Designing new products and improving existing ones is a continual process. Industrial design engineering is an industrial engineering process applied to product designs that are to be manufactured through techniques of production operations. Excellent industrial design engineering programs are essential for the nation’s industry to succeed in selling useful and ecologically justifiable and usable products on a market flooded with goods and services. This unique text on industrial design engineering integrates basic knowledge, insight, and working methods from industrial engineering and product design subjects. Industrial Design Engineering: Inventive Problem Solving provides a combination of engineering thinking and design skills that give the researchers, practitioners, and students an excellent foundation for participation in product development projects and techniques for establishing and managing such projects. The design principles are presented around examples related to the designing of products, goods, and services. Case studies are developed around real problems and are based on the customer’s needs.
This book addresses Integrated Design Engineering (IDE), which represents a further development of Integrated Product Development (IPD) into an interdisciplinary model for both a human-centred and holistic product development. The book covers the systematic use of integrated, interdisciplinary, holistic and computer-aided strategies, methods and tools for the development of products and services, taking into account the entire product lifecycle. Being applicable to various kinds of products (manufactured, software, services, etc.), it helps readers to approach product development in a synthesised and integrated way. The book explains the basic principles of IDE and its practical application. IDE’s usefulness has been demonstrated in case studies on actual industrial projects carried out by all book authors. A neutral methodology is supplied that allows the reader to choose the appropriate working practices and performance assessment techniques to develop their product quickly and efficiently. Given its manifold topics, the book offers a valuable reference guide for students in engineering, industrial design, economics and computer science, product developers and managers in industry, as well as industrial engineers and technicians.
If you have designs for wonderful machines in mind, but aren’t sure how to turn your ideas into real, engineered products that can be manufactured, marketed, and used, this book is for you. Engineering professor and veteran maker Tom Ask helps you integrate mechanical engineering concepts into your creative design process by presenting them in a rigorous but largely nonmathematical format. Through mind stories and images, this book provides you with a firm grounding in material mechanics, thermodynamics, fluid dynamics, and heat transfer. Students, product and mechanical designers, and inventive makers will also explore nontechnical topics such as aesthetics, ethnography, and branding that influence product appeal and user preference. Learn the importance of designing functional products that also appeal to users in subtle ways Explore the role of aesthetics, ethnography, brand management, and material culture in product design Dive into traditional mechanical engineering disciplines related to the behavior of solids, liquids, and gases Understand the human factors of design, such as ergonomics, kinesiology, anthropometry, and biomimicry Get an overview of available mechanical systems and components for creating your product
home and his clothes with paints and dyes, building better structures, and using fire and tools effectively. The great Chinese, Greek and Roman civilisations all added to the new use of materials, and sculpture and architecture went hand in hand with intellectual and philosophical development. Plato, Euclid, Socrates, Galileo, Leonardo da Vinci, and many others brought society through to the modern age and the start of the Industrial Revolution. More recently another revolution in technology has brought robotics and miniaturisation of components, thus bringing industry more automation and less need for man-operated machinery. During this time engineers have continued to study nature as a model for construction and development. An example is Louis Sullivan with his tension and compression structures based on the Morning Glory flower. Now, the new technique of continuous glass fibre structures, developed by Dr Math (Mathweb) of British Petroleum, go a long way towards helping man to emulate the spider. Developments in rotational moulding, ceramics, glass, controlled crystallisation of metals and many other areas have all introduced new shape possibilities, so now the engineer is more often than not required to be the arbiter of shape and form, rather than being overtly constrained by necessity. It has, however, become possible to distinguish three distinct elements in the design of form which can act as guidelines for the designer, and it is worth studying these in detail.
