Rekayasa Kualitas

1. RekayasaKualitas Materike – 2 DasarRekayasaKualitas ekop2003@yahoo.com

2. Contents • Basics of Quality by Design • Quality • Quality Loss Function • Quality and Process Capability • Process capability

3. Basics of Quality by Design • Introduction • A large amount engineering manufacture products in conducting in experiments • Quality by designis one of such engineering methodology • Customer’s perception of quality ( Sony television case in Japan and USA )

4. Basics of Quality by Design Colour density distribution of Sony America and Japan (April, 1979)

5. Basics of Quality by Design

6. Basics of Quality by Design • Taguchi’s definition of quality “ the quality of a products is the ( minimum ) loss imparted by the product to society from the time the products is shipped “ • What is loss – and who pays for it • Loss as additional manufacturing cost • Loss be paid by society

7. Basics of Quality by Design • Interpretation of loss • Quality loss function (QLF)is quantitative evaluation of quality loss due to functional variation m = target y = hasil pengukuran Δo = toleransi Ao = jumlah kerugian

8. Basics of Quality by Design

9. Basics of Quality by Design • Interpretation of loss • A quality characteristics is the object of interest of a product or process • Three types quality characteristics • Nominal the best ( NTB ) • Smaller the better ( STB ) • Larger the better ( LTB )

10. QLF - Nominal the best ( NTB )( One piece ) • A measurable characteristics with a specific user-defined target value. ( Sony TV : 115 ± 20 volts ) • QLF for NTB

11. QLF - Nominal the best ( NTB )

12. QLF - Nominal the best ( NTB )( Many pieces )

13. QLF – Smaller the better ( STB )( One piece )

14. QLF - Smaller the better ( STB )( One piece ) Example

15. QLF - Smaller the better ( STB )( One piece )

16. QLF - Smaller the better ( STB )( Many pieces )

17. QLF – Larger the better ( LTB )( One piece )

18. QLF – Larger the better ( LTB )( One piece ) Example

19. QLF – Larger the better ( LTB )( Many pieces )

20. QLF – Asymmetric

21. Quality and Process Capability Capability process

22. Quality and Process Capability Capability process

23. Quality and Process Capability • Spec limit : fixed engineering limit for the product dimmensions • Cp index • Cpkindex • Cpkis an important measure • Cpkas a measure of quality

24. Quality and Process Capability

25. Quality and Process Capability

26. Quality and Process Capability Cpkas a measure of quality • The convesional methods Loss-by-defect = numbers of defect x cost of product = proportion out of spec x total numbe x cost of product • The quality loss function methods Loss-by-dispersion = x numbers of product

27. Quality and Process Capability Cpkas a measure of quality Example ( Sample 100.000 unit )

28. Quality and Process Capability Cpkas a measure of quality

29. Quality and Process Capability Cpkas a measure of quality

30. Quality and Process Capability Cpkas a measure of quality

31. Case Study ( Tugas – 2 ) A spring is used in the operation of a camera shutter. The manufacturing process suffers from a degree of variability, in terms of the spring constant (measured in oz/in), which significantly effects the accuracy of the shutter times. The functional limits for this spring constant are m±0.3oz/in (m=0.5oz/in), and the average cost for repairing or replacing a camera with a defective spring is $20. What is the loss function? Hence, what is the loss associated with producing a spring of constant 0.25oz/in versus the loss associated with one at 0.435oz/in.

32. Next Week • The Design Process • Principle of robust design in the production process • Robust design process • Parameter design