quality and quality management

36
Quality and Quality Quality and Quality Management Management Report in Production Management Maria Ella T. Betos Katherine J. Erfe

Upload: earl

Post on 19-Jan-2016

166 views

Category:

Documents


2 download

DESCRIPTION

Quality and Quality Management. Report in Production Management. Maria Ella T. Betos Katherine J. Erfe. Discussion Proper:. Quality, Quality Management and Quality Tools Total Quality Management and Quality Management System (TQM and QMS) Focus of Quality Management – Customers - PowerPoint PPT Presentation

TRANSCRIPT

Quality and Quality ManagementQuality and Quality ManagementQuality and Quality ManagementQuality and Quality Management

Report in Production Management

Maria Ella T. BetosKatherine J. Erfe

Discussion Proper:Discussion Proper:Discussion Proper:Discussion Proper:

Quality, Quality Management and Quality Tools Total Quality Management and Quality Management

System (TQM and QMS) Focus of Quality Management – Customers Role of Employees in Quality Improvement Quality in Services Six Sigma The Cost of Quality The Effect of Quality Management on Productivity Quality Awards and ISO 9000

Quality, Quality Management and Quality, Quality Management and Quality ToolsQuality ToolsQuality, Quality Management and Quality, Quality Management and Quality ToolsQuality Tools

Quality has a pragmatic interpretation and a perceptual or subjective definition

The American Society for Quality defines it as (a) The characteristics of a product or service that bear on its ability to satisfy stated or implied needs; and (b) A product or service free of deficiencies

Consumers may focus on the specification quality of a product/service, or how it compares to competitors in the marketplace. Producers might measure the conformance quality, or degree to which the product/service was produced correctly.

Quality, Quality Management and Quality, Quality Management and Quality ToolsQuality ToolsQuality, Quality Management and Quality, Quality Management and Quality ToolsQuality Tools

Dimensions of Quality for Products Performance Features Reliability Conformance Durability Serviceability Aesthetics Safety Other perceptions

Dimensions of Quality for Services Time and Timeliness Completeness Courtesy Consistency Accessibility and

convenience Accuracy Responsiveness

Quality, Quality Management and Quality, Quality Management and Quality ToolsQuality ToolsQuality, Quality Management and Quality, Quality Management and Quality ToolsQuality Tools

THE MEANING OF QUALITY

Producer’s Perspectiv

e

Consumer’s

Perspective

Fitness for Consumer’s

use

Quality of ConformanceConformance

to SpecificationsCost

Quality of Design

Quality CharacteristicPrice

PRODUCTION

MARKETING

THE MEANING OF QUALITY

Quality, Quality Management and Quality, Quality Management and Quality ToolsQuality ToolsQuality, Quality Management and Quality, Quality Management and Quality ToolsQuality ToolsQUALITY MANAGEMENT SYSTEM: Evolution

Quality Guru Contribution

Walter ShewhartFather of Statistical Quality Control; Introduced the term Quality Assurance

W. Edwards Deming

Statistical quality control techniques and Deming Wheel (Plan-Do-Check-Act)

Joseph M. Juran Quality by Design and Annual Quality Program

Armand Feigenbaum

Total Quality Control and Continuous Quality Improvement

Philip Crosby14 Step Quality Improvement Process and Principles of Zero Defects

Kaoru IshikawaQuality Circles and Fish-bone (Cause and Effect) Diagram

W. E Deming’s 14 PointsW. E Deming’s 14 Points

1. Create a constancy of purpose toward product improvement to achieve long term organizational goals.

2. Adopt a philosophy of preventing poor quality products instead of acceptable levels of poor quality as necessary to compete internationally.

3. Eliminate the need for inspection to achieve by relying instead on statistical quality control to improve product and process design.

4. Select a few suppliers or vendors based on quality commitment rather than competitive prices.

5. Constantly improve the production process by focusing on the two primary sources of quality problems, the system and employees, thus increasing productivity and reducing costs.

W. E Deming’s 14 PointsW. E Deming’s 14 Points

6. Institute worker training that focuses on the prevention of quality problems and the use of statistical quality-control techniques.

7. Instill leadership among supervisors too help employees perform better.

8. Encourage employee involvement by eliminating the fear of reprisal for asking questions or identifying quality problems.

