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At an early stage of the development, the design teams should ask questions such as, "How reliable will my product be?" "How reliable should my product be?" And, "How frequently does the product need to be repaired / maintained?" To answer these questions, the design team needs to develop an understanding of how and why their products fails; then, make only those changes to improve reliability while remaining within cost budget. The body of available literature may be separated into three distinct categories: "theory" of reliability and its associated calculations; reliability analysis of test or field data – provided the data is well behaved; and, finally, establishing and managing organizational reliability activities. The problem remains that when design engineers face the question of design for reliability, they are often at a loss. What is missing in the reliability literature is a set of practical steps without the need to turn to heavy statistics. Executing Design for Reliability Within the Product Life Cycle provides a basic approach to conducting reliability-related streamlined engineering activities, balancing analysis with a high-level view of reliability within product design and development. This approach empowers design engineers with a practical understanding of reliability and its role in the design process, and helps design team members assigned to reliability roles and responsibilities to understand how to deploy and utilize reliability tools. The authors draw on their experience to show how these tools and processes are integrated within the design and development cycle to assure reliability, and also to verify and demonstrate this reliability to colleagues and customers.
At an early stage of the development, the design teams should ask questions such as, "How reliable will my product be?" "How reliable should my product be?" And, "How frequently does the product need to be repaired / maintained?" To answer these questions, the design team needs to develop an understanding of how and why their products fails; then, make only those changes to improve reliability while remaining within cost budget. The body of available literature may be separated into three distinct categories: "theory" of reliability and its associated calculations; reliability analysis of test or field data – provided the data is well behaved; and, finally, establishing and managing organizational reliability activities. The problem remains that when design engineers face the question of design for reliability, they are often at a loss. What is missing in the reliability literature is a set of practical steps without the need to turn to heavy statistics. Executing Design for Reliability Within the Product Life Cycle provides a basic approach to conducting reliability-related streamlined engineering activities, balancing analysis with a high-level view of reliability within product design and development. This approach empowers design engineers with a practical understanding of reliability and its role in the design process, and helps design team members assigned to reliability roles and responsibilities to understand how to deploy and utilize reliability tools. The authors draw on their experience to show how these tools and processes are integrated within the design and development cycle to assure reliability, and also to verify and demonstrate this reliability to colleagues and customers.
The second edition of this work, now with the expanded title of Design of Electromechanical and Combination Products, covers the design and development of electromechanical products, updated throughout to focus not only on an Agile Systems approach but also its application to disposables and consumables. Providing a practical set of guidelines and thorough examination of best practices, this book focuses on cutting-edge research on sustainability of electromechanical and combination products. Key Features Presents the design, development, and life cycle management of electromechanical and combination products Provides a practical set of guidelines and best practices for world-class design Explains the role of costing and pricing in product design Covers Design for X and its role in product life-cycle management Examines the dynamics of cross-functional design and product development teams Develops DHF and DMR as tools and inherent components of configuration management Includes numerous real-world examples of electromechanical and combination product designs This book is intended for scientists, engineers, designers, and technical managers, and provides a gateway to developing a product’s design history file (DHF) and device master record (DMR). These tools enable the design team to communicate a product’s design, manufacturability, and service procedures with various cross-functional teams.
As the Lead Reliability Engineer for Ford Motor Company, Guangbin Yang is involved with all aspects of the design and production of complex automotive systems. Focusing on real-world problems and solutions, Life Cycle Reliability Engineering covers the gamut of the techniques used for reliability assurance throughout a product's life cycle. Yang pulls real-world examples from his work and other industries to explain the methods of robust design (designing reliability into a product or system ahead of time), statistical and real product testing, software testing, and ultimately verification and warranting of the final product's reliability
How Can Reliability Analysis Impact Your Company's Bottom Line?While reliability investigations can be expensive, they can also add value to a product that far exceeds its cost. Affordable Reliability Engineering: Life-Cycle Cost Analysis for Sustainability & Logistical Support shows readers how to achieve the best cost for design develo
A unique, design-based approach to reliability engineering Design for Reliability provides engineers and managers with a range of tools and techniques for incorporating reliability into the design process for complex systems. It clearly explains how to design for zero failure of critical system functions, leading to enormous savings in product life-cycle costs and a dramatic improvement in the ability to compete in global markets. Readers will find a wealth of design practices not covered in typical engineering books, allowing them to think outside the box when developing reliability requirements. They will learn to address high failure rates associated with systems that are not properly designed for reliability, avoiding expensive and time-consuming engineering changes, such as excessive testing, repairs, maintenance, inspection, and logistics. Special features of this book include: A unified approach that integrates ideas from computer science and reliability engineering Techniques applicable to reliability as well as safety, maintainability, system integration, and logistic engineering Chapters on design for extreme environments, developing reliable software, design for trustworthiness, and HALT influence on design Design for Reliability is a must-have guide for engineers and managers in R&D, product development, reliability engineering, product safety, and quality assurance, as well as anyone who needs to deliver high product performance at a lower cost while minimizing system failure.
As an overview of reliability performance and specification in new product development, Product Reliability is suitable for managers responsible for new product development. The methodology for making decisions relating to reliability performance and specification will be of use to engineers involved in product design and development. This book can be used as a text for graduate courses on design, manufacturing, new product development and operations management and in various engineering disciplines.
Life cycle design is understood as "to develop" (to plan, to calculate, to define, to draw) a holistic concept for the entire life cycle of a product". Life cycle design means a one time planning during the concept phase of a product in which the pathway of a product over the entire life cycle is determined. So e.g. the planning of possible services for a product during its utilization phase, the way of material recycling, how and which parts can be reused, how the logistics for recycling will be organised or how the product can be used afterwards. So it is a conceptual pre-design of all later activities over the life cycle. By this understanding the book delivers a really holistic approach because before a product is physically made a life-long concept and utilization scenarios with closed material and information cycles have to be developed. This promotes a real "thinking in product (life) cycles". The book addresses professionals as well as researchers and students in the field of product life cycle management. Different methods in the field of product design, operation and recycling will be presented and finally merge to an integrated method of product life cycle design. Readers will benefit from the holistic approach which enables them to design successful products by the implementation of closed loop product life cycles.