2. Mind MAP of QUALITY
QPE is the TARGET parameter
SIX SIGMA is the ASSESMENT method
SEVEN TOOLS is the QUALITY tools
Aditya Kurniawan
POLITEKNIK KOTA MALANG
4. Check Sheet / Tally sheet
Taken From QPE
Aditya Kurniawan
POLITEKNIK KOTA MALANG
5. Check sheet procedure
• Classification: A trait such as a defect or failure
mode must be classified into a category.
• Location: The physical location of a trait is
indicated on a picture of a part or item being
evaluated.
• Frequency: The presence or absence of a trait or
combination of traits is indicated. Also number of
occurrences of a trait on a part can be indicated.
• Measurement Scale: A measurement scale is
divided into intervals, and measurements are
indicated by checking an appropriate interval.
Aditya Kurniawan
POLITEKNIK KOTA MALANG
6. Check sheet- Classification
• Classification: A trait such as a defect or
failure mode must be classified into a category.
Classification of defects/failure must be
technically identified
example:
Dimension
Motor speed
Wheel clearance
Aditya Kurniawan
POLITEKNIK KOTA MALANG
8. Check sheet- Location
• Location: The physical location of a trait is
indicated on a picture of a part or item being
evaluated.
Location of defects/failure must be identified
example:
Schneider manuf.Cikarang
Dripper line 2
Molding room 14 Hyundai machine ltd
Aditya Kurniawan
POLITEKNIK KOTA MALANG
10. Check sheet- Frequency
• Frequency: The presence or absence of a trait or
combination of traits is indicated. Also number of
occurrences of a trait on a part can be indicated.
Frequency of defects/failure must be identified (by a
check or stripe)
example:
√√√√√√
Aditya Kurniawan
POLITEKNIK KOTA MALANG
12. Check sheet- Scale
• Measurement Scale: A measurement scale is divided into
intervals, and measurements are indicated by checking an
appropriate interval.
Measurements scale of defects/failure must be identified
example:
Dimension : mm – failure tolerance
OUT > 100mm
High 60-100mm
Medium 30-59mm
Low 3 – 29mm
Aditya Kurniawan
POLITEKNIK KOTA MALANG
14. Check sheet – even A simple one works
Aditya Kurniawan
POLITEKNIK KOTA MALANG
15. Stratification
A classification order of a problem
Example :
Classification by DATE
Classification by DEFECTS
Classification by SHIFT
Classification by LOCATION
Aditya Kurniawan
POLITEKNIK KOTA MALANG
18. Stratification
By location
DATES Month 1 Month 2 Month 3
Line 1 42 44 41
Line 2 36 33 34
Line 3 54 66 56
Line 4 22 23 23
Line 5 12 11 10
Line 6 44 42 43
Line 7 34 33 31 Aditya Kurniawan
POLITEKNIK KOTA MALANG
19. HISTOGRAM
A classification order of a problem GRAPH
Example :
Histogram by DATE
Histogram by DEFECTS
Histogram by SHIFT
Histogram by LOCATION
Aditya Kurniawan
POLITEKNIK KOTA MALANG
20. HISTOGRAM
A classification order of a problem GRAPH
Example :
Histogram by DATE
Histogram by DEFECTS
Histogram by SHIFT
Histogram by LOCATION
Aditya Kurniawan
POLITEKNIK KOTA MALANG
21. Make a Check sheet
• Make a check sheet design for the production of
your previous internship (prakerin) in excel
DATE Month Month Month
S 1 2 3
Line 1 42 44 41
Line 2 36 33 34
Line 3 54 66 56
Make stratification
Line 4 22 23 23
Line 5 12 11 10
Line 6 44 42 43
Line 7 34 33 31
• Make a stratification design for the production
of your previous internship (prakerin) in excel
Make histogram
• Make a histogram design for the production of
your previous internship (prakerin) in excel
Aditya Kurniawan
POLITEKNIK KOTA MALANG
22. PARETO chart
A classification order / prioritizing order
– Pareto charts are used to identify and prioritize
problems to be solved.
– They are actually histograms aided by the 80/20 rule
adapted by Joseph Juran.
•Remember the 80/20 rule states that approximately 80% of
the problems are created by approximately 20% of the causes.
