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Optimization & Variation Reduction in Quality


   ISBN 0-9635122-1-8 Soft cover  (Replaces ISBN 0-07-063255-3 Hard Cover)
   By: Dr. Wayne A. Taylor


Book Objective

Provides a unified approach to optimization and variation reduction...
from product concept to manufacturing.

Spotlighting two of today's most effective techniques - statistical process control and Taguchi methods - this landmark book integrates these and other lesser-known practices into a single system. Professionals engaged in product design, process development, and manufacturing activities will find this common framework has vast practical implications, not least of which is immensely improved communication between the various specializations in the product life cycle.

There are a host of other advantages offered by this comprehensive work, including:

  • An explanation of variation from the engineer's point of view, addressing variation early in the design process to prevent problems rather than fix them later.
  • An introduction to variation transmission analysis, a key method for driving optimization and variation reduction in the early phases of product design.
  • Emphasis on selecting the appropriate method, with detailed discussions of Multi-Vari charts, analysis of means, component swapping, variation transmission studies, and more.
  • Case studies that illustrate methods from a pragmatic, rather than theoretical, perspective.

By applying the practices and strategies set forth clearly in this book, engineers, scientist, and technical managers will look forward to dramatic improvements in product quality, product cost, and time to market.

Book Outline

Part I: Principles and Strategies

Chapter 1: The Nature of Optimization and Variation Reduction

1.1 Objective of Book
1.2 Five Categories of Problems
1.3 Three Sources of Variation
1.4 The Goal
1.5 The Importance of Reducing Variation
1.6 Benefits
1.7 Summary

Chapter 2: Three Case Studies

2.1 Hinge Case Study
2.2 Heat Sealer Case Study
2.3 Multi-Head Filler Case Study

Chapter 3: Understanding Variation

3.1 Cause of Variation
3.2 Key Input Variables
3.3 The VIP's
3.4 Identifying Key Inputs and VIP's
3.5 Reducing Variation
3.6 Robustness
3.7 Myths About Variation
3.8 Summary

Chapter 4: Strategies for Optimization and Variation Reduction

4.1 Strategies for Reducing Variation
4.2 Strategies for Optimizing the Average
4.3 Objectives During Product Design
4.4 Objectives During Process Development
4.5 Objectives During Manufacturing
4.6 The Complete System
4.7 Summary

Part II: Measurement

Chapter 5: Measuring Variation

5.1 What is Variation?
5.2 Measurement of Statistical Variation
5.3 Histograms
5.4 Variation And Deviations
5.5 Measures of Central Tendency
5.6 Measures of Statistical Variation
5.7 Normal Curve
5.8 Accuracy of Estimates
5.9 Summary
5.A1 Construction of Histograms
5.A2 Calculating Standard Deviations

Chapter 6: Measuring the Three Sources of Variation

6.1 Capability Studies
6.2 Measuring Usage Variation
6.3 Measuring Variation Due to Deterioration
6.4 Summary

Chapter 7: Evaluating Measurement Systems

7.1 Properties of Good Measures
7.2 Measurement Capability Studies
7.3 Measurement Reproducibility Study
7.4 Instrument Bias Study
7.5 Attribute Versus Variable Measures
7.6 Converting Attributes to Variables
7.7 Summary

Part III: Searching for Differences

Chapter 8: Strategies for Identifying Differences

8.1 The General Strategy
8.2 Time Differences
8.3 Product Stream Differences
8.4 Unit Differences
8.5 Within Unit Differences
8.6 Summary

Chapter 9: Control Charts

9.1 Common Cause and Special Cause Variation
9.2 Uses of Control Charts
9.3 Average-Standard Deviation Control Charts
9.4 Special Patterns
9.5 Other Control Charts
9.6 Using Control Charts for Process Improvement
9.7 Using Control Charts for Process Maintenance
9.8 Summary

Chapter 10: Variation Decomposition

10.1 Multi-Vari Charts
10.2 Analysis of Means (ANOM)
10.3 Variance Components Analysis (VarComp)
10.4 Summary

CHAPTER 11: Determining Causes of Differences

11.1 General Approach
11.2 Component Swapping Studies
11.3 Assembly/Setup Studies
11.4 Unit Comparisons
11.5 Conclusion to Part III
11.6 Summary

Part IV: Studying the Inputs' Effects

Chapter 12: Optimizing the Average

12.1 Studying the Inputs' Effects
12.2 Identifying Key Input Variables
12.3 Scatter Diagrams
12.4 Screening Experiments
12.5 Understanding the Input/Output Relationship
12.6 Response Surface Studies
12.7 Targeting the Key Input Variables
12.8 Summary

Chapter 13: Variation Transmission Analysis

13.1 Two Approaches to Identifying VIP's
13.2 Variation of a Polynomial
13.3 Approximating the Variation
13.4 Parameter Design
13.5 Tolerance Design
13.6 Summary

Chapter 14: The Direct Approach

14.1 Measuring Transmitted Variation Directly
14.2 The Noise Array Approach
14.3 Summary

Chapter 15: Conclusion

15.1 Conclusion to Book

Pricing and Ordering

Description Catalog # Price
Soft cover B-02 $99 plus postage

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Last modified: September 29, 2016