TQM total quality management

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TOTAL QUALITY MANAGEMENT

N.P.R. COLLEGE OF ENGINEERING & TECHNOLOGY
N.P.R. Nagar, Natham - 624 401, Tamil Nadu, India.

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ISO 9001:2008

Miss. VMS.Sumathy, B.Sc (Phy), M.B.A.,
Lecturer/M.B.A
N.P.R. College of Engineering and Technology,
Natham

TQM/VMSS/M.B.A/N.P.R.C.E.T??

MBA101

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TOTAL QUALITY MANAGEMENT

BA*114 TOTAL QUALITY MANAGEMENT
LT P C
3003
UNIT I INTRODUCTION TO QUALITY MANAGEMENT 9
Definitions – TOM framework, benefits, awareness and obstacles. Quality – vision, mission and policy statements. Customer Focus – customer perception of quality, Translating needs into requirements, customer retention. Dimensions of product and service quality. Cost of quality. UNIT II PRINCIPLES AND PHILOSOPHIES OF QUALITY MANAGEMENT 9

Overview of the contributions of Deming, Juran Crosby, Masaaki Imai, Feigenbaum, Ishikawa, Taguchi techniques – introduction, loss function, parameter and tolerance design, signal to noise ratio. Concepts of Quality circle, Japanese 5S principles and 8D methodology.

UNIT III STATISTICAL PROCESS CONTROL AND PROCESS CAPABILITY 9 Meaning and significance of statistical process control (SPC) – construction of control charts for variables and attributed. Process capability – meaning, significance and measurement – Six sigma concepts of process capability. Reliability concepts – definitions, reliability in series and parallel, product life characteristics curve.Total productive maintenance (TMP) – relevance to TQM, Terotechnology. Business process re-engineering (BPR) – principles, applications, reengineering process, benefits and limitations.

UNIT IV TOOLS AND TECHNIQUES FOR QUALITY MANAGEMENT 9
Quality functions development (QFD) – Benefits, Voice of customer, information organization, House of quality (HOQ), building a HOQ, QFD process. Failure mode effect analysis (FMEA) – requirements of reliability, failure rate, FMEA stages, design, process and documentation. Seven old (statistical) tools. Seven new management tools. Bench marking and POKA YOKE.

TOTAL: 45 PEROIDS
TEXT BOOKS
1. Dale H.Besterfield et al, Total Quality Management, Third edition, Pearson Education, 2004 REFERENCES
1. Douglas C. Montgomory, Introduction to Statistical Quality Control, Wiley Student Edition, 4th Edition, Wiley India Pvt Limited, 2008.
2. James R. Evans and William M. Lindsay, The Management and Control of Quality, Sixth Edition, Thomson, 2005.
3. Poornima M.Charantimath, Total Quality Management, Pearson Education, First Indian Reprint 2003.
4. Dr.S.Rajaram and Dr.M.Sivakumar, Total Quality Management(Indian Text Edition), Biztantra Publications(A Unit of John Wiley Publications, USA), 2008, New Delhi.

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UNIT V QUALITY SYSTEMS ORGANIZING AND IMPLEMENTATION 9
Introduction to IS/ISO 9004:2000 – quality management systems – guidelines for performance improvements. Quality Audits. TQM culture, Leadership – quality council, employee involvement, motivation, empowerment, recognition and reward- Introduction to software quality.

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UNIT I

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UNIT I INTRODUCTION TO QUALITY MANAGEMENT

Definitions – TOM framework, benefits, awareness and obstacles. Quality – vision, mission and policy statements. Customer Focus – customer perception of quality, Translating needs into requirements, customer retention. Dimensions of product and service quality. Cost of quality.

INTRODUCTION TO QUALITY MANAGEMENT
TOTAL QUALITY MANAGEMENT

Total Quality Management (TQM) is an enhancement to the traditional way of doing business.
Total

-

Made up of the whole

Quality

-

Degree of Excellence a Product or Service provides.

Management

-

Art of handling, controlling, directing etc.

Total quality Management is defined as both as philosophy and a set of guiding principles that represent the foundation of a continuously improving organization. Basic Approach
TQM requires six basic concepts:
1. A commitment and involved management to provide long-term top-to-bottom organizational support.
2. An unwavering focuses on the customer, both internally and externally. 3. Effective involvement and utilization of the entire work force. 4. Continuous improvement of the business and production process. 5. Treating suppliers as partners.

6. Establish performance measures such as uptime, percent nonconforming, absenteeism and customer satisfaction should be determined for the process. Quantitative data are necessary to measure the continuous quality improvement activity.

QUALITY DEFINITION
According to Deming, “Quality may be defined as an excellent product or services that fulfills or exceeds our expectations”.

Quality can be quantified as follows
Q=P/E

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TQM is the application of quantitative methods and human resources to improve all the processes within an organization and exceed CUSTOMER NEEDS now and in the future.

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where,
Q
P
E

=
=
=

Quality
Performance
Expectation

TQM FRAMEWORK
TQM GURUS

TOOLS AND
TECHNIQUES

1.SHEWHART
2. DEMING
3. JURAN
4. FEIGENBAUM

5. ISHIKAWA
6.CROSBY
7. TAGUCHI

1.PEOPLE AND
RELATIONSHIP
2.LEADERSHIP
3.CUSTOMER
SATISFACTION
4. EMPLOYEE
SATISFACTION

PRODUCT OR
SERVICE
REALIZATION

CUSTOMER

APPROACH: continuous process improvement
MEASURE: performance measures

QUALITY AWARENESS
An organization will not begin the transformation to TQM until it is aware that the quality of the product or service must be improved. Awareness comes about when an organization loses market share or realizes

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PRINCIPLES &
PRACTICES

1.BENCHMARKING
2. QUALITY
MANAGEMENT SYSTEMS
3. QUALITY DESIGN

4. FALURE MODE &
EFFECT ANALYSIS
5. TOAL PRODUCTIVE
MAINTENANCE
6. STATISTICAL PROCESS
CONTROL
7. TAGUCHI?S QUALITY
ENGINERRING ETC

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that quality and productivity go hand-in-hand. Its also occurs if TQM is mandated TQM is better way to run a business and compete in domestic and world markets.

DIMENSIONS OF QUALITY
Performance: Primary product characteristics, such as the brightness of the picture. Features: Secondary characteristics, added features, such as remote control. Conformance: Meeting specifications or industry standards, workmanship. Reliability: Consistency of performance over time, average time for the unit to fail. Durability: Useful life, includes repair.

Service: Resolution of problems and complaint, ease of repair Reputation: Human-to-human interface, such as the courtesy of the dealer. Aesthetics: Sensory characteristics, such as exterior finish. Response: Past performance and other intangibles, such as being ranked first. Therefore, quality products can be determined by using a few of the dimensions of quality.

Product features
Performance
Reliability
Durability
Ease of use
Serviceability

Aesthetic
Availability
Reputation

SERVICE INDUSTRIES
Accuracy
Timeliness
Completeness
Friendliness
Courtesy
Anticipating customer needs
Knowledge of server
Aesthetic
Reputation

NEW AND OLD CULTURES:
QUALITY ELEMENT

PREVIOUS STATE

TQM

Definition

Product oriented

Customer oriented

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MANUFACTURING INDUSTRIES

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Priorities

Second to service and cost

First among equals of cost and
service.

Decisions

Short term

Long term

Emphasis

Detection

prevention

Errors

Operations

System

Responsibility

Quality control

Everyone

Problem solving

Managers

Teams

Procurement

Price

Life cycle costs, partnership

Manager?s role

Plan, assign, control and enforce

Delegate, coach, facilitate and
mentor

GURUS OF TQM:

Shewhart

Control chart theory
PDCA Cycle

Deming

Statistical Process Control

Juran

Concepts of Shewhart
Return on Investment

Feiganbaum

Total Quality Control
Management involvement

Employee involvement
Company wide quality control

Ishikawa

Cause and Effect diagram

Crosby

Quality is Free
Conformance to requirement

Taguchi

Loss function concept
Design of Experiments

BARRIERS TO TQM IMPLEMENTATION
Many organization especially small ones with a niche are comfortable with their current state. They are satisfied with the amount of work being performed, the profits realized, and the perception that the

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Quality circle concept

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BENEFITS TO TQM
Improved Quality
Employee Participation
Teamwork
Working relationships

Customer satisfaction
Employee satisfaction
Productivity
Communication

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customers are satisfied. Organizations with this culture will see little need for TQM until they begin to lose market share. Once an organization embarks on TQM, there will be obstacles to its success implementation

The barriers to TQM Implementation were
Lack of Management Commitment: In order for any organizational effort to succeed, there must be a substantial management commitment of management time and organizational resources. The purpose must be clearly and continuously communicated to all personnel. Management must consistently apply the principles of TQM.

Inability to change Organizational culture: Changing organization?s culture is difficult and will require as much as five years. Management must understand and utilize the basic concepts of change. They are: o People change when they want to and to meet their own needs. o Never expect anyone to engage in behavior that serves the organization?s values unless adequate reason has been given.

o For change to be accepted, people must be moved from a state of fear to trust. Improper planning: All constituents of the organization must be involved in the development of the implementation plan and any modifications that occur as the plan evolves. Lack of continuous training and education: Training and education is an ongoing process for everyone in the organization. Needs must be determined and a plan developed to achieve those needs. Training and education are most effective when senior management conducts the training on the principles of TQM. Incompatible organizational structure and isolated individuals and departments: differences between departments and individuals can create implementation problems. The use of
multifunctional teams will help to break down long-standing barriers.

Ineffective measurement techniques and lack of access to data and results: Key characteristics of the organization should be measured so that effective decisions can be made. Paying inadequate attention to internal and external customer: organizations need to understand the changing needs and expectations of their customers. Effective feedback mechanisms that provide data for decision making are necessary for this understanding.

Inadequate use of empowerment and teamwork: Teams need to have the proper training and, at least in the beginning, a facilitator, whenever possible, the team?s recommendation should be followed. Individuals should be empowered to make decisions that affect the efficiency of their process or the customer satisfaction.

Failure to continually improve: It is tempting to sit back and rest on laurels. However, a lack of continuous improvement of the processes, product, and/ or service will even leave the leader of the pack in the dust.

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Profitability
Market share
CUSTOMER AND CONSUMER
S No
1

Customer
Consumer
A person may be consumer who buys the A person who consumes the product for product regularly or uses the product for its their personal consumption i.e., ultimate self or for selling purpose.
user of the product or services.

2

Eg :- Retailer Univercel, purchases the Eg : - Perishable goods like vegetables, mobile phones from the manufacturers like fruits, milk, egg , the ultimate user is the Nokia, Sony Ericsson, Samsung, LG.

person who buys it.

