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Test Engineering. A Concise Guide to Cost-effective Design, Development and Manufacture. Quality and Reliability Engineering Series
John Wiley and Sons Ltd, April 2001, Pages: 288
Testing is usually the most expensive, time-consuming and difficult activity during the development of engineering products and systems. Development testing must be performed to ensure that designs meet requirements for performance, safety, durability, reliability, statutory aspects, etc. Most manufactured items must be tested to ensure that they are correctly made. However, much of the testing that is performed in industry is based upon traditions, standards and procedures that do not provide the optimum balance of assurance versus cost and time. There is often pressure to reduce testing because of the high costs involved, without appreciation of the effects on performance, reliability. etc. Misperceptions are commonplace, particularly the idea that tests should not stress products in excess of their operating levels.
The main reason for this situation seems to be that engineers have not developed a consistent philosophy and methodology for testing. Testing is seldom taught as part of engineering curricula, and there are no books on the subject. Specialist areas are taught, for example fatigue testing to mechanical engineers and digital device testing to electronics engineers. However, a wide range is untaught, particularly multidisciplinary and systems aspects. Testing is not just an engineering issue. Because of the importance and magnitude of the economic and business aspects testing is an issue for management. Testing is perceived as a high cost activity, when it should be considered as a value-adding process.
The objective of this book is, therefore, to propose a philosophy of engineering test and to describe the necessary technologies and methods that will provide a foundation for all plans, methods and decisions related to testing of engineered products and systems. The book will help those who must manage and conduct this most difficult and uncertain task. It will also provide a text which can be used as the basis for teaching the principles of testing to all engineering students.
Stress, Strength and Failure of Materials.
Electrical and Electronics Stress, Strength and Failure.
Variation and Reliability.
Development Testing Principles.
Materials and Systems Testing.
Testing in Service.
Data Collection and Analysis.
Laws, Regulations and Standards.
Appendix 1: Acronyms.
Appendix 2: Testing Regulations and Standards.
Appendix 3: Development Test Plan Example.
Appendix 4: Production Test Plan Example.
"All undergraduates should read it and all test and engineering managers should have a copy." (Journal of the Safety & Reliability Society, Autumn 2000). . "Intended as an undergraduate engineering textbook, it covers mechanical, electronics, and software testing, and identifies which testing methods are appropriate to each stage of the product life cycle." (SciTech Book News, Vol. 25, No. 3, September 2001)