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Quality Control. Chapter 8- Control Charts for Attributes. PowerPoint presentation to accompany Besterfield Quality Control, 8e PowerPoints created by Rosida Coowar. Outline. Attribute Control Charts for Nonconforming Units Control Charts for Count of Nonconformities
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Quality Control Chapter 8- Control Charts for Attributes PowerPoint presentation to accompany Besterfield Quality Control, 8e PowerPoints created by Rosida Coowar
Outline Attribute Control Charts for Nonconforming Units Control Charts for Count of Nonconformities A Quality Rating System
Learning Objectives When you have completed this chapter you should: Know limitations of variable control charts and the different types of attribute charts. Know the objectives of the p chart group and the applicable distribution. Be able to construct a: Fraction defective chart- fixed subgroup size Fraction defective chart-variable subgroup size Percent defective chart Number defective chart
Learning Objectives cont’d. When you have completed this chapter you should: Know how to minimize the effect of variable subgroup size. Know the applications of the c chart group, the applicable distribution and two conditions. Be able to construct a c chart and a u chart and know the difference between them. Know the three classes of defect severity
Attribute • The term Attribute refers to those quality characteristics that conform to specifications or do not conform to specifications. • Attribute are used: • Where measurements are not possible. • Where measurements can be made but are not made because of time, cost, or need.
Attribute • A nonconformity is a departure of a quality characteristic from its intended level or state that occurs with a severity sufficient to cause an associated product or service not to meet a specification requirement. • Defect is concerned with satisfying intended normal, or reasonably foreseeable, usage requirement.
Attribute • Defect is appropriate for use when evaluation is in terms of usage. • Nonconformity is appropriate for conformance to specifications. • The term Nonconforming Unit is used to describe a unit of product or service containing at least one nonconformity.
Attribute • Defective is analogous to defect and is appropriate for use when unit of product or service is evaluated in terms of usage rather than conformance to specifications. • Limitations of variable control charts: These charts cannot be used for quality characteristics which are attributes.
Attribute Types of Attribute Charts: • Nonconforming Units (based on the Binomial distribution): p chart, np chart. • Nonconformities (based on the Poisson distribution): c chart, u chart.
The P Chart • The P Chart is used for data that consist of the proportion of the number of occurrences of an event to the total number of occurrences. • It is used in quality to report the fraction or percent nonconforming in a product, quality characteristic, or group of quality characteristics.
The P Chart Formula: • The fraction nonconforming, p, is usually small, say, 0.10 or less. • Because the fraction nonconforming is very small, the subgroup sizes must be quite large to produce a meaningful chart.
The P Chart • It can be used to control one quality characteristic, as is done with X bar and R chart, • Or to control a group of quality characteristics of the same type or of the same part, • Or to control the entire product. • It can be established to measure the quality produced by a work center, by a department, by a shift, or by an entire plant.
The P Chart • It is frequently used to report the performance of an operator, group of operators, or management as a means of evaluating their quality performance. • The subgroup size of the P chart can be either variable or constant.
The P Chart Objectives of the P Chart: • Determine the average quality level: This information provides the process capability in terms of attributes. • Bring to the attention of management any changes in the average. • Improve the product quality: Ideas for quality improvement.
The P Chart Objectives of the P Chart cont’d: • Evaluate the quality performance of operating and management personnel. • Suggest places to use X bar and R chart: They are more sensitive to variation. • Determine acceptance criteria of a product before shipment to the customer.
The P Chart P-Chart Construction for Constant Subgroup Size • Select the quality characteristic(s): • Single quality characteristic. • Group of quality characteristics. • A part. • An entire product. • A number of products. • It can be established for performance control of an operator, work center, department, shift, plant, or corporation
The P Chart P Chart Construction for Constant Subgroup Size cont’d. • Determine the subgroup size and method: • The size of the subgroup is a function of the proportion nonconforming. • A minimum size of 50 is suggested as a starting point.
The P Chart P Chart Construction for Constant Subgroup Size cont’d. • Collect the data: • At least 25 subgroups. • Different sources (Check sheet). • For each subgroup the proportion nonconforming is calculated by the formula P = np/n
The P Chart P Chart Construction for Constant Subgroup Size • Calculate the trial central line and the control limits:
The P Chart P Chart Construction for Constant Subgroup Size cont’d. • Establish the revised central line and control limits.
The P Chart • The P Chart is most effective if it is posted where operating and quality personnel can view it. • The control limits are usually three standard deviations from the central value. Therefore, approximately 99% of the plotted points, P, will fall between the upper and lower control limits.
The P Chart • A P Chart will also indicate long-range trends in quality, which will help to evaluate changes in personnel, methods, equipment, tooling, materials, and inspection techniques. • P-chart is based on the binomial distribution.