9. Eliminate barriers between departments, and promote cooperation and a team approach for working together.

10.Eliminate slogans and numerical targets that urge employees to achieve higher performance levels without first showing them how to do it.

W. E Deming’s 14 PointsW. E Deming’s 14 Points

11.Eliminate numerical quotas that employees attempt to meet at any cost without regard for quality.

12.Enhance worker pride, artisanry, and self esteem by improving supervision and the production process so that employees can perform to their capabilities.

13.Institute vigorous education and training programs in methods of quality improvement throughout the organization from top management down, so that continuous improvement can occur.

14.Develop a commitment from top management to implement the previous 13 points

4. ACTInstitutionalize improvement; continue the cycle with new problems at stage 1

1. PLANStudy process, identify the problem, set goals, and develop the plan for improvement

3. CHECKAssess the plan; is it working? Goals achieved?

2. DOImplement the plan on a test basis, measure improvements

The Deming Wheel PDCA CycleThe Deming Wheel PDCA CycleThe Deming Wheel PDCA CycleThe Deming Wheel PDCA Cycle

Quality, Quality Management and Quality, Quality Management and Quality ToolsQuality ToolsQuality, Quality Management and Quality, Quality Management and Quality ToolsQuality Tools

Process Flow Chart – is a diagram of the steps in a job or process.

-it enables everyone involved in identifying and solving quality problem to have a clear picture of how a specific operation works and a common frame of reference.

Quality ToolsQuality ToolsQuality ToolsQuality Tools

Cause-and-Effect Diagrams –graphical description of the elements of a specific problem and the relationship between those elements.-also called “fishbone” or Ishikawa Diagram-it is used to identify the causes of a quality problem so it can be corrected.

Quality ToolsQuality ToolsQuality ToolsQuality Tools Pareto Diagram

–Tallying the percentage of defects resulting from different causes to identify major quality problems

-it was devised in the early 1950s by the quality expert Joseph Juran who named the method after Vilfredo Pareto, an Italian economist.

-it’s a useful visual aid for focusing on major quality problems.

Quality ToolsQuality ToolsQuality ToolsQuality Tools Scatter

Diagrams –shows relationship between two variables

-it identifies a pattern that may cause a quality problem.

Quality ToolsQuality ToolsQuality ToolsQuality Tools Check Sheets

–is a fact-finding tool used to collect data about quality problems

-tallies the number of defects for a variety of previously identified problem causes.

Quality ToolsQuality ToolsQuality ToolsQuality Tools Statistical Process Control

Charts–means of measuring if a process is doing what it is supposed to do

-a chart with statistical upper and lower limits; if the process stays between these limits over time, it is control and a problem does not exist.

Total Quality Management andTotal Quality Management andQuality Management SystemQuality Management SystemTotal Quality Management andTotal Quality Management andQuality Management SystemQuality Management System

Total Quality Management is the management approach for quality improvement, and became very popular during the 1980s. This is still a philosophy for managing an organization centered on quality and customer satisfaction as the strategy for achieving long-term success.

Quality Management System is not much of a philosophy, rather, it is a system that complement’s a company’s other systems and functions; a systematic approach designed to meet the individual needs and circumstances of a particular company

Focus of Quality Management – Focus of Quality Management – CustomersCustomersFocus of Quality Management – Focus of Quality Management – CustomersCustomers Companies know that to satisfy its customers not

only their commitment to quality, but also to support and resources of its suppliers

Partnering – a relationship between a company and its supplier based on mutual quality standards

The primary means for gathering information from customers, and measuring customer satisfaction is the customer survey.

Methodologies: American Customer Satisfaction Index; Kano Model; SERVIQUAL / RATER, J.D. Power and Associates

Role of Employees in Quality Role of Employees in Quality ImprovementImprovementRole of Employees in Quality Role of Employees in Quality ImprovementImprovement Participative Problem Solving – employees are

directly involved in the quality management process. This has been effective in improving quality, increasing employee satisfaction and morale, improving job skills, reducing job turnover and increasing productivity

Kaizen – “change for the better”; involving everyone in a process of gradual, organized, and continuous improvement.