Internal Customer:
An internal customer who exists within the organization.
Every function, whether it is engineering, order processing, or production, has an internal customer- each receives a product or service, in exchange, provides a product or service. Every person in a process is considered a customer of the preceding operation. External Customer:

An external customer who exists outside the organization.
An external customer can be defined in many ways, such as
1. The one who use the product or service.
2. The one who purchases the product or service.
3. The one who influences the sale of the product or service. Eg: - Black Thunder?s determined the customer to be the children when they introduced their theme park. The children never paid for their enjoyment but the children influenced the sale. CUSTOMER FOCUS TO QUALITY MANAGEMNT

The customers are the valuable assets for any organization.
The success of an organization depends on the satisfied customer. The satisfied customer tends to purchase frequently and more. The manufacturing and service organization use customer satisfaction as the measure of quality.

Identifying the customer expectation is the key to satisfy the customer. CUSTOMER RETENTION
It means “retaining the customer” to support the business. It is more powerful and effective than customer satisfaction. For Customer Retention, we need to have both “Customer satisfaction & Customer loyalty”.

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INTERNAL AND EXTERNAL CUSTOMER

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The following steps are important for customer retention
1. Top management commitment to the customer satisfaction.
2. Identify and understand the customers what they like and dislike about the organization. 3. Develop standards of quality service and performance.
4. Recruit, train and reward good staff.
5. Always stay in touch with customer.
6. Work towards continuous improvement of customer service and customer retention. 7. Reward service accomplishments by the front-line staff.
8. Customer Retention moves customer satisfaction to the next level by determining what is truly important to the customers.
9. Customer satisfaction is the connection between customer satisfaction and bottom line. Customer may be satisfied with high priced product but end up in equivalent superior product.
Customer Retention is possible only when company truly understands what the customer expects from product and the company.
The satisfaction level results in customer retention with improve loyalty of customer towards product and bring profit by bringing new customers.

CUSTOMER PERCEPTION OF QUALITY
According to Deming, “Quality may be defined as an excellent product or services that fulfills or exceeds our expectations”. An American Society for Quality (ASQ) survey on end user perceptions of important factors that influenced purchases showed the following ranking: 1. Performance

2. Features
3. Service
4. Warranty
5. Price

6. Reputation
The above factors are the part of product and service quality; therefore it is evident that product quality and service are more important than price.
Performance- involves “fitness for use” – a phrase that indicates that the product and service is ready for the customer?s use at the time of sale. Other considerations are

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QUALITY STATEMENTS
Quality statements includes
Vision statement: A clear declaration of what an organization aspires to be in the future. Eg: - Disney theme park “The Happiest place on Earth”.
Mission statement: It provides as clear statement of the purpose of all those involved in the business.
Eg : - Walmart “ We exist to provide value to our customer, which mean in addition to quality, services, we have to save their money.
Quality policy statement: This statement serves as a guide for everyone in the organization. It clarifies the employee about how the product and services must be provided to the customer.

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1. Availability- probability that a product will operate when needed. 2. Reliability- freedom from failure over time
3. Maintainability- ease of keeping the product operable.
Features- Identifiable features or attributes of a product or service are psychological, time- oriented, contractual, ethical, and technological. Features are secondary characteristics of a product or service. Service- An emphasis on customer service is emerging as a method for organizations to give customeradded value. However is an intangible- it is made up of many small things, all geared to changing the customer?s perception. Providing excellent customer service is different from and more difficult to achieve than excellent product quality.

Warranty- The product warranty represents an organization?s public promise of a quality product backed up by a guarantee of customer satisfaction. Warranty builds marketing muscle as it encourages customer to buy a service by reducing the risk of the purchase decision, and it generates more sales fro/m existing customer by enhancing loyalty.

Price- Today?s customer is willing to pay a higher price to obtain value. Customer constantly evaluating one organization?s products and services against those of its competitors to determine who provides the greatest value.

Reputation- Today customer satisfaction is based on the entire experience with the organization, not just the product. Good experiences are repeated to six people and bad experiences are repeated to 15 people; therefore it is more difficult to create a favorable reputation. Customers are willing to pay a premium for a known or trusted brand name and often become customers for life.

COST OF QUALITY
Cost of Quality is the amount of money a business loses because its product or service was not done right in the right place (or) the cost associated in providing poor quality product and services is known as Cost of Quality (or) Cost of Quality are defined as those costs associated with the nonachievement of product or service quality as defined by requirements established by the organization and its contracts with customers and society.

The four categories of Quality cost includes
Internal failure cost- The cost associated with defects that are found prior to transfer of the product to the customer.
External failure cost- The cost associated with defects that are found after product is shipped to the customer.
Appraisal cost- The cost incurred in determining the degree of conformance to quality requirement.
Prevention cost- The cost incurred in keeping failure and appraisal costs to
a minimum.

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TRANSLATING NEEDS INTO REQUIREMNTS
Translating needs into requirements is another vital part of the quality management. Requirements management is concerned with meeting the needs of end users through identifying and specifying what they need.

Requirements may be focused on outcomes where the main concern is to describe what is wanted rather than how it should be delivered or requirements may be described in any way between have an adequate understanding of what the users need and how the market is likely to meet that need.

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The companies estimate quality costs for the following reasons: To improve communication between middle managers and upper managers To identify major opportunities for cost reduction
To identify the opportunities for reducing customer dissatisfaction and associated threats to product salability.
STRATEGIC QUALITY PLANNING
Goals
Objectives

– Long term planning
– Short term planning

(Eg : Win the war)
(Eg : Capture the bridge)

Goals should
?

?
?
?
?
?

Improve customer satisfaction, employee satisfaction and process Be based on statistical evidence
Be measurable
Have a plan or method for its achievement
Have a time frame for achieving the goal
Finally, it should be challenging yet achievable

SEVEN STEPS TO STRATEGIC QUALITY PLANNING :
1. Customer needs

5. Closing the gap

2. Customer positioning

6. Alignment

3. Predict the future

7. Implementation

4. Gap analysis

1. Define Total Quality?
2. Define Quality?
3. What are the Dimensions of Quality?
4. Give the Basic Concepts of TQM?
5. Give the Principles of TQM?
6. Give the Obstacles associated with TQM Implementation?
7. Define Quality Costs?

8. Give the primary categories of Quality cost?
9. Give the typical cost bases?
10. How will you determine the optimum cost?
11. Define Quality Planning?
12. Give the Objectives of TQM?

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2 marks questions

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TOTAL QUALITY MANAGEMENT
13.
14.
15.
16.
17.
18.
19.
20.

What are the various quality statements?
Give the basic steps to strategic quality planning?
What is a quality policy?
What is a mission statement?
What is a vision statement?
What are the important factors that influenced purchases?
Difference between Customer and Consumer?

Define Customer Retention?

16 marks questions
1. What is quality cost? Explain the techniques used for Quality cost? 2. Explain the principles of TQM?

3. Explain the barriers to TQM implementation?
4. Explain in detail the significance of quality from customer point of view? Give suitable

examples?
5. What are customer perceptions of quality? Explain?
Explain the significance of dimensions of quality?
Discuss various factors that should be considered in focusing on customers? What is the strategic quality planning?
Explain the steps involved in conducting a typical PDCA cycle for a small scale organization? With examples from your branch/ specialization, distinguish between chance variations and variations due to assignable causes?

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6.
7.
8.
9.
10.

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UNIT II

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PRINCIPLES AND PHILOSHOPHIES

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UNIT II PRINCIPLES AND PHILOSOPHIES OF QUALITY MANAGEMENT
Overview of the contributions of Deming, Juran Crosby, Masaaki Imai, Feigenbaum, Ishikawa, Taguchi techniques – introduction, loss function, parameter and tolerance design, signal to noise ratio. Concepts of Quality circle, Japanese 5S principles and 8D methodology.

The future thrust of quality movement in India would be based on: 1. Application Research (Industry and Academics)
2. Experience Sharing
3. ISO certificates
4. Environmental protection, safety and consumer protection for quality enhancement.

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Contribution of W. Edwards Deming
Deming 14 principles
1. Create and publish the aims and purposes of the organization. 2. Learn the new philosophy.
3. Understand the purpose of inspection.
4. Stop awarding business based on price alone.
5. Improve constantly and forever.
6. Institute training.
7. Teach and institute leadership.
8. Drive out fear, create trust and create a climate for innovation. 9. Optimize the efforts of teams, groups and staff areas.
10. Eliminate exhortations for the work force.
11. (a) Eliminate numerical quotas for the work force.
(b) Eliminate Management by Objective.
12. Remove barriers that rob people of pride of workmanship. 13. Encourage education and self-improvement of everyone.
14. Take action to accomplish the transformation.
Deming’s cycle or PDCA cycle

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P – PLAN (Process the improvement)
D – DO (Implement the plan)
C – CHECK (See how closely result meets goals)
A – ACT (Use the improved process as standard practice)

Quality improvement
Quality control

Identify who are the customers.
Determine the needs of those customers.
Translate those needs into our language.
Develop a product that can respond to those needs.
Optimize the product features so as to meet our needs and
customer needs.
Develop a process which is able to produce the product.
Optimize the process.
Prove that the process can produce the product under operating conditions with minimal inspection.
Transfer the process to operations.

Juran’s 10 steps for quality improvement
According to him, Quality means – Fitness for use
1. Build awareness for the need and opportunity for improvement. 2. Set goals for improvement.
3. Organize people to reach the goals.
4. Provide training throughout the organization.
5. Carry out projects to solve the problems.
6. Report progress.
7. Give recognition.
8. Communicate results.

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Joseph M Juran Contribution
Juran?s Quality Trilogy
Quality Planning

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9. Keep score.
10. Maintain momentum by making annual improvement part of the regular system. Contribution to Philip B Crosby
Worked to significantly advance the cause of the world wide quality movement through his many personal contributions over the past four decades. He developed four absolutes of quality management. Quality means conformance to requirements, not goodness.

Quality is achieved by prevention, not appraisal.
Quality has a performance standard of Zero Defects. Not acceptable quality levels. Quality is measured by the Price of nonconformance, not indexes.

Elements of JIT
Stabilize and level the MPS with uniform plant loading create a uniform load on all work centers through constant daily production and mixed model assembly.
Reduce or eliminate set up times. Aim for single digit set up times less than 10 minutes or „one touch setup. Done through better planning, process, redesign, and product redesign. Reduce lot sizes. Reducing set up times allows economic production of smaller lots, close cooperation with suppliers is necessary to achieve reduction. Reduce lead times. Production lead times can be reduced by moving work stations closer together, applying group technology and cellular manufacturing concepts, reduce queue length and improving the coordination and cooperation between successive processes. Delivery lead times can be reduced through close cooperation with suppliers, possibly by inducing suppliers to be located closer to the factory.

Preventive maintenance. Use machine and worker idle time to maintain equipment and prevent breakdown.