Aditya Kurniawan
POLITEKNIK KOTA MALANG
23. PARETO chart
Aditya Kurniawan
POLITEKNIK KOTA MALANG
24. PARETO CHART
A sample taken with 10 types of defect
Aditya Kurniawan
POLITEKNIK KOTA MALANG
25. PARETO CHART
Monthly view table
Type of defects Month 1 Month 2 Month 3
Supply part rusted 22 29 21
Misaligned weld 2 4 3
Improper test 4 5 2
Wrong part 2
Void in casting 2 4
Film on part 4 4 4
Incorrect dimension 10 9 10
Adhesive failure 2 2
Aditya Kurniawan
POLITEKNIK KOTA MALANG
27. Ishikawa diagram / fishbone
A brainstorming of cause and effect
Created by defining some general casualties
Example :
MAN
ENVIRONMENT
MACHINE
METHOD
Aditya Kurniawan
POLITEKNIK KOTA MALANG
28. Ishikawa diagram / fishbone
A brainstorming of cause and effect
And by defining some SUB general casualties
Example :
MAN
-skills
-experience
-pride
Aditya Kurniawan
POLITEKNIK KOTA MALANG
29. Ishikawa diagram / fishbone
A brainstorming of cause and effect
And even by defining some MORE minor SUB general casualties
Example :
MAN
-skills
- training
- educational background
-experience
-pride
Aditya Kurniawan
POLITEKNIK KOTA MALANG
30. Ishikawa diagram / fishbone
A brainstorming of cause and effect
And one effect
Example :
Supply part rusted
Misaligned weld
Improper test
Wrong part
Void in casting
Film on part
Incorrect dimension
Adhesive failure
Aditya Kurniawan
POLITEKNIK KOTA MALANG
31. Ishikawa diagram / fishbone
A brainstorming of cause and effect
Aditya Kurniawan
POLITEKNIK KOTA MALANG
32. Scatter Diagram
A diagram showing relationship between independent X and dependent Y
variables
– Opt one casualty as independent variable X
(from the control variable casualties)
– Opt one effect as dependent variable Y
(from the dependent variable effect)
Aditya Kurniawan
POLITEKNIK KOTA MALANG
33. Ishikawa diagram / fishbone
EXAMPLE of picking x variable
Aditya Kurniawan
POLITEKNIK KOTA MALANG
34. Scatter Diagram
A diagram showing relationship between independent X and dependent Y
variables
– Opt one casualty as independent variable X
(from the Communication branch) =>
(lack of information) =>
(Add new information item)
Aditya Kurniawan
POLITEKNIK KOTA MALANG
35. Scatter Diagram
A diagram showing relationship between independent X and dependent Y
variables
– Opt one casualty as independent variable X
Adding quantities of information (confirmation) from 1 to 6
1. Telephone number
2. Mobile phone number
3. Email address
4. Secondary address
5. Office address
6. Mail box address
Aditya Kurniawan
POLITEKNIK KOTA MALANG
36. Ishikawa diagram / fishbone
EXAMPLE of picking x variable
Aditya Kurniawan
POLITEKNIK KOTA MALANG
37. Scatter Diagram
A diagram showing relationship between independent X and dependent Y
variables
– Opt one casualty as independent variable Y
(Incorrect delivery)
Aditya Kurniawan
POLITEKNIK KOTA MALANG
38. Scatter Diagram
A diagram showing relationship between independent X and dependent Y
variables
– Opt one casualty as independent variable Y
The quantity of incorrect delivery in 1 month / in 1000 order
Aditya Kurniawan
POLITEKNIK KOTA MALANG
39. Ishikawa diagram / fishbone
EXAMPLE of picking x variable
Aditya Kurniawan
POLITEKNIK KOTA MALANG
40. Scatter Diagram
Showing degree of correlation and dependency
Trivarian Pearson Analysis
Bivarian Pearson Analysis
Aditya Kurniawan
POLITEKNIK KOTA MALANG
41. Bivarian Scatter Diagram Analysis
Pearson product-moment correlation coefficient (PPMCC)
Axes variable Y Dependent
Axes variable X Independent / test variable
Aditya Kurniawan
POLITEKNIK KOTA MALANG
42. Trivarian Scatter Diagram Analysis
Pearson product-moment correlation coefficient (PPMCC)
Single control variable
Axes variable Z Dependent
Axes variable X Independent / test variable
Axes variable Y Dependent
Aditya Kurniawan
POLITEKNIK KOTA MALANG
43. Trivarian Scatter Diagram Analysis
Pearson product-moment correlation coefficient (PPMCC)
Double control variable
Axes variable Z Dependent
Axes variable X Independent / test variable
Axes variable Y Independent / test variable
Aditya Kurniawan
POLITEKNIK KOTA MALANG
44. Scatter Diagram
Correlation table PEARSON COEFFICIENT
Correlation Negative Positive
None −0.09 to 0.0 0.0 to 0.09
Small −0.3 to −0.1 0.1 to 0.3
Medium −0.5 to −0.3 0.3 to 0.5
Large −1.0 to −0.5 0.5 to 1.0
Aditya Kurniawan
POLITEKNIK KOTA MALANG