Five elements of Kaizen – Teamwork, Personal Discipline, Improved morale, Quality Circles, Suggestions for improvement►

Role of Employees in Quality Role of Employees in Quality ImprovementImprovementRole of Employees in Quality Role of Employees in Quality ImprovementImprovement Quality Circle - First established in 1962;

Spearheaded by Kaoru Ishikawa; a group composed of workers, who are trained to identify, analyze and solve work-related problems and present their solutions to management in order to improve the performance of the organization, and motivate and enrich the work of employees. Key tool is Deming’s Wheel

Process Improvement Teams – also called Quality Improvement Teams (QIT); the key objective of which is to understand the process the team is addressing in terms in how all the parts (functions & departments) work together. Key tool is a process flowchart

Quality in ServicesQuality in ServicesQuality in ServicesQuality in Services

“Good Service is Whatever the Customer says it is” Service defects are not always easy to measure

because service output is not usually a tangible physical term

Services tend to be labor intensive Benchmark – “Best” level of Quality Achievement in

one company that the other companies seek to achieve

Quality management in services must also focus also on employee performance related to intangible, difficult-to-measure quality dimensions.

Six Sigma is a Project methodology that provides businesses with the tools and expertise to improve processes; increase in product/service quality through a decrease in process variation leading to defect reduction

Main idea: number of defects can be measured, and can be systematically determined on how to eliminate them and get close to zero defects as much as possible – having a numerical goal of 3.4 defects per million opportunities

Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)

Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)

6 Sigma 3.4 Defects 99.99966%

5 Sigma 233 Defects 99.977%

4 Sigma 6,210 Defects 99.38%

3 Sigma 66,807 Defects 93.32%

2 Sigma 308,537 Defects 69.2%

6 Sigma 3.4 Defects 99.99966%6 Sigma 3.4 Defects6 Sigma 3.4 Defects 99.99966%

5 Sigma 233 Defects 99.977%5 Sigma 233 Defects5 Sigma 233 Defects 99.977%

4 Sigma 6,210 Defects 99.38%4 Sigma 6,210 Defects4 Sigma 6,210 Defects 99.38%

3 Sigma 66,807 Defects 93.32%3 Sigma 66,807 Defects3 Sigma 66,807 Defects 93.32%

2 Sigma 308,537 Defects 69.2%2 Sigma 308,537 Defects2 Sigma 308,537 Defects 69.2%

Sigma levels and Defects per million

opportunities (DPMO)

Increase In Sigma Requires Exponential Defect ReductionIncrease In Sigma Requires Exponential Defect ReductionIncrease In Sigma Requires Exponential Defect ReductionIncrease In Sigma Requires Exponential Defect ReductionIncrease In Sigma Requires Exponential Defect ReductionIncrease In Sigma Requires Exponential Defect Reduction

Process Capability

DPMO (Defects PerMillion Opportunities

Percent Success

Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)

At 3.8 sigma (99% success)

20,000 lost mails per hour Unsafe drinking water

almost 15 minutes each day

5,000 incorrect surgical operations per week

2 short or long landings at most major airports daily

200,000 wrong drug prescriptions each year

At 6 sigma (99.99966% success) 7 lost mails per hour One minute of unsafe drinking

water every seven months 1.7 incorrect surgical

operations per week One short or long landing at

major airports every five years 68 wrong drug prescriptions

each year

Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)

Business Improvement Campaigns

“Champions” monitor and review the status of improvement projects to make sure the system is functioning as expected

“Executive Leaders” creates relevant improvement targets, stretch goals, and appropriate measures

“Master Black Belts” lead the improvement teams with clear charters, success criteria, and rigorous reviews

“Green Belts”, together with the “Black Belts” use an action-learning approach to build their capability and execute the project

Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)

Six SigmaMethodologies

Who the customers areWhat they wantWhat needs to improve Process

is measuredData is collectedCompared to desired state

Determining the Cause

Making sure that the improvement is sustained and no unexpected and undesirable things occur

Developing solutions to the problem; Changes are made in the process; Results are measured

Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)

Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)

Design for Six Sigma (DFSS)

- used to design/redesign processes

Goals consistent with customer demand and enterprise strategy

Characteristics Critical to Quality

Investigate and Verify Cause and Effect Relationships

Ensuring target deviations are corrected before they result in defects through control systems

Optimize current process using statistical techniques (i.e. DOE)

Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)

BOTTOM LINE: PROFITABILITY

Sample Problem: The Medtek Company produces parts for electronic bed tracking system and sells them to hospitals. It contracted for and sold 1,000 units for Php1,000 each. During the quarter it incurred total variable costs of Php600,000 (including the cost of making scrap) and Total fixed cost of Php300,000. The company currently operates with 10% defect rate to which the cost of defects cannot be reworked. If the six sigma principle is applied during the quarter, it shall incur Php10,000.