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Masaki Imai
Founder and President of Kaizen Institute threw the word „Kaizen?. Kaizen
Kaizen refers to „continuous or On-going improvement? in Japanese, is an inseparable aspect of Total Quality Management is required in all activities of the organization. Kaizen has to basically do with small, step-by-step continuous improvement, smaller and continuous improvements are more realizable, predictable, controllable, and acceptable. Kaizen philosophy believes that people at all levels, including the lowermost levels in the organizational hierarchy, can contribute to improvements, possible because Kaizen asks for only small improvements.

To survive in an increasingly competitive world, top management must adopt a just-in-time(JIT) approach and drive change down the hierarchy without yielding to resistance. The key ideas associated with JIT were developed at the Toyota Motor Company under the leadership of founder EIJI TOYOTO whose father had founded the successful Toyota Spinning and weaving company.

JIT is the management philosophy that strives to eliminate sources of manufacturing waste producing the right part in the right place at the right time.

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Flexible work force. Workers should be trained to operate several machines, to perform maintenance tasks, and to perform quality inspections.
Require supplier quality assurance and implement a zero defect quality program. Small lots (single unit) conveyance. Use a control system such as Kanban system (or other signaling system) to convey parts between work
stations in smaller quantities. In its larger sense, JIT with MRP system is used to convey the parts between workstations. Reasons for a move from batch mode to Just-in-time (JIT)

Batch production system is the most inefficient way to make products. Difficult to meet customer requirements, which come in different orders, like different volumes in different time frames and soon.

The batch system derives from the agricultural mentality. The batch system, purchase material and produce in big batches and there are many processes. At every process, accumulate the batch and at the end accumulate the finished product in a batch, which is stored in the warehouse. This kind of production system is based on market forecast, is good when there is demand. End up with huge inventory of unsold products and excess capacity, and then borrow money to carry that inventory. By that time, acquired too many people for every process.

Defined as quality as “Total quality control is an effective system for integrating the quality development, quality maintenance, and quality improvement efforts of the various groups in an organization so as to enable production and service at the most economical levels which allow full customer satisfaction. Industrial cycle

Ongoing sequence to bring products or services to the customer including the activities like marketing, purchasing, design, engineering, manufacturing, production, inspection , packaging, delivery, installation and service.

Maintained that responsibility of quality was not the sole preserve of the quality professional but was the responsibility of all.
The fundamental concept is „quality is everybody?s job? Management and Operators cannot totally delegate authority and responsibility and still expect a satisfactory product. The two basic responsibilities are:

1. “Provide quality assurance for the business?s products”. 2. “Assist in assuring optimum quality costs for those products”. Hidden Plant

One of the more well known concepts developed by Feigenbaum was that of the “hidden plant”. He maintained that within every company or factory a proportion of the capacity was wasted by not getting it right first time.

Quality control
Emphasizing that human relation was a basic issue in Quality control activities, and such things as statistics and preventive measures were only a part of the whole equation.

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Contribution of Armand V Feigenbaum

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Contribution of Kaoru Ishikawa
Biggest contribution is in simplifying statistical techniques for quality control in an industry. Ishikawa sees the Cause-and-effect diagram or Ishikawa Diagram, like other tools, as a device to assist groups or quality circles in quality improvement.

Other than technical contributions to quality, Ishikawa is associated with the Company-wide Quality control (CWQC) movement as implies that quality does not only mean the quality of product, but also of after sales service, quality of management, the company itself and the human life.

The outcomes of such an approach are(Company-Wide Quality benefits): o Product quality is improved and becomes uniform. Defects are reduced. o Reliability of goods is improved.
o Cost is reduced.
o Quantity of production is increased.
o Wasteful work and rework are reduced.
o Technique is established and improved.

o Expenses for inspection and testing are reduced.
o Contracts between vendor and vendee are rationalized.
o The sales market is enlarged.
o Better relationships are established between departments.
o False data and reports are reduced.
o Discussions are carried out more freely and democratically. o Meetings are operated more smoothly.
o Repairs and installation of equipment and facilities are done more rationally. o Human relations are improved.
Quality Circles

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„Quality” is what suits the customer at the right price for both the provider and customer and a common sense approach to quality standards, conformance, corrective actions, and planning for improvement is the control required to gain that quality.

By stimulating and encouraging everyone in an organization to realize their responsibilities and potential effects on the quality of a product or service.
Crucial elements of Total Quality
The elements of total quality to enable a totally customer focus (internal and external) 1. Quality is the customers? perception of what quality is, not what company think it is. 2. Quality and cost are the same no different.

3. Quality is an individual and team commitment.
4. Quality and innovation are interrelated and mutually beneficial. 5. Managing Quality is managing the business.
6. Quality is a principal.
7. Quality is not a temporary or quick fix but a continuous process of improvement. 8. Productivity gained by cost effective demonstrably beneficial Quality investment. 9. Implementing Quality by encompassing suppliers and customers in the system.

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TOTAL QUALITY MANAGEMENT
Is a main ingredient of Ishikawa?s company-wide quality control consisting typically 5-10 personnel who meet at regular interval.
Led by supervisor or team leader, aim to contribute to and improve processes and activities, build up job satisfaction and company loyalty and utilize existing and hidden resource potential. Ishikawa’ s PDCA Model

Plan
o Determine goals and targets
o Determine methods of reaching goals.
Do
o
o

Engage in education and training
Implement work

Check
o Check the effects of implementation
Act
o

Take appropriate action.

5-S: HOUSEKEEPING

5-S MEANS EVERYTHING IN ITS PLACE
CLEARING

SEIRI

ARRANGING

SEITON
SEISO

SWEEPING

SEIKETSU

CLEANLINESS

SHITSUKE

? There can be no TQM without 5-S.
? A dirty factory cannot produce quality products.
? Clutter hides problems. A neat workplace promotes easy discovery of abnormalities. 5-S CONTRIBUTES TO

SAFETY

TQM/VMSS/M.B.A/N.P.R.C.E.T??

DISCIPLINE

20

TOTAL QUALITY MANAGEMENT
QUALITY
PRODUCTIVITY
5-S FACILITATES

VISUAL CONTROL

The First S: SEIRI : CLEARING
Take out unnecessary items and throw them away
Factory Floor

Office

Machines to be
scrapped
Rejected material
Expired goods
Broken tools,
pallets, bins,
trolleys.
Old notices

Used / Broken
pens
Useless paper
Old diaries
Broken furnitures

Home
Broken toys
Old clothes
Broken suitcases

Flow Chart :

Separating the wanted and unwanted

Repairable

No use

Discard
Consequences of not practicing SEIRI :
? The unwanted clutters up the place and the wanted are hard to find. ? Every place can only hold so much.
? Clutter sometimes causes misidentification.

Wanted items

Repair

To next step

TQM/VMSS/M.B.A/N.P.R.C.E.T??

Junk & waste

21

TOTAL QUALITY MANAGEMENT

The Second S : SEITON : ARRANGING

Arrange everything in proper order so that it can be easily picked up for use. Factory Floor
Unlabelled tool crib
Cluttered shelves
lockers etc.
Stores – no clear
location system.
Things on the floor

Office
Unlabelled file cabinet
Cluttered drawer,
shelves, book cases,
tables
Records & documents
not arranged well
File heaps and papers

Home
Clutter
No orderly
arrangement in
the rooms

Consequences of not practicing SEITON :
? Things are seldom available when needed.
? Items are “lost? in stores.
? Items – defectives and good ones get mixed up.
? Accidents or near-accidents occur due to clutter.
? Visual control of the shop floor is not possible.
? Sometimes, production is lost because an item required is available but cannot be found. ? In some offices, Critical Excise records or tax records may not be traceable. This can lead to finance loss, prosecution or embarrassment.

The Third S : SEISO : SWEEPING
Sweep your workplace thoroughly so that there is no dust anywhere. Office
Dirty table & furniture

Home
Dirty furniture, floor,
window, grills,
bookshelves.

Dirty office equipments
Littered floor
Dirty windows

Consequences of not practicing SEISO :
? Most machines are affected by dust & dirt and hence their performance may go down. ? Dust and dirt on products, materials, packing boxes etc. will affect either their performance quality or their aesthetic look.

? Unpleasant to work in.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

Factory Floor
Dirty machines
Dust on product
parts, R.Mtls.
Dirty jigs, fixtures
Dirty walls, roofs
Littered floor

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TOTAL QUALITY MANAGEMENT

The Fourth S : SEIKETSU : CLEANLINESS
Washing with a strong overtone of keeping things disinfected as well as free of hazardous chemicals.
Factory Floor

Office

Handling hazardous
Free of pests
chemicals
Personal hygiene
Control of fumes,
hazardous dust.
Disinfecting, Personal hygiene
Consequences of not practicing SEIKETSU :
?
?
?
?

Home
Pest control
Personal hygiene

Good health and safety require the practice of Seiketsu.
Hazardous chemicals, dusty chemicals, fumes etc. can make it a dangerous place to work in. Washing thoroughly and cleaning a place makes the workplace pleasant. Personal hygiene is essential for healthy workforce.

The Fifth S: SHITSUKI : DISCIPLINE

Discipline especially with regard to safety rules and punctuality. Consequences of not practicing SEIKETSU :

1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.

Top Management resolve and training.
Formation of a top level team.
Understanding current circumstances.
Establishing priorities and targets.
Forming sub-teams and training.
Major cleaning.
Establishing improvement plans in each priority area.

Implementing the plan.
Verifying results.
Standardizing.
Establishing full control.
Looking for further improvements.

8D Methodology
8D is a problem-solving methodology for product and process improvement. It is structured into eight disciplnes, emphasizing team synergy.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

? If discipline is not practiced, then the first 4-S would backslide. ? Lack of Shitsuki means not following the standards. Then, all activities related to safety and quality will be affected.
IMPLEMENTING 5-S

23

TOTAL QUALITY MANAGEMENT
The team as a whole is better and smarter than the quality sum of the individuals By cross-functional team, mean a group of people from different organizational vehicle that brings together diverse talents to solve a business problem. The cross-functional team should consists of members from management, workers on the floor who actually perform the task, engineering, quality people and any other relevant department that has input into the product.

The Eight disciplines
1. Use team approach
a. Establish a small group of people with the knowledge, time, authority and skill to solve the problem and implement corrective actions. The group must select a team leader. 2. Describe the problem.

a. Describe the problem in measurable terms. Specify the internal or external
customer problem by describing it in specific terms.
3. Implement and verify short-term corrective actions.
a. Define and implement those intermediate actions that will protect the customer from the problem until permanent corrective actions is implemented. Verify with data the effectiveness of these actions.

4. Define and verify Root cause.
a. Identify all potential causes which could explain why the problem occurred. Test each potential cause against the problem description and data. Identify alternative corrective actions to eliminate root cause.

5. Verify corrective actions.
a. Confirm that the selected corrective actions will resolve the problem for the customer and will not cause undesirable side effects.
Prepare for 8D Process

Select the Team- D1

Describe the Problem- D2

Define and verify Root causes- D4

Identify Potential causes

Describe the Problem- D2
Select likely causes

Describe the Problem- D2
No

Is the potential
cause a Root cause?