For the first time in a single volume, quality control, reliability, and design engineers have a comprehensive overview of how each of their disciplines interact to achieve optimum product and/or project success. Thoroughly covering every stage of each phase, this outstanding reference provides detailed discussions of techniques and methods, ensuring cost-effective and time-saving procedures ... contains over 80 solved problems -- as well as numerous end-of-chapter exercises -- for reinforcement of essential material ... presents a complete, relevant mathematics chapter that eliminates the need to refer to other math texts ... offers self-contained chapters with introductions, summaries, and extensive references for quick, easy reading and additional study. Quality Control, Reliability, and Engineering Design is a key, on-the-job source for quality control, reliability, and design engineers and managers; system engineers and managers; and mechanical, electrical and electronic, industrial, and project engineers and managers. The book also serves as an ideal reference for professional seminars and in-house training programs, as well as for upper-level undergraduate and graduate courses in Quality Control, Reliability, Quality Control and Reliability, and Quality Control of Engineering Design. Book jacket.
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 encyclopaedic guide to production techniques and materials for product and industrial designers, engineers, and architects. Today's product designers are presented with a myriad of choices when creating their work and preparing it for manufacture. They have to be knowledgeable about a vast repertoire of processes, ranging from what used to be known as traditional "crafts" to the latest technology, to enable their designs to be manufactured effectively and efficiently. Information on the internet about such processes is often unreliable, and search engines do not usefully organize material for designers. This fundamental new resource explores innovative production techniques and materials that are having an impact on the design industry worldwide. Organized into four easily referenced parts—Forming, Cutting, Joining, and Finishing—over seventy manufacturing processes are explained in depth with full technical descriptions; analyses of the typical applications, design opportunities, and considerations each process offers; and information on cost, speed, and environmental impact. The accompanying step-by-step case studies look at a product or component being manufactured at a leading international supplier. A directory of more than fifty materials includes a detailed technical profile, images of typical applications and finishes, and an overview of each material's design characteristics. With some 1,200 color photographs and technical illustrations, specially commissioned for this book, this is the definitive reference for product designers, 3D designers, engineers, and architects who need a convenient, highly accessible, and practical reference.
To make designs that work and endure (and are also legal), designers need to know—or be able to find—an endless number of details. Whether it's what kind of glue needs to be used on a certain surface, metric equivalents, thread sizes, or how to apply for a patent, these details are essential and must be readily available so designers can create successful products efficiently. The Industrial Design Reference & Specification Book provides designers with a comprehensive handbook they can turn to over and over again. These pages are filled with information that is essential to successful product design, including information on measurement conversions, trademark and copyright standards, patents and product-related intellectual property rights/standards, setting up files for prototyping and production runs, and manufacturing and packaging options to optimize the design. It is an essential resource for any industrial or product designer.
The book provides the whole horizon of process engineering and plant design from concept phase through the execution to commissioning of the plant in the real practice. Providing a complete industrial perspective, the book: Covers the guidelines and standards followed in the industry and how engineering documents are generated using these standards Describes Hazardous Area Classification, Relief System Design, Revamp Engineering, Interaction with Other Disciplines, and Pre-commissioning and Commissioning Contains several illustrated practical examples, which clarify the fundamentals to a raw chemical engineer Includes description of a complete chemical project from concept to commissioning Treating the topic from the perspective of an industrial employee with extensive experience in process engineering and plant design, it aims to aid chemical and plant engineers to deal with decision making processes on strategic level, management tasks and leading functions beside the technical know-how.
This book gathers original papers reporting on innovative methods and tools in design, modelling, simulation and optimization, and their applications in engineering design, manufacturing and other relevant industrial sectors. Topics span from advances in geometric modelling, applications of virtual reality, innovative strategies for product development and additive manufacturing, human factors and user-centered design, engineering design education and applications of engineering design methods in medical rehabilitation and cultural heritage. Chapters are based on contributions to the Second International Conference on Design Tools and Methods in Industrial Engineering, ADM 2021, held on September 9–10, 2021, in Rome, Italy, and organized by the Italian Association of Design Methods and Tools for Industrial Engineering, and Dipartimento di Ingegneria Meccanica e Aerospaziale of Sapienza Università di Roma, Italy. All in all, this book provides academics and professionals with a timely overview and extensive information on trends and technologies in industrial design and manufacturing.