REFLECT THE PROFITABILITY FOR BOTH CASES

Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)Six Sigma (Business Management Six Sigma (Business Management Strategy)Strategy)

CASE 1: No Six Sigma Principle AppliedSales Php

1,000,000

Variable Costs1,000 units @Php600

600,000

Fixed Costs 300,000

Profit Before Taxes 100,000

Sales Php 1,000,000

Variable Costs (1,000 units @ Php 540.054)

540,054

Fixed Costs (with Php10,000)

310,000

Profit Before Taxes 149,946

CASE 2: Six Sigma Principle Applied Variable Costs are distributed to additional units of production since they include the cost of scrap

1,000 units represents 90% of total production = 1,000 / 90% = 1,111 total units of production

The Cost of QualityThe Cost of QualityThe Cost of QualityThe Cost of Quality

Prevention Costs Quality Planning Costs Product-Design Costs Process Costs Timing Costs Information Costs

Appraisal Costs Inspection and Testing

Costs Test equipment Costs Operator Costs

“The cost of good quality are those incurred to achieve good quality and to satisfy the customer, as well as costs incurred when quality fails to satisfy

the customer”

The Cost of QualityThe Cost of QualityThe Cost of QualityThe Cost of Quality

Internal Failure Costs Scrap Cost Rework Cost Process Failure Cost Process Downtime Cost Price-downgrading

Cost

External Failure Costs Customer Complaint

Cost Product Return Cost Warranty Claims Cost Product liability Cost Lost Sales Cost

“The cost of POOR QUALITY is the difference between what it actually costs to produce a product and

what would it cost if there are no defects”

The Effect of Quality Management on The Effect of Quality Management on ProductivityProductivityThe Effect of Quality Management on The Effect of Quality Management on ProductivityProductivity

“Measurement of Quality is through Indices – relation of quality cost relative to its base

value”

Labor Index = Quality Cost / Direct Labor Hours Cost Index = Quality Cost / Manufacturing Cost Sales Index = Quality Cost / Net Sales Production Index = Quality Costs / Units of

Finished Product

The Effect of Quality Management on The Effect of Quality Management on ProductivityProductivityThe Effect of Quality Management on The Effect of Quality Management on ProductivityProductivity

Product Yield – measure of output used as in indicator of productivity; an increase in the percentage of the defective products through improved quality will increase product yieldY = (total input)(% good units) + (total input)(1 – good units)(% reworked)

To compute for the manufacturing cost per good product

Product Cost =

(direct mfg cost per unit)(input) +(rework cost per unit)(reworked units)

The Effect of Quality Management on The Effect of Quality Management on ProductivityProductivityThe Effect of Quality Management on The Effect of Quality Management on ProductivityProductivity

Quality-Productivity Ratio – combination of concepts of quality index numbers and product yield; this increases if more good quality inputs are produced relative to the total product input

QPR = good quality units

(input units)(unit processing cost) +

(reworked units)(rework cost)

QPR = x 100

Quality Awards and ISO 9000Quality Awards and ISO 9000Quality Awards and ISO 9000Quality Awards and ISO 9000 Malcolm Baldrige National Quality Award –

manufacturing, services, small businesses, health care, and education

American Society for Quality – Armand V. Feigenbaum Medal, Deming Medal, E. Jack Lancaster Medal, the Edwards Medal, Ishikawa Medal

President’s Quality Award – Federal Government Organizations

International Organization for Standardization – facilitates global consensus agreements on international quality standards ISO 9000 – uniform standards for cross-border

transactions Main idea: Most companies will not do business with a

supplier unless it has ISO 9000 certification