TQM/VMSS/M.B.A/N.P.R.C.E.T??

Implement and verify interim actions- D3

24
Yes

Identify possible corrective Action

TOTAL QUALITY MANAGEMENT

2 marks Questions
1. What are the basic ways for a continuous process improvement? 2. What are the three components of the Juran Trilogy?
3. What are the steps in the PDSA cycle?
4. Define 5S?
5. What are the phases of a Continuous Process Improvement Cycle? 6. What are the phases of a Continuous Process Improvement Cycle? 7. What are the key factors of Deming?s Principles?
8. Compare Deming and Juran?s Philosophy?
9. What are the differences between Kaizen and Innovation?
10. Explain the concept of Quality Circle?
11. Explain Hidden Plant?
12. Draw the schematic diagram of structure of Quality Circle for educational institution? 13. What are the seven deadly wastes that can be avoided using Kaizen Principles? 14. Explain Ishikawa PDCA model?

15. What are the crucial elements of Total Quality?
16. What is JIT?
17. What is the reason for a move from batch mode to just-in-time?

TQM/VMSS/M.B.A/N.P.R.C.E.T??

6. Implement permanent corrective actions.
a. Define and implement the permanent corrective actions needed. Choose ongoing controls to insure the root cause is eliminated.
7. Prevent recurrence

a. Modify specifications, update training, review work flow, and improve practices and procedures to prevent recurrence of this and all similar problems. 8. Congratulate your team.
a. Recognize the collective efforts of your team. Publicize the achievement. Share the knowledge and learning.

25

TOTAL QUALITY MANAGEMENT
18. What is meant by Total Quality Control?
19. Draw Deming?s cycle?
20. What are the fundamental concepts of Industrial Cycle?
16 Marks questions
1. Explain Deming?s principles?
2. Explain the role of facilitator in quality circle?
3. Explain how Kaizen focuses on Quality improvement?
4. What are the differences between Kaizen and Innovation? Explain? 5. What are the deadly wastes that can be avoided using Kaizen principles? 6. Relate 5S concepts to ISO standards?
7. Discuss the elements of JIT?
8. Explain the Japanese concept of Kaizen. How does it differ from traditional western approaches to improvements?
9. Explain Juran?s trilogy?
10. Discuss 8D problem solving methodology?

UNIT III

TQM/VMSS/M.B.A/N.P.R.C.E.T??

STATISTICAL PROCESS
CONTROL

26

TOTAL QUALITY MANAGEMENT

UNIT III STATISTICAL PROCESS CONTROL AND PROCESS CAPABILITY
Meaning and significance of statistical process control (SPC) – construction of control charts for variables and attributed. Process capability – meaning, significance and measurement – Six sigma concepts of process capability. Reliability concepts – definitions, reliability in series and parallel, product life characteristics curve.Total productive maintenance (TMP) – relevance to TQM, Terotechnology. Business process re-engineering (BPR) – principles, applications, reengineering process, benefits and limitations.

STATISTICAL FUNDAMENTAL
Statistics is defined as the science that deals with the collection, tabulation, analysis, interpretation and presentation of quantitative data.

1. Variables (Measurable quality characteristics like length measured in metres) 2. Attributes (Quality characteristic which are classified as either conforming (or) non-conforming to specifications, such as “go & no-go” gauge.

MEASURES OF CENTRAL TENDENCY AND DISPERSION
There are two important analytical methods of describing a collection of data as 1. Measures of central tendency.
2. Measures of dispersion.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

Data collected for quality control purposes are obtained by direct observation and are classified as

27

TOTAL QUALITY MANAGEMENT
A measure of central tendency of a distribution is a numerical value that describes how the data tend to build up in the centre. There are three measures in quality as 1. Average

2. Median
3. Mode
Average is the sum of observations divided by the number of observations. i=n
? Xi
Average = X = i=1
n
where, n
Xi

= number of observations
= observed value

Median is the value which divides a series of ordered observations so that the number of items above it is equal to the number of items below it
Mode is the value which occurs with the greatest frequency in a set of numbers. Mode can again classified as
? No mode
? Uni mode
? Bi mode
? Multimode
Measure of dispersion describes how the data are spread out on each side of the central value. The two measures of dispersion are
1. Range
2. Standard Deviation
Range is the difference between the largest and smallest values of observations in a series of numbers.

Where, R
=
Range
Xh
=
highest observation in a series
Xl
=

lowest observation in a series
Standard Deviation measures the spreading tendency of the data. Larger the standard deviation, greater the variability of data.

i=n
?
S

=

i=1

(X i – X)2

TQM/VMSS/M.B.A/N.P.R.C.E.T??

Range = R = X h – X l

28

TOTAL QUALITY MANAGEMENT
n-1
where S
= sample standard deviation
Xi
= observed value
n
= number of observations
POPULATION AND SAMPLE
In order to construct a frequency distribution of the outer diameter of shafts, a small portion (or) sample is selected to represent all the shafts. The population is the whole collection of shafts. The population may be an hour?s production, a week?s production, 10000 pieces and so on. It is not possible to measure all of the population. Hence, we go for sampling. Sampling becomes necessary When it is impossible to measure the entire
population.

When it is more expensive to observe all the data.
When the required inspection destroys the product.
When a test of the entire population may be too dangerous as in the case of new medical drug. X
µ
S
?

is for sample average or sample mean.
is for population mean.
is for sample standard deviation.
is for population standard deviation.

NORMAL CURVE

TQM/VMSS/M.B.A/N.P.R.C.E.T??

1.
2.
3.
4.

29

TOTAL QUALITY MANAGEMENT
Normal curve is common type of population. The normal curve is symmetrical, unimodal, bell – shaped distribution with the mean, median and mode all having the same value.

LSL, LCL

SPEC.
MEAN

USL, UCL

PROCESS
AVERAGE
6
TOLERANCE

Figure 3.2 : Normal curve tolerance limits

CONTROL CHARTS FOR VARIABLES AND ATTRIBUTES
Variation is a law of nature because no two natural items in any category are the same. Variations are due to the following reasons.
1. Chance causes or Natural causes.
2. Assignable causes.
Chance causes of variation are inevitable. Chance causes affect almost every production process and are inherent in the process. They are purely random, unidentifiable sources of variations. Hence, when only chance causes are present in a process, the process is said to be in Statistical Control. Assignable causes result in unnatural variations. The sources of variations may be due to Equipments

Materials
Environment
Operator etc.

The Control chart is used to look at variations, seek assignable causes and chance causes. The control chart is a line chart with control limits.
All control charts have three basic components.
1. A centre line, usually the mathematical average of all the samples plotted. 2. Upper and Lower Control Limits that define the constraints of common cause variations. 3. Performance data plotted over time.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

?
?
?
?

30

TOTAL QUALITY MANAGEMENT
A typical control chart is a graphic display of a quality characteristic that has been measured or computed from a sample versus sample number or time. If the process is in control, nearly all of the sample points will fall between Upper Control Limit (UCL) and Lower Control Limit (LCL).

CONTROL CHART FOR VARIABLES
1. Mean chart – X chart & Range Chart – R Chart

X

R

=

=

X
-----N
R
-----N

Where, N = Total number of observations.
n = Sample size (for finding out the value of A2
and D4 and D3 from the table)

Control limits for the charts are given by the following equation.

X – Chart

R - Chart

CL

=X

CL

=R

UCL X

= X + A2. R

UCL R

= D4. R

LCL X

= X - A2. R

LCL R

= D3. R

1. Mean chart – X chart & Standard Deviation chart – S Chart

S

=

=

S
-----N

Where, N = Total number of observations.
n = Sample size (for finding out the value of A3
and B4 and B3 from the table)

Control limits for the charts are given by the following equation.

X – Chart
CL

S - Chart
=X

CL

=S

TQM/VMSS/M.B.A/N.P.R.C.E.T??

X

X
-----N

31

TOTAL QUALITY MANAGEMENT
UCL X
LCL X

= X + A3. S
= X – A3. S

UCL S
LCL S

= B4. S
= B3. S

CONTROL CHART FOR ATTRIBUTES
1. p chart
2. np chart
3. c chart
4. u chart
OBJECTIVES OF THE ATTRIBUTE CHART
1.
2.
3.
4.
5.
6.

Determine the average quality level.
Bring to the attention of management any change in the average. Improve the product quality
Evaluate the quality performance of operating and management personnel. Suggest places to use X and R charts.
Determine acceptance criteria of a product before shipment to the customer.

PROCESS CAPABILITY OR SIX SIGMA
Process Capability is defined as “Minimum spread of a specific measurement variation which will include 99.7% of the measurement from the given process”.

LSL

USL

LSL – Lower Specification Limit
USL – Upper Specification Limit
LCL – Lower Control Limit
UCL – Upper Control Limit

UCL

TQM/VMSS/M.B.A/N.P.R.C.E.T??

LCL

32

TOTAL QUALITY MANAGEMENT
PURPOSE OF PROCESS CAPABILITY ANALYSIS
?
?

Measuring the process capability to find out whether the process is inherently capable of meeting the specified tolerance limits.
Discovering why a process „capable? is failing to meet specifications.

RELIABILITY CONCEPTS
Reliability is ordinarily associated with the performance of the product. 4 factors associated with reliability are
? Numerical value of probability
? Intended function( statement defining successful product performance) ? Life
? Environmental conditions.
Reliability may also define as the probability of no failure throughout a prescribed operating period. Formally defined as the probability that a product, piece of equipment, or system performs its intended function for a stated period of time under specified operating conditions. EngineS OF FAILURES

Functional failure – failure that occurs at the start of product life due to
manufacturing or material detects
Reliability failure – failure after some period of use
EngineS OF RELIABILITY

TQM/VMSS/M.B.A/N.P.R.C.E.T??

Inherent reliability – predicted by product design
Achieved reliability – observed during use
RELIABILITY MEASUREMENT
Failure rate (l) – number of failures per unit time
Alternative measures
o Mean time to failure (MTTF)
o Mean time between failures (MTBF)
FAILURE RATE CURVE OR BATH TUB CURVE

33

TOTAL QUALITY MANAGEMENT
RELIABILITY PREDICTION
Many electronic components commonly exhibit a high, but decreasing, failure rate early in their lives (as evidenced by the steep slope of the curve), followed by a period of a relatively constant failure rate, and ending with an increasing failure rate.

PRODUCT LIFE CHARACTERISTIC CURVE
Three distinct time period
– Early failure
– Useful life
– Wear out period
PREDICTING SYSTEM RELIABILITY
Series system
Parallel system

SERIAL SYSTEM RELIABILITY

Fault Coverage is the probability that a system will recover from a failure. This can be derived approximately by examining the design, and making reliable estimates. This number will be difficult to determine exactly because it is based on real and often unpredictable phenomenon. Reliability can be determined with individual system components as a function of probabilities. The two main categories of systems are series, and parallel (redundant). In the best case a high reliability system would have many parallel systems in series. In terms of design, a system designer must have an intuitive understanding of the concept of series/parallel functions. We can consider a series system where if any of the units fails, then the system becomes inoperative. Here the reliabilities of each of the system component is chained (ANDed) together.

