Overview

For a long time, quality has been one of industry's main preoccupations. It remains so today. There is some foundation for the statement that there is a 'quality crisis' in Europe, the methods traditionally used in our industries being unable to meet today's demands. Consequently it is essential to look for new directions in which to progress, taking account of the methods for achieving quality that have been developed in recent years. These methods impact on all parts of the industrial enterprise - marketing, manufacturing, research and development, after-sales services. All staff, administrative or technical, are involved. The present book describes the tools that can help anyone who is concerned with the concept of 'total quality'; it will also be a valuable educational aid for students reading for degrees or other qualifications in engineering. P. Lyonnet I General questions and concepts 1 INTRODUCTION: HOW CAN WE ACHIEVE TOTAL QUALITY? This book is concerned with the various techniques and methods of analysis that can be used to ensure total quality in a project. In this first chapter we show the costs that result from not achieving quality, so as to make clear how important a quality-assurance service is to any enterprise. We stress also the involvement of marketing, particularly in laying down specifications for reliability.

Full Product Details

Author:   Lyonnet
Publisher:   Springer
Imprint:   Springer
Edition:   Softcover reprint of the original 1st ed. 1991
Dimensions:   Width: 15.50cm , Height: 1.00cm , Length: 23.50cm
Weight:   0.308kg
ISBN:  

9789401053853

ISBN 10:   9401053855
Pages:   184
Publication Date:   18 September 2012
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

1 General questions and concepts.- 1.1 Introduction.- 1.2 Why quality?.- 1.3 What is total quality?.- 2 Reliability in the choice of technology.- 2.1 Quantitative analysis.- 2.2 Qualitative analysis.- 3 Controlling the manufacturing process.- 3.1 Variability in manufactured products.- 3.2 Monitoring the manufacture.- 3.3 Interval between control actions.- 4 Quality control of goods received.- 4.1 Control by attributes.- 4.2 Sequential testing.- 4.3 Control by measured properties.- 4.4 Sampling procedures.- 5 Cause-and-effect analysis.- 5.1 The Ishikawa cause—effect diagram.- 5.2 Pareto or ABC analysis.- 5.3 Rank correlation: Spearman’s coefficient.- 5.4 Analysis of variance.- 5.5 Experimental designs of type 2n.- 6 Basic mathematics.- 6.1 Probability: theory, definitions.- 6.2 Probability laws.- 6.3 Confidence interval for the mean.- 6.4 Linear regression.- Exercises.- Solutions.- Appendices (Tables).- 1. Gaussian (normal) distribution.- 4. The F (Fisher-Snedecor) distribution.- 5. MTBF for a system following the Weibull law.- 6. Median ranks (Johnson’s table).- 7. Laplace transforms.- 8. Random numbers.- 9. Gamma law.

Reviews

... could become standard reading for most practising engineers in a design production environment and all students of quality. Ray Mellet, Quality News

... could become standard reading for most practising engineers in a design production environment and all students of quality. Ray Mellet, Quality News

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