The P Chart P Chart Construction for Variable Subgroup Size • Collect the data. • Determine the trial central line and control limits: Since the subgroup size changes each day, limits must be calculated for each day.
The P Chart P Chart Construction for Variable Subgroup Size cont’d. • As the subgroup size gets larger, the control limits are closer together. • Establish revised central line and control limits:
The P Chart P Chart Construction for Variable Subgroup Size cont’d. • If Po is known, the process of data collection and trial control limits is not necessary. • P is the proportion (fraction) nonconforming in a single subgroup. • ¯P is the average proportion (fraction) nonconforming of many subgroup.
The P Chart P Chart Construction for Variable Subgroup Size cont’d. • Po is the standard or reference value of the proportion (fraction) nonconforming based on the best estimate of PBar. • Φis the population proportion (fraction) nonconforming.
The P Chart Minimizing the Effect of Variable Subgroup Size • Control limits for an average subgroup size: By using an average subgroup size, one limit can be calculated and placed on the control chart.
The P Chart Minimizing the Effect of Variable Subgroup Size cont’d. Case I: This case occurs when a point (subgroup fraction nonconforming) falls inside the limits and its subgroup size is smaller than the average subgroup size. Case II: This case occurs when a point (subgroup fraction nonconforming) falls inside the average limits and its subgroup size is larger than the average subgroup size.
The P Chart Minimizing the Effect of Variable Subgroup Size cont’d. Case III: This case occurs when a point (subgroup fraction nonconforming) falls outside the limits and its subgroup size is larger than the average subgroup size. Case IV: This case occurs when a point (subgroup fraction nonconforming) falls outside limits and its subgroup size is less than the average subgroup size.
The np Chart Number Nonconforming Chart (np): • The np chart is easier for operating personnel to understand than the p chart. • The limitation that this chart has is that the subgroup size needs to be constant.
The np Chart Number Nonconforming Chart (np): • If the fraction nonconforming po is unknown, then it must be determine by collecting data, calculating trial control limits, and obtaining the best estimate of po.
Process Capability • For an attribute this process is much simpler. • The process capability is the central line of the control chart. • Management is responsible for the capability. • When the plotted point is outside the control limit, operating personnel are usually responsible.
Control Charts for Count of Non-conformities • The nonconformities chart controls the count of nonconformities within the product or service. • An item is classified as a nonconforming unit whether it has one or many nonconformities. • Count of nonconformities (c) chart. • Count of nonconformities per unit (u) chart.
Control Charts for Count of Non-conformities • Since these charts are based on the Poisson distribution, two conditions must be met: • The average count of nonconformities must be much less than the total possible count of nonconformities. • The occurrences are independent.
Control Charts for Count of Non-conformities Objectives: • Determine the average quality level: This information gives the initial process capability. • Bring to the attention of management any changes in the average. • Improve the product quality: Ideas for quality improvement.
Control Charts for Count of Non-conformities Objectives cont’d.: • Evaluate the quality performance of operating and management personnel. • Suggest places to use X bar and R chart. • Determine acceptance criteria of a product before shipment to the customer.
Control Charts for Count of Non-conformities C Chart construction: • Select the quality characteristic(s): • Single quality characteristic. • Group of quality characteristics. • A part. • An entire product. • A number of products. • It can be established for performance control of an: operator, work center, department, shift, plant, or corporation
Control Charts for Count of Non-conformities C Chart construction cont’d: • Determine the subgroup size and method: • Collect the data: • At least 25 subgroups. • Different sources.
Control Charts for Count of Non-conformities c-Chart Construction cont’d: • Calculate the trial central line and the control limits:
Control Charts for Count of Non-conformities C chart construction cont’d: • Establish the revised central line and control limits
Control Charts for Count of Non-conformities C chart construction cont’d: • Achieve the objectives: The reason for the control chart is to achieve one or more of the previously stated objectives.
Control Charts for Count of Non-conformities/Unit Chart for Count of Nonconformities/Unit (u Chart)
Control Charts for Count of Non-conformities Chart for Count of Nonconformities/Unit (u Chart) • Scale selected is continuous for the u chart. For the c chart is discrete. • Subgroup size for the u chart can vary. For the c chart is 1. • The u chart is limited in that we do not know the location of the nonconformities.
A Quality Rating System Nonconformity Classification: • Critical nonconformities: Unsafe conditions for individuals using, maintaining, or depending upon the product. • Major nonconformities: Result in failure or reduce materially the usability of the product for its intended purpose. • Minor nonconformities: Reduce materially the usability of the product for its intended purpose.
Control Chart Selection Quality Characteristic Variable Attribute Defective Defect no n>1? x and MR constant sampling unit? yes constant sample size? yes p or np no x and R n>=10? yes no no yes p-chart with variable sample size c u x and s