RS = 1- R1 R2 R3 ….. Rn

When a ?parallel? component fails the reliability of the overall system is reduced, but the system remains completely or partially functional.
• This type of reliability adds cost, so it is normally only used in critical systems where failure is not acceptable.
• Examples of systems using parallel reliability include,
brakes on a car - 4 brakes
electronic brakes, also have mechanical backups
lights - in dark places multiple bulbs are used so a failed bulb does not leave it dark. • If any of the units fails the system will continue to operate. Failure will only come when all of the modules fail. Here we are concerned with complements of the chained unreliabilities.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

PARALLEL SYSTEM RELIABILITY

34

TOTAL QUALITY MANAGEMENT

RS = 1- (1-R1 ) ( 1-R2 )….. (1-Rn)

Total Productive Maintenance (TPM) is defined as keeping the running plant and equipment at it highest productive level with the co-operation of all areas of the organization. Predictive and Preventive maintenance are essential to building a foundation for a successful TPM environment. Predictive Maintenance is the process of using data and statistical tools to determine when a piece of equipment will fail. Preventive Maintenance is the process of periodically performing activities such as lubrication on the equipment to keep it running.

TPM has the following steps:
1. Management should learn the new philosophy of TPM.
2. Management should promote the new philosophy of TPM.
3. Training should be funded and developed for everyone in the organization. 4. Areas of needed improvement should be identified.
Loss measurements to identify improvement needs are
? Down time losses
? Reduced speed losses
? Poor quality losses
5. Performance goals should be formulated.
6. An implementation plan should be developed.
7. Autonomous worth groups should be established.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

OBJECTIVES OF TPM
1. To maintain and improve equipment capacity.
2. To maintain equipment for life.
3. To use support from all areas of the operation.
4. To encourage input from all employees.
5. To use teams for continuous improvement.
TPM PHILOSOPHY – CONCEPT OF TPM :
Total Productive Maintenance (TPM) is an extension of the Total Quality Management (TQM) philosophy to the maintenance function.

35

TOTAL QUALITY MANAGEMENT

Hammer and Champy (1993) define BPR as "... the fundamental rethinking and radical redesign of business processes to achieve dramatic improvements in critical contemporary measures of performance, such as cost, quality, service, and speed."

WHY REENGINEERING?
Customers
o Demanding
o Sophistication
o Changing Needs
Competition
o Local
o Global
Change
o Technology
o Customer Preferences

Five key principles of BPR are:
1. Strategic redesign of process
2. Involvement of right teams of people.
3. Wise use of information technology.
4. Changed management style
5. Continuous improvement of process.
THE REENGINEERING PROCESS
Reengineering is applied to any business process. The steps involved are STEP 1 – State a case for action
STEP 2 – Identify the process.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

KEY PRINCIPLES OF REENGINEERING

36

TOTAL QUALITY MANAGEMENT
STEP 3 – Evaluate enables for reengineering
STEP 4 – Understand the current process.
STEP 5 – Create a new process design
STEP 6 – Implement the reengineered process.

16
1.
2.
3.

4.
5.
6.
7.
8.
9.
10.

marks Questions
Explain the significance of X chart, R chart, and C chart in improving the productivity? State the steps to be followed in implementing TPM?
A machine is set to deliver the packets of a given weight. Ten samples of size five each were examined and the following results were obtained
Sample: 1
2
3
4
5
6
7

8
9
10
Mean : 15
17
15
18
17
14
18
15
15
5
Range : 7
7
4
9
8
7
12
4
11
5
Calculate the values for the central line and control limits for the mean charts and range charts. How we can successfully improve the team building concept in our organization? Discuss the need for TPM?

Explain the application of Reengineering and process reengineering in a Manufacturing organization?
Discuss the objectives of attribute chart?
What are the possible objectives of the control charts?
Explain the six sigma concepts of Process capability?
What are the benefits and limitations of BPR

TQM/VMSS/M.B.A/N.P.R.C.E.T??

2 marks Questions
1. Define Statistics?
2. What is a measure of central tendency?
3. What is a normal curve?
4. What is the use of the control chart?
5. Give the objectives of the attribute charts?
6. Define Six Sigma Problem Solving Method?
7. Difference between Production and Productivity?
8. Define Run chart?
9. Define Control chart?
10. Define Process Capability?
11. Explain the various charts involved in QC Tools?
12. Distinguish between X chart and R chart?
13. Explain TPM and the needs of TPM?
14. Define Business process engineering?
15. Explain about employee motivation in an organization?
16. How to implement TPM in industries?
17. Explain Reengineering process and its relevance to TQM?
18. What are the various goals of TPM?
19. Explain the Reengineering process?
20. What are the three R?s in Reengineering?

37

TOTAL QUALITY MANAGEMENT

UNIT IV
FOR
QUALITY MANAGEMENT

TQM/VMSS/M.B.A/N.P.R.C.E.T??

TOOLS AND TECHNIQUES

38

TOTAL QUALITY MANAGEMENT

UNIT IV TOOLS AND TECHNIQUES FOR QUALITY MANAGEMENT
Quality functions development (QFD) – Benefits, Voice of customer, information organization, House of quality (HOQ), building a HOQ, QFD process. Failure mode effect analysis (FMEA) – requirements of reliability, failure rate, FMEA stages, design, process and documentation. Seven old (statistical) tools. Seven new management tools. Bench marking and POKA YOKE. QUALITY FUNCTION DEPLOYMENT

? Quality Function Deployment is a planning tool used to fulfill customer expectations. ? Quality Function Deployment focuses on customer expectations or requirements, often referred to as voice of the customer.

QFD TEAM:
There are two types of teams namely

2. Team for improving an existing product
BENEFITS OF QFD:
1. Improves Customer satisfaction
? Creates focus on customer requirements
? Uses competitive information effectively
? Prioritizes resources
? Identifies items that can be acted upon
2. Reduces Implementation Time

TQM/VMSS/M.B.A/N.P.R.C.E.T??

1. Team for designing a new product

39

TOTAL QUALITY MANAGEMENT

? Decreases midstream design changes
? Limits post introduction problems
? Avoids future development redundancies
3. Promotes Team Work
? Based on consensus
? Creates communication
? Identifies actions
4. Provides Documentation
? Documents rationale for design
? Adds structure to the information
? Adapts to changes (a living document)

THE STEPS IN BUILDING A HOUSE OF QUALITY ARE :
List Customer Requirements (WHAT?s)
List Technical Descriptors (HOW?s)
Develop a Relationship Matrix Between WHAT?s and HOW?s
Develop an Inter-relationship Matrix between HOW?s
Competitive Assessments
a. Customer Competitive Assessments
b. Technical Competitive Assessments
6. Develop Prioritized Customer Requirements
7. Develop Prioritized Technical Descriptors
1.
2.
3.
4.
5.

Technical Descriptors

Relationship between
Requirements and
Descriptors

Prioritized

Technical Descriptors

Prioritized
Customer Requirements

Customer Requirements
(Voice of the customer)

(Voice of the organization)

TQM/VMSS/M.B.A/N.P.R.C.E.T??

Interrelationship
Between
Technical Descriptors

40

TOTAL QUALITY MANAGEMENT

COMPONENTS OF HOQ DIAGRAM
1. customer requirements
o derived from customer statements
2. customer importance
o numeric rating of customer's priority for each requirement 3. technical requirements
o measurable specification defined by manufacturing company/project team o define how customer's requirements will be met
4. interrelationship matrix
o design team's perception of relationship between customer requirements and technical requirements
o usually rated as weak, medium, or strong
5. technical priorities
o usually rated 1-5
o details priorities, measure of competing product performance and difficulty
developing technical requirement
6. technical correlation matrix
o relationship between technical requirements
o usually classified as positive, negative, strong positive, or strong negative

TQM/VMSS/M.B.A/N.P.R.C.E.T??

PHASES
1. Product planning
a. customer specification turned into requirements
2. Part deployment
a. requirements turned into parts requirements
3. Process planning
a. process selected to meet part requirements
4. Process control
a. process control, inspection and test methods developed

41

TOTAL QUALITY MANAGEMENT

FAILURE MODE EFFECT ANALYSIS (FMEA)
FMEA is an analytical technique that combines the technology and experience of people in identifying foreseeable failure modes of a product or process and planning for its elimination. It is a group of activities comprising the following:

1. Recognize the potential failure of a product or process.
2. Identify actions that eliminate / reduce the potential failure. 3. Document the process.
Two important types of FMEA are

INTENT OF FMEA:
? Continually measuring the reliability of a machine, product or process. ?
To detect the potential product - related failure mode.
? FMEA evaluation to be conducted immediately following the design phase. BENEFITS OF FMEA:
? Having a systematic review of components failure modes to ensure that any failure produces minimal damage.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

? Design FMEA
? Process FMEA

42

TOTAL QUALITY MANAGEMENT
?
?
?
?
?
?

Determining the effects of any failure on other items.
Providing input data for exchange studies.
Determining how the high-failure rate components can be adapted to high-reliability components. Eliminating / minimizing the adverse effects that failures could generate. Helping uncover the misjudgments, errors etc.

Reduce development time and cost of manufacturing.

FMEA TEAM:
Engineers from
- Assembly
- Manufacturing
- Materials
- Quality

- Service
- Supplier
- Customer
FMEA DOCUMENTATION:
The purpose of FMEA documentation is
? To allow all involved Engineers to have access to others thoughts ? To design and manufacture using these collective thoughts (promotes team approach) CONCEPT FMEA (CFMEA)
The Concept FMEA is used to analyze concepts in the early stages before hardware is defined (most often at system and subsystem).
It focuses on potential failure modes associated with the proposed functions of a concept proposal.
This type of FMEA includes the interaction of multiple systems and interaction between the elements of a system at the concept stages.

The Design FMEA is used to analyze products before they are released to production. It focuses on potential failure modes of products caused by design deficiencies. Design FMEAs are normally done at three levels – system, subsystem, and component levels. This type of FMEA is used to analyze hardware, functions or a combination. SYSTEM

DESIGN FMEA

SUB SYSTEM

43

COMPONENT
CONCEPT FMEA

TQM/VMSS/M.B.A/N.P.R.C.E.T??

DESIGN FMEA (DFMEA)

SYSTEM

TOTAL QUALITY MANAGEMENT

DESIGN FMEA (DFMEA)
The Design FMEA is used to analyze products before they are released to production. It focuses on potential failure modes of products caused by design deficiencies. Design FMEAs are normally done at three levels – system, subsystem, and component levels. This type of FMEA is used to analyze hardware, functions or a combination. PROCESS FMEA (PFMEA)

The Process FMEA is normally used to analyze manufacturing and assembly processes at the system, subsystem or component levels.
This type of FMEA focuses on potential failure modes of the process that are caused by manufacturing or assembly process deficiencies.


Kaoru Ishikawa developed seven basic visual tools of quality so that the average person could analyze and interpret data.
These tools have been used worldwide by companies, managers of all levels and employees.

The seven basic statistical tools are
HISTOGRAMS
SCATTER DIAGRAM AND STRATIFICATION
PARETO DIAGRAM
CHECK-SHEET

TQM/VMSS/M.B.A/N.P.R.C.E.T??

SEVEN OLD STATISTICAL TOOLS

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TOTAL QUALITY MANAGEMENT
CAUSE AND EFFECT DIAGRAM
FLOW CHART
CONTROL CHARTS
1. HISTOGRAMS

Number of Errors

Tally of Number of Errors

------------------------------0 1 3 0 1 0 1 0
1 5 4 1 2 1 2 0
1 0 2 0 0 2 0 1
2 1 1 1 2 1 1
0 4 1 3 1 1 1
1 3 4 0 0 0 0
1 3 0 1 2 2 3
-------------------------------

------------------------------------------------------------------Number Non Tabulation
Freq.
-conforming
------------------------------------------------------------------0 IIII IIII IIII
15
1
IIII IIII IIII IIII
20
2
IIII III
8
3
IIII
5

4
III
3
5
I
1
------------------------------------------------------------------It represents variation in sets of data through bar charts, thus demonstrating „distribution? in the level of variation
It is characterized by three constituents a centre, a width, and an overall shape.

20

15
Frequency
10

5

0
1
2
3
4
5
Number Non-confirming

SCATTER DIAGRAM AND STRATIFICATION
In scatter diagram, three types of co-relations exist.
1. Positive correlation.
2. Negative correlation.
3. No correlation.
Purpose of the scatter diagram is thus; to display what happens to one variable when another variable is changed.

The diagram is used to test a theory, that the two variables are related.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

0

45

TOTAL QUALITY MANAGEMENT
PARETO DIAGRAM

? Joseph Juran observed that most of the quality problems are generally created by only a few causes. ? For example, 80% of all internal failures are due to one (or) two manufacturing problems. ? Identifying these “vital few” and ignoring the “trivial many” will make the corrective action give a high return for a low money input.

VITAL FEW
36.4 %
27.3 %
22.7 %
TRIVIAL MANY

Others

Miss sharpen

Less polishing

Scratches

Rough Surface

Surface pits

Cracks

Surface scars

4% 3%
2% 3% 1% 2%

Incomplete

40
35
30
25
20
15
10
5

PARETO DIAGRAM

CHECK-SHEET

CHECK SHEET
Product : Bicycle
Nonconformity Type
Check
Total
---------------------------------------------------------------------------------------------------------------Blister IIII
IIII
IIII
IIII
I
21
IIII

IIII

IIII

Drips

IIII

IIII

IIII

15
IIII

IIII

25

Others
IIII
IIII
IIII
IIII
IIII
25
---------------------------------------------------------------------------------------------------------------TOTAL 86
----------------------------------------------------------------------------------------------------------------

TQM/VMSS/M.B.A/N.P.R.C.E.T??

Light spray

46

TOTAL QUALITY MANAGEMENT
CAUSE AND EFFECT DIAGRAM

CAUSE AND EFFECT DIAGRAM
DRAUGHT
SYSTEM
IMPROPER
FUNCTION
OF FD FAN

IMPROPER
FUNCTION
OF SA FAN

FUEL
INCREASED
MOISTURE
CONTENT

NON-UNIFORM
FLOW OF FUEL
NATURE OF
BAGASSE
FIBRE

INCREASED
SUGAR
CONTENT

IMPROPER
FUNCTION
OF ID FAN

VARIATION IN
STEAM
GENERATION
VARIATION
IN BOILER
WATER pH

VARIATION IN
WATER LEVEL
IN DRUM

VARIATION
IN BOILER
WATER TDS
WATER

VARIATION IN
FEED WATER
TEMPERATURE

BOILER
WATER
QUALITY

STEPS IN CONSTRUCTING A CAUSE ; EFFECT DIAGRAM:

FLOW CHART
Flowcharts are pictorial representation of a process.
By breaking the process down into its constituent steps, flowcharts can be useful in identifying where errors are likely to be found in the system.
Example , the flowchart simplifies the analysis and gives some indication as to what event may be adversely impacting the process.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

a. Define the problem or effect to be analyzed.
b. Form the team to perform the analysis. Often the team will uncover potential causes through brainstorming.
c. Draw the effect box and the centerline.
d. Specify the major potential cause categories and join them as boxes connected to the centerline. e. Identify the possible causes and classify them into the categories in step d. Create new categories, if necessary.

f. Ranks order the causes to identify those that seem most likely to impact the problem. g. Take corrective action.

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TOTAL QUALITY MANAGEMENT
Mail
receiving
Dock

Mail
storage

Add coloring to
plastic

Feed plastic into
mold

Mold tags

Load onto
conveyor

Yes
Engrave tags

Customize

Stamp tags

Trim tags

No
Assemble tags

Package tags

End

TQM/VMSS/M.B.A/N.P.R.C.E.T??

CONTROL CHARTS
Control Charts were introduced in 1931 by Walter Shewhart who concluded that is distribution can be transformed into a normal shape by estimating its mean and standard deviation through central limit theorem.

Using central limit theorem, upper and lower control limit are set at 3 standard deviations which covers 99.73% of the values of the quality circle critical variable.

48

Sample quality characteristic

TOTAL QUALITY MANAGEMENT

Upper control limit

Centre line
Lower control limit

Sample number or time
A Typical Control Charts

SEVEN NEW MANAGEMENT TOOLS
Affinity diagram
Inter – relationship diagram
Tree diagram
Matrix diagram
Matrix data diagram
Process Decision Programme Chart
Arrow diagram
BENCH MARKING
Benchmarking is a systematic method by which organizations can measure themselves against the best industry practices.

BENCHMARKING CONCEPT
What is our performance
level ?
How do we do it ?

What are others performance
level ?
How did they get there?

Creative
Adaptation

TQM/VMSS/M.B.A/N.P.R.C.E.T??

? Benchmarking is a systematic search for the best practices, innovative ideas, and highly effective operating procedures.

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TOTAL QUALITY MANAGEMENT

REASONS TO BENCHMARK:
It is a tool to achieve business and competitive objectives
It can inspire managers (and Organizations) to compete
It is time and cost effective
It constantly scans the external environment to improve the process Potential and useful technological breakthroughs can be located and adopted early

EngineS OF BENCHMARKING
a. Strategic Benchmarking
a. Used where organizations seek to improve their overall performance by examining the long-term strategies and general approaches that have enabled high-performers to succeed.
b. Performance Benchmarking
a. Or competitive Benchmarking is used where organizations consider their positions in relation to performance characteristics of key products and services. c. Process Benchmarking
a. Used when the focus is on improving specific critical processes and operations. d. Functional Benchmarking
a. Or Generic Benchmarking is used when organizations look to benchmark with partners drawn from different business sectors or areas of activity to find ways of improving similar functions or work processes.

e. Internal Benchmarking
a. Involves seeking partners from within the same organization, i.e., from business units located in different areas.
f. External Benchmarking
a. Involves seeking outside organizations that are known to be best in class. g. International Benchmarking
a. Used where partners are sought from other countries because best practitioners are located elsewhere in the world and/ or there are too few benchmarking partners within the same country to produce valid results.

PROCESS OF BENCHMARKING

The following six steps contain the core techniques of Benchmarking 1. Decide what to benchmark

TQM/VMSS/M.B.A/N.P.R.C.E.T??

?
?
?
?
?

50

TOTAL QUALITY MANAGEMENT
? Benchmarking can be applied to any business or production process ? The strategy is usually expressed in terms of mission and vision statements ? Best to begin with the mission and critical factors

? Choosing the scope of the Benchmarking study
? Pareto analysis – what process to investigate
? Cause and Effect diagram – for tracing outputs back
2. Understand current performance
? Understand and document the current process
? Those working in the process are the most capable of identifying and correcting problems ? While documenting, it is important to quantify
? Care should be taken during accounting information
3. Plan
? A benchmarking team should be chosen
? Organizations to serve as the benchmark need to be identified ? Time frame should be agreed upon for each of the benchmarking tasks There are three types of benchmarking
a. Internal
b. Competitive
c. Process
4. Study Others

Benchmarking studies look for two types of information
? How best the processes are practiced
? Measurable results of these practices
Three techniques for conducting the research are

? Is there a gap between the organization?s performance and the performance of the best-in-class organizations?
? What is the gap? How much is it?
? Why is there a gap? What does the best-in-class do differently that is better? ? If best-in-class practices were adopted, what would be the resulting improvement? Benchmarking studies can reveal three different outcomes

? Negative gap
? Parity
? Positive gap
6. Using the findings
The objective is to close the gap. For this
? Findings must be communicated to the people within the organization ? Action plans must be developed to implement new processes Groups that must agree on the change

TQM/VMSS/M.B.A/N.P.R.C.E.T??

? Questionnaires
? Site visits
? Focus groups
5. Learn from the data
Answering a series of questions like

51

TOTAL QUALITY MANAGEMENT
? Process owners
? Upper management

Steps for the development and execution of action plans are
1.
2.
3.
4.
5.
6.
7.

Specify tasks
Sequence tasks
Determine resources needs
Establish task schedule
Assign responsibility for each task
Describe expected results
Specify methods for monitoring results

PITFALLS AND CRITICISMS OF BENCHMARKING:
?
?
?
?

Idea of copying others
It is not a cure or a business philosophy
Some process have to be benchmarked repeatedly
It is not a substitute for innovation

BENEFITS FROM BENCHMARKING
Step changes in performance and innovation
Improving quality and productivity
Improving performance measurement

POKA YOKE
Japanese term coined by a Japanese engineer named Shingeo Shingo originally
called as BakaYoke means „FOOL PROOFING?, developed based on the answers to the following questions pertaining to a defect on a product/part.

1. What is the defect?
2. When is the defect discovered?
3. What are the standard elements involved in making the part or assembly? 4. What mistakes or errors are made?
5. Why are the mistakes made?

TQM/VMSS/M.B.A/N.P.R.C.E.T??

Benchmarking can also have a beneficial effect on aspects needed to support continuous improvement, such as:
Raised awareness about performance and greater openness about relative strengths and weaknesses;
Learning from others and greater confidence in developing and applying new approaches. Greater involvement and motivation of staff in change programmes Increase in willingness to share solutions to common problems and build consensus about what is needed to accommodate changes;

Better understanding of the „big picture? and gaining a broader perspective of the interplay of the factors (or enablers) that facilitate the implementation of good practice; and Increasing collaboration and understanding of the interactions within and between organizations.

