quality improvement tools -...
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Quality Improvement Tools
CHAPTER SIX
SUPPLEMENT
McGraw-Hill/Irwin Copyright © 2011 by the McGraw-Hill Companies, Inc. All rights reserved.
1. Apply quality management tools for problem solving
2. Identify the importance of data in quality management
6S–2
Learning Objectives
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Quality Improvement tools
6S–3
• Variable Data (continuous): quantifiable conditions along a scale, such as speed, length, density, etc.
• Attribute Data (discrete): qualitative characteristic or condition, such as pass/fail, good/bad, go/no go.
Quality Improvement tools
6S–4Table 6S-1
Quality Tools Typical UsageHistogram Uncover patterns in data variability
Cause and effect analysis Uncover contributors to problem; facilitate brainstorming
Check sheets Identify frequency and location of problems
Pareto analysis Identify most critical cause of problems
Scatter diagrams Determine relationship between variables
Process flow analysis Graph of process steps
Process capability analysis Compare process variability and specifications
Process control charts Monitor process output for 'normality' of variance
Taguchi method/DoE Track effects of different factors on outputs
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Histograms
Review center, width and shape
6S–5
Double peakTwo processes?
PlateauCombined data sets?
Bell-shapedNormal distribution
CombError in process or
data collection
SkewedSystem limitation? Figure 6S-1
Cause and Effect Diagram
1. Identify the problem to examine
2. Identify the major categories of causes
3. Identify more specific causes
4. Circle likely causes
5. Verify the causes
6S–6Figure 6-1
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Cause and Effect Diagram
6S–7Figure 6S-2
Check Sheet
• Tool for collecting, organizing and displaying data to uncover patterns
6S–8Figure 6-1Figure 6S-3
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Pareto Analysis
• Separates the critical few form the trivial many
1. Indentify categories about which to collect data
2. Gather data and calculate frequency of observations in each category for an appropriate time period
3. Sort into descending order by percentage
4. Graph and identify the few areas that account for most of the variation
6S–9
Pareto Analysis
6S–10Figure 6-1Figure 6S-4
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Scatter Diagram
• Graphical representation of the relationship between two variables
6S–11Figure 6-1Figure 6S-5
Process Flow Diagram
6S–12Figure 6-1Figure 3S-3
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Process Capability (Cp)
• Assess ability of a process to meet (or exceed) design specifications
6S–13Figure 6-1Figure 6S-5
PS
widthocessPrwidthonSpecificti
Cp ==
Where:S = Upper specification limit – Lower specification limitP = 6σ (99.7% of variation)σ = Standard deviation of process output
Process Capability (Cp)
6S–14Figure 6-1
Cp < 1 observed spread larger than desired spreadCp = 1 observed and desired spread exactly equalCp > 1 desired spread larger than observed spread
When +/- 3σ is used to calculate Cp
Cp = 1.00 is 3σ quality (3σ to either side)
Cp = 1.33 is 4σ quality
Cp = 1.67 is 5σ quality
Cp = 2.00 is 6σ quality
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Process Capability (Cp)
6S–15Figure 6-1Figure 6S-5
67056
20.
*Cp ==
Where:S = designed to be 1,030 mil +/- 10 mil, so = 20 milsUSL = 1,040 and LSL = 1,020P = 6σ (99.7% of variation)
67126
20.
*Cp ==
When σ = 5 mils, the process is NOT capable
Cp < 1
When σ = 2 mils, the process IS capable
Cp > 1
Process Capability (Cp)
6S–16Figure 6-1Figure 6S-6
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Improving on the Cp Statistic with Cpk
• Cpk: compares process output and specification widths, and examines process centering
6S–17
Where:USL & :LSL = Upper & Lower specification limitD = Center of product specification range = (USL+LSL)/2X = Mean of process output distributionK = Adjustment of centeredness of process and specifications
ppk
p
C*)K(C/S
XDK
)LSLUSL(PS
C
12
6
=
=
==σ
Improving on the Cp Statistic with Cpk
6S–18
Where:USL & :LSL = 1,040 and 1,020S = 20D = 1,030X = 1,020 (given)Cp = 1.67 (from previous example)
067111
122010201030
==
==
.*)(C/
K
pk
Process is NOT centered
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Process Capability (Cpk)
6S–19Figure 6-1Figure 6S-7
Process Control Charts
6S–20Figure 6-1Figure 6S-8
• Statistical tool to monitor process output to detect significant changes
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Process Control Charts
6S–21Table 6S-3
Process Control Charts
• Constructing and using x-bar and R charts
1. Collect data to calculate control limits
2. For each sample, calculate the sample mean
3. For each sample find the range (R)
4. Calculate the overall ‘grand’ mean (X)
5. Calculate the mean range (R)
6. Compare control limits and construct the charts
6S–22
n
xx
n
ii∑
= =1
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Equations for the x and R charts
x chart:
R chart:
Process Control Charts
6S–23
RAxitlimcontrlUpper
RAxitlimcontrolLower
xlineCentral
2
2
+=
=
=
RDitlimcontrlUpper
RDitlimcontrolLower
RlineCentral
4
3
=
=
=
Process Control Charts
6S–24Table 6S-6
• A process has 20 sample means, with a ‘grand’ mean of 12.14 and an average range of 0.69
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Process Control Charts
6S–25Figure 6S-9
Taguchi Methods
6S–26
• Statistical methods for improving the design of a product and the processes that improve it
• Goal is to identify easily controllable factors that can be used to reduce variation
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Managing Quality Summary
1. Effective quality management is data driven
2. There are multiple tools to identify and prioritize process problems
3. There are multiple tools to identify the relationships between variables
4. Process capability compares actual process output with design specifications
6S–27