1. 5-1 McGraw-Hill/Irwin Copyright © 2010 by The McGraw-Hill Companies, Inc. All rights reserved.

2. 5-2 Chapter 5 New Product Development

3. 5-3 Key Concepts The Design Process »The Investigation or Concept Formation Phase »The Development Phase »The Production Phase »Value Engineering Vis-à-vis Value Analysis Engineering Change Management How to Expand Supply Management's Contributions »Design or Project Teams »Materials Engineers »Co ‑ location Buyers Supply Management Professionals Who Interface Successfully with Engineers

4. 5-4 Overview Four Key Issues »Early supply management and supplier involvement »Design and development process of new products »Approaches to increasing supply management’s role in the new product development process »Description of supply management professionals who interface successfully with engineers

5. 5-5 The Design Process The Investigation or Concept Formation Phase The Development Phase The Production Phase Value Engineering Vis-à-vis Value Analysis

6. 5-6 Investigation Phase Defining the New Product Statement of Objectives Key Technology Development of Alternatives »Suitability »Produceaibility »Component availability »Customer acceptability Figure 5-1, Upper Half

7. 5-7 Investigation Phase Continued Development of Alternatives »Make ‑ or ‑ Buy and Outsourcing Analysis »Select Components, Technologies, and Supplies »Stress Testing and Failure Analysis Figure 5-1, Lower Half

8. 5-8 Questions to Ask Prior to Inviting a Supplier into the Design Process Will the supplier be able to meet our cost, quality, and product performance requirements? Does the supplier possess the required engineering capability? Will the supplier be able to meet our development and production needs? Does it have the necessary physical process and quality capabilities required? Does the supplier have both the resources and the reputation of being able to overcome problems and obstacles as they arise?

9. 5-9 Questions to Ask Prior to Inviting a Supplier into the Design Process Is the supplier financially viable? Are the supplier's short and long term business objectives compatible with ours? If a long term relationship appears desirable, are the technology plans of the two firms compatible? If a long term relationship appears desirable, is it likely that we can build a trusting relationship?

10. 5-10 The Development Phase Prototypes Design Reviews Qualification Testing »margin tests »life tests Failure Analysis Meet Objectives? Value Engineering Figure 5-2, Upper Half

11. 5-11 The Development Phase Design Analysis The Value Engineering Checklist Viability Figure 5-2, Lower Half

12. 5-12 Value Engineering Value engineering is a systematic study of every element of cost in a material, item of equipment, service or construction project to ensure that every element of cost fulfills a necessary function and at the lowest possible total cost Value engineering is focused on the design stage

13. 5-13 What is Value? Value can be defined as the lowest end cost at which the function can be accomplished at the time and place and with the quality required Some items/services/processes which cost less than a similar item/service/process may accomplish the function in a superior or equal manner Value cannot be determined exclusively by an examination of the item/service/process being evaluated The value of any service, material, or product is established by the minimum cost of the other alternatives that will perform the same function

14. 5-14 Generalized Procedure for VA/VE Information Phase Analysis Phase Decision Phase Speculation Phase Evaluation Phase What is it? What does it do? What does it cost? How else can the job be done? At what cost? Is the change better? How much better? Why? Review with depts and suppliers Select best alternative Get approval Prepare specifications Audit effectiveness Use experience Provide feedback Figure 5-3, Adapted

15. 5-15 Analysis of Each Component Can any part be eliminated without impairing the operation of the complete unit? Can the design of the part be simplified to reduce its basic cost? Can the design of the part be changed to permit the use of simplified or less costly production methods? Can less expensive but equally satisfactory materials be used in the part? Design simplifications frequently are more apparent than is possible under the original design

16. 5-16 The Value Engineering Checklist 1.Can the item be eliminated? 2.If the item is not standard, can a standard item be used? 3.If it is a standard item, does it completely fit the application, or is it a misfit? 4.Does the item have greater capacity than required? 5.Can the weight be reduced? 6.Is there a similar item in inventory that could be substituted? 7.Are closer tolerances specified than are necessary?

17. 5-17 The Value Engineering Checklist 8.Is unnecessary machining performed on the item? 9.Are unnecessarily fine finishes specified? 10.Is "commercial quality" specified? 11.Can you make the item less expensively in your plant? If you are making it now, can you buy it for less? 12.Is the item properly classified for shipping purposes to obtain lowest transportation rates? 13.Can cost of packaging be reduced? 14.Are suppliers contributing suggestions to reduce cost?

18. 5-18 The Production Phase Manufacturing and Production Plans Knowledge Transfer Process Control In ‑ Process and Final Testing »adjust or calibrate the performance » eliminate defects before much value is added to the product Figure5-4, Upper Half

19. 5-19 Production Phase Continued Figure 5-4, Lower Half

20. 5-20 Engineering Change Management Material control involvement: »provide input on the purchased materials implications of a proposed change, »discuss the timing of proposed changes in order to minimize costs associated with unusable incoming materials, »to be aware of forthcoming changes so that appropriate action can be taken with affected suppliers.

21. 5-21 How to Expand Supply Management’s Contributions Design or Project Teams Materials Engineers »materials engineering and »supply management activities of sourcing, pricing, and negotiating Co ‑ Location (Harley-Davidson) »Faster to market, »reduced total cost, »improved quality

22. 5-22 Supply Management Professionals Who Interface Successfully with Engineers Early Supply Management Involvement is part of the culture and policy of the firm »Formerly called Early Purchasing Involvement (EPI) »Often requires policy development from upper management to ensure initial involvement Engineers view Supply Management involvement as an asset, not a nuisance »Supply Managers must acquire skills and knowledge »Learn how to read engineering drawings »Learn technical terms »Meet with supplier’s sales personnel to review technical information about products »Visit suppliers

23. 5-23 Concluding Remarks The design stage provides the greatest opportunity to reduce costs the life cycle costs of products Supply management and the firm's suppliers have major contributions to make during this process Analysis of adding value is not limited to a firm’s services and products, supply managers themselves must add value to the design process in order to become a viable and lasting member of the design team