52

TOTAL QUALITY MANAGEMENT
CHARACTERISTICS
1. Capable of being used all the time by all workers.
2. Usually installed with low implementation cost.
3. Provides instantaneous feedback, prevention or correction. 4. A component is not having the correct shape or form, then the production process should defect it before performing any operation on it.

STEPS OF Poka Yoke
The key steps of Poka Yoke are as listed below:
1. Select a pilot process or a trouble-some area of the facility of interest. 2. Ask the workers to make a list of most common mistakes that result in the loss of materials/unproductive time in these areas.

3. Workers should use Pareto analysis to rank order these errors according to their frequency of occurrence.
4. Workers should rank the errors according to their importance and impact on the process and the environment.
5. Workers should develop Poka Yoke devices in consultation with engineering and design staff that eliminate the top ranked errors from both lists.
6. The implementation team should analyze the errors, frequency and their respective cost before any Poka Yoke methods.
BENEFITS OF Poka Yoke
The important benefits are listed below
1. Reduction in waste and associated machining as nonconforming material is identified at each stage rather than an inspection stage between several pairs of stages. 2. Reduction of waste in the system leads to reduction in Inventory holdings. 3. Extended life of machines is possible if the production is set for a specific production rate since they always produce good quality product. This avoids unnecessary run of the machines to cope up with the defective production of parts.

4. Improvement in customer satisfaction levels because better quality product is delivered to them. 5. Improvement in employee?s relationship as it encourages more involvement of operators and team members.

LIMITATIONS
Certain limitations are
1. It increases the time of inspection that the operator would spend on his job. 2. Increased time of inspection does not mean reduced cost of scrap in the long run. 3. In short term, there will be a sharp increase in scrap materials cost. 2 marks Questions

1. Define Benchmarking?

TQM/VMSS/M.B.A/N.P.R.C.E.T??

CLASSIFICATION
1. Prevention based Poka Yoke
2. Detection based Poka Yoke
3. Places where Poka works well

53

TOTAL QUALITY MANAGEMENT
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.

Enumerate the steps to benchmark?
What are the types of benchmarking?
What is a QFD?

What are the benefits of QFD?
What are the parts of house of quality?
How will you build a house of quality?
Define FMEA?
What are the stages of FMEA?
What are the phases of QFD process?
What are the several types of FMEA?
Give the seven tools of quality?
What are the new seven management tools?
Give the usage of C;E diagrams?
What are the various histogram shapes?
Define Six Sigma?
What are Poka yoke?
What are the benefits of Poka yoke?
List out the limitations of Poka yoke?
Write the steps of Poka yoke principles?

UNIT V

TQM/VMSS/M.B.A/N.P.R.C.E.T??

16 marks questions
1. What is FMEA?Explain the stages of FMEA?
2. Explain the House of Quality in Quality Function Deployment? 3. Explain the QFD process?
4. explain the concepts of Six Sigma?
5. Explain the Seven Management Tools?
6. Explain the QC or SPC tools?
7. Explain how the employee will be involved in doing a process? 8. Relate PDCA with 5S and explain?
9. Briefly explain the various types of FMEA/
10. Select an Electric motor of a specific application and draw a comprehensive house of quality matrix?

54

TOTAL QUALITY MANAGEMENT

QUALITY SYSTEMS ORGANIZING
AND IMPLEMENTATION

Introduction to IS/ISO 9004:2000 – quality management systems – guidelines for performance improvements. Quality Audits. TQM culture, Leadership – quality council, employee involvement, motivation, empowerment, recognition and reward- Introduction to software quality.

INTRODUCTION TO IS/ISO 9004:2000
International standardization began in the electro technical field: the international electro Commission (IEC) was established in 1906.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

UNIT V QUALITY SYSTEMS ORGANIZING AND IMPLEMENTATION

55

TOTAL QUALITY MANAGEMENT
ISO (International Organization for Standardization) is a network of the national standards institutes of 156 countries, on the basis of one member per country, with a central secretariat in Geneva, Switzerland, that coordinates the system.

The objective of ISO is to promote the development of standardization and related activities in the world with a view to facilitating international exchange of goods and services, and to developing cooperation in the spheres of intellectual, scientific, technological and economic activity.

The results of ISO technical work are published as International Standards. Bureau of Indian Standards (BIS) is the Indian representative of ISO. ISO is the world?s largest developer of standards that makes a positive difference,
not just to engineers and manufacturers for whom they solve basic problems in production and distribution, but to society as a whole.

ISO provide governments with a technical base for health, safety and environmental legislation. ISO 9000 STANDARDS
ISO 9000 series has five international standards on quality management. ISO 9001
ISO 9002
ISO 9003
ISO 9004
STANDARD

OBJECTIVE/TASK
Guidelines on selection and use of quality management and quality assurance standard

ISO 9001

Applicable for the industries which are doing their own design and development, production, installation and servicing. It has 20 elements.

ISO 9002

Applicable for the units excluding R ; D functions. It has 18 elements.

ISO 9003

It covers the final inspection and testing for laboratories and warehouses etc., it has 12 elements

ISO 9004

It provides guidelines to interpret the quality management and quality assurance.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

ISO 9000

56

TOTAL QUALITY MANAGEMENT
ISO 9001
Design, Development, Production, Installation ; Servicing
ISO 9002
Production, Installation ; Servicing
ISO 9003
Inspection ; Testing
ISO 9004
Provides guidelines on the technical, administrative and human factors affecting the product or services BENEFITS OF ISO 9000 STANDARDS:
?
?
?
?
?
?
?
?
?
?
?
?

Achievement of international standard of quality.
Higher productivity.
Value for money.
Customer satisfaction.
Growth of the organization
Competitive advantage in the global market.

Increased profitability
Improved corporate image
Access to global market.
Consistency in quality.
Higher morale of employees
Increased job satisfaction.

The title Quality Management Systems is ISO 9004:2000- Guidance for Performance Improvement.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

QUALITY MANAGEMENT SYSTEMS

57

TOTAL QUALITY MANAGEMENT
It provides guidance on quality management systems as a means for continual improvement of processes that contribute to the satisfaction of an organization?s customers and other interested parties.

The eight quality management principles are defined in ISO 9000:2000, Quality management systems Fundamentals and vocabulary, and in ISO 9004:2000, Quality management systems guidelines for performance improvements.

GUIDELINES FOR PERFORMANCE MEASUREMENT

11 Customer Focus

12 Leadership

13 People involvement

STATEMENT

KEY BENEFITS

Organizations depends on their
customers and therefore should
understand current and future
customer needs, should meet
customer requirements and
strive to exceed customer
expectations.

Increased revenue.

Leaders establish unity of
purpose and direction of the
organization.
They
should
create and maintain the internal
environment in which people
can become fully involved in
achieving the organization?s
objectives

Employee motivation

People at all levels are the
essence of an essence of
organization and their full
involvement
enables
their
abilities to be used for the
organization?s benefit.

People

involvement,
commitment
and
motivation
within
organization.

Increased
satisfaction

customer

Improved
loyalty.

customer

Minimization
in
miscommunication
between the levels of
organization.
Activities are evaluated,
aligned
and
implemented.

Innovation
and
creativity in furthering
the
organization?s
objectives.
People
performance

being accounted.
People?s participation.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

PRINCIPLE

58

TOTAL QUALITY MANAGEMENT
14 Process approach

A desired result is achieved
more efficiently when activities
and related resources are
managed as a process.

Lower cost and shorter
cycle times through use
of resources.
Improved,
consistent
and predictable results.
Focused and prioritized
improvement
opportunities.

15 System approach
management

to Identifying, understanding and
managing interrelated processes
as a system contributed to the
organization?s effectiveness and
efficiency in achieving its

objectives

Integration
alignment
process.

and
the

of

Ability to focus on the
key process.
Provide confidence to
interested parties.

Continual improvement of the
organization?s
overall
performance should be a
permanent objective of the
organization.

Performance advantage.
Alignment
of
improvement activities
at all levels
Flexibility to
quickly
opportunities.

17 Factual approach
decision making

to Effective decisions are based on
the analysis of data and
information

react
to

Informed decisions.
Increased ability to
demonstrate
the
effectiveness of past
decisions
through
reference to factual
records.
Increased ability to
review, challenge, and
change opinions and
decisions.

18 Mutually

beneficial An organization and its
suppliers are interdependent and

Increased

ability

to

TQM/VMSS/M.B.A/N.P.R.C.E.T??

16 Continuous

improvement

59

TOTAL QUALITY MANAGEMENT
supplier relationships

a
mutually
beneficial
relationship enhances the ability
of both to create value.

create value.
Flexibility and speed of
joint responses.
Optimization of costs
and resources.

IMPLEMENTATION A QUALITY SYSTEM
Analyze your business
Plan your approach
Decide if new processes are necessary
Check that the processes are working
Revise processes
QUALITY AUDIT
The term Audit refers to a regular examination and checking of accounts or financial records, settlement or adjustment of accounts.
It also refers to checking, inspection and examination of Production Processes. Quality Audit means a systematic, independent examination of a quality system. PURPOSE OF QUALITY AUDIT:

1. First – Party Audit.
2. Second – Party Audit.
3. Third – Party Audit.

Quality audit can also be classified on the basis of the area taken into account for the audit such as ?
?
?
?

System Audit.
Process Audit.
Product Audit.
Adequacy Audit.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

? To establish the adequacy of the system.
? To determine the effectiveness of the system.
? To afford opportunities for system analysis.
? To help in problem solving.
? To make decision making easier etc.
EngineS OF QUALITY AUDIT:

60

TOTAL QUALITY MANAGEMENT
? Compliance Audit.
QUALITY AUDIT DOCUMENTATION
In every organization, the quality system must be documented properly. The documentation of the system can be seen as a hierarchical format as shown.
1
POLICY

2
PROCEDURE

3
PRACTICE

4
PROOF
There are 3 documents
1. Audit plan
a. The audit plan is sent to the department being audited a few days prior, it should include the date of the audit, the planned time, duration, auditors names, location and the policies and procedures that will be used during the audit.

2. Audit notes
a. The notes are the Auditor?s questions that will be asked during the audit. 3. Audit report
a. The audit report is the official document used to report the findings of the audit.

Total Quality Management is an approach to the art
of management that originated in Japanese industry
in the 1950?s and has become steadily more popular
in the west since 1980?s.
Total Quality is a description of the culture, attitude
and organization of a company that aims to provide,
and continue to provide, its customers with products
and services that satisfy their needs.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

TQM CULTURE

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TOTAL QUALITY MANAGEMENT
The culture requires quality in all aspects of the company?s operations, with things being done right first time, and defects and waste eradicated from operation. TQM has achieved either significant or even tangible improvements
in quality, productivity, competitiveness or financial return.

INFORMATION FROM RESULTS OF TQM IMLEMENTATION
Look at the world class companies.
Train top management, people involve in new product development, and people involved with customers.
Easy to introduce TQM culture than in one without TQM.
Some important aspects of TQM include
Customer-driven quality
TM leadership from top management
Continuous improvement
Fast response
Action based on facts
Employee participation
Developing a TQM culture
Product development in a TQM environment
Awards for quality achievement
Leadership in TQM

LEADERSHIP CONCEPT

1.
2.
3.
4.
5.
6.

People, Paradoxically, need security and independence at the same time.
People are sensitive to external and punishments and yet are also strongly self - motivated.
People like to hear a kind word of praise. Catch people doing something right, so you can pat them on the back.
People can process only a few facts at a time; thus, a leader needs to keep things simple.

People trust their gut reaction more than statistical data.
People distrust a leader?s rhetoric if the words are inconsistent with the leader?s actions.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

A leader should have the following concepts

62

TOTAL QUALITY MANAGEMENT

LEADERSHIP PRINCIPLES
A Leadership principle would be the way leadership is preformed within an organization. Or itself the principles that people them should take the lead. In order to perform the leadership development directed to its goal one should first workout the leadership principles. Some examples are:

Lead the people
Solve the problem
Give staff the space for decision making and the opportunity to take pride in their work. QUALITY COUNCIL
Quality council is a catalyst for Total Quality Management. To build quality as a culture of the organization, the quality council should do the following duties: Develop with input from all personnel, the core values, the vision statement, mission statement and quality policy statement.

Develop the strategic long-term with goals and the annual quality improvement program with objectives.
Create the total education and training plan.
Determine and continually monitor the cost of poor quality.
Determine the performance measures for the organization, approves those for the functional areas and monitor them.
Continually determine those projects that improve the processes, particularly those that affect external and internal customer satisfaction.

Establish or revise the recognition and reward system to account for the new way of doing business.
Regular meeting of quality council should be conducted with the following meeting agenda. Progress reports on team
Customer satisfaction report
Progress on meeting goals.
New project teams

TQM/VMSS/M.B.A/N.P.R.C.E.T??

Establish multi functional project and departmental or work group teams and monitor their progress.

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TOTAL QUALITY MANAGEMENT
Benchmarking report
Recognition dinner
EMPLOYEE INVOLVEMENT
Employee involvement is a vital factor for implementing and improving quality and productivity. Employee involvement, participation, and empowerment form the cornerstone of TQM. EMPLOYEE MOTIVATION

Motivation has been defined as: the psychological process that gives behavior purpose and direction; Motivation is operationally defined as the inner force that drives individuals to accomplish personal and organizational goals.

NEED FOR EMPLOYEE MOTIVATION
Motivated employees are needed in our rapidly changing workplaces. Motivated employees help organizations survive.
Motivated employees are more productive.
Managers need to understand what motivates employees within the context of the roles they perform. THEORIES ON MOTIVATION:

Five approaches that have led to our understanding of motivation are: Maslow?s need- hierarchy theory
Herzberg?s two-factor theory
Vroom?s expectancy theory
Adam?s equity theory, and
Skinner?s reinforcement theory

TQM/VMSS/M.B.A/N.P.R.C.E.T??

MASLOW’S NEED HIERARCHY OF MOTIVATION

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Maslow argued that lower level needs had to be satisfied before the next higher level need would motivate employees.
HERZBERG?S work categorized motivation into two factors, namely: Motivation – intrinsic factors such as achievement and recognition Hygiene – extrinsic factors such as pays and job security.

VROOM?S theory is based on the belief that employee effort will lead to performance and performance will lead to rewards.

SKINNER?S theory simply states those employees? behaviors that lead to positive outcomes will be repeated and behaviors that lead to negative outcomes will not be repeated. EMPLOYEE EMPOWERMENT
The concept of empowerment is to delegate responsibility to the lowest levels in the organization. The decision making should be to a high degree decentralized and individuals or work designed teams should be responsible for a complete part of work processes. Participative management has become a key word in empowerment.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

ADAM?S theory states that employees strive for equity between themselves and
other workers.

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The most crucial critical success factor in TQM is to recognize the importance of living up to customers? expectation.
Internal satisfaction can be achieved in the following ways: Establish a high degree of participative management.
Decentralization of hierarchy power structures.
Create a large degree of autonomy throughout the organization. Development of effective work groups.
The employee empowerment can have the following phases:
Training
Suggestion scheme
Measurement and recognition
Excellence teams
RECOGNITION AND REWARD
Employee recognition is a communication tool that reinforces and rewards the most important outcomes people create for our business.
When we consider employee recognition processes, we need to develop recognition that is equally powerful for both the organization and the employee. Five important tips for effective recognition
Establish criteria for what performance constitutes reward able behavior. All employees must be eligible for the recognition.
Anyone who then performs at the level or standard stated in the criteria receives the reward.

REWARDING:
Rewarding means providing incentives to and recognition of employees, individually and as members of group, for their performance and acknowledging their contributions to the organization?s mission.

Information Technology (IT) or information and communication technology (ICT) is the technology required for information processing.

Computers can contribute to quality functions in many ways and they are classified as Provide access to design by the experts.
Simulate the production process and the sensitivity of the design. Evaluate a production design for manufacturability, etc.
Indicate possible problems and suggest remedies during design. Plan a manufacturable production process, etc.
Act as a continuously updated quality engineering record.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

ROLE OF INFORMATION TECHNOLOGY IN QUALITY MANAGEMENT

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Generally the software packages for quality function are available in the following category. Calibration
Capability studies
Data acquisition
Design of experiment
Inspection
Management
Measurement
Quality assurance.
Quality cost
Simulation
Statistical process control
Taguchi techniques,
Different forms of programs like CAD, FEM, and knowledge based systems intended for quality functions.

INFORMATION QUALITY ISSUES
In creating new software, the primary issue is the lack of sufficient communication between the user and the software developer. To overcome this problem we can adopt project management approach to plan and control quality
software development.. The main elements of such programs draw upon some of the techniques used in controlling the quality and reliability of physical products. Emphasis is on both detection and prevention of errors. The elements usually include:

Design review
Documentation review
Validation of software rests.
Corrective action system
Configuration management.

TQM/VMSS/M.B.A/N.P.R.C.E.T??

QUALITY INFORMATION SYSTEM
A quality information system is an organized method of collecting, storing, analyzing and reporting information on quality to assist decision makers at all levels of management. The inputs for quality information system include:

Market research information on quality
Product design test data
Information on design evaluation for quality
Information on purchased parts and materials
Process data
Final inspection data
Field performance data
Result of quality measurement

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2 marks Questions
1. Give the ISO 9000 Series of Standards?
2. What is the need for ISO 9000?
3. Give the objectives of the internal audit?
4. What are the requirements of ISO 14001?

5. Analyze TQM?
6. Define Quality Audits ?
7. What are the benefits of ISO?
8. Give the ISO 9001 requirements?
9. What are the methods of actual audit?
10. What is needed for a leader to be effective?
11. What is the important role of senior management?
12. What are the general duties of a quality council?
13. Define Employee Involvement?
14. State Maslow?s Hierarchy of Needs?
15. State Frederick Herzberg?s Two-factor theory?
16. What does an employee want?
17. What are the concepts to achieve a motivated work force? 18. Define Empowerment?
19. What are the three conditions necessary to create the empowered environment? 20. What are the stages of team development?

16 marks Questions
1. Explain in detail the examples of ISO/QS 9000?
Explain the quality management systems?

Describe how the ISO auditing system works?
Explain how motivation helps in TQM?
Explain the required qualities of a team leader?
How and when should we empower people/

Explain the Bench marking Process and reasons to Benchmark?
Explain the elements of ISO 9000:2000?
Explain the implementation and documentation of Quality System? Discuss about ISO 9000:2000 Quality Systems?

TQM/VMSS/M.B.A/N.P.R.C.E.T??

2.
3.

4.
5.
6.
7.
8.
9.
10.

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TOTAL QUALITY MANAGEMENT

Model Question Paper – 1
Part A (10 x 2 = 20 Marks)
1. Define Quality as per Ed. Deming?
2. What do you understand by quality statement?
3. Explain: Empowerment?
4. Explain: Supplier selection?
5. List out various measurements of dispersion in SPC?
6. Explain the rules to be followed in sample selection?
7. List down the pillars of TPM?
8. Expalin: Taguchi Quality Loss Function?
9. Explain about NCR?
10. Explain the need for the quality systems in an organization? Part B (5x16=80 Marks)
11. (a).(i) List out the barriers of TPM implementation?[ 8] (ii). Discuss about the analysis techniques for the quality cost?[ 8] (or)
(b). (i). Explain the principles of TQM?[ 8] (ii) Explain about the strategic planning?[ 8] 12. (a). Explain the following:(i). 5S[ 5] (ii) Kaizen[ 5] (iii) Supplier rating and relationship diagram[ 6] (or)

(b) Discuss about Maslow's need hierarchy theory and Herzberg's two factor theory for motivation?[16]

(b) Discuss the need, construction and applications of control charts for
variables. [16] 14. (a). Discuss the objectives, process, outcome and benefits of FMEA?[16] (or)
(b). Explain about the following :(i). QFD process[8] (ii). Benchmarking process[8] 15.(a). (i). Explain about quality system auditing?[8]
(ii) Discuss the implementation of ISO:9000:2000 quality systems?[8] (or)

TQM/VMSS/M.B.A/N.P.R.C.E.T??

13. (a). Explian in detail: (i). Process capability[ 8] (ii). Six sigma[ 8] (or)

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TOTAL QUALITY MANAGEMENT
(b).(i). Explain about the documentation process in ISO 9000:2000 systems? [8] (ii) Discuss ISO 14000 requirements and its benefits?[ 8]

Model Question Paper - 2
Answer ALL questions
PART A —— (10 x 2 = 20 marks)
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.

What are the activities of quality planning
What is the philosophy behind „Management by Wandering Around? (MBWA)? What are the important factors that influence purchase?
Is cleanliness the only benefit of implementing „5 S? practices? What is the
purpose of Pareto Diagrams?
How are the measures of central tendency used in quality analysis? What are the reasons for benchmarking?
What are the losses reduced by TPM?
What is the purpose of ISO 9000 quality system?
How does the conceptual approach to ISO 14001 differ from ISO 9001? PART B —— (5 X16 = 80 marks)

11. (a) (i) 'What are the dimensions of quality? Discuss eight of them. (8) (ii) What are the duties of quality council? (8)
(Or)

12. (a) (i) What is the concern of most consumer? Is it price of the product or service? Explain in detail.(4)
(ii) What are the different ways of receiving customer feedback? How are the feedback used? (12) (or)
(b)(i) What are the types of teams formed in industries? Discuss the functions of any four of them(8) (ii) How is PDSA cycle used? Discuss with a case study. • (8)

TQM/VMSS/M.B.A/N.P.R.C.E.T??

(b) (i). What are the steps in strategic planning? l (8)
(ii) What are the barriers to TQM., implementation? How are they eliminated?(8)

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TOTAL QUALITY MANAGEMENT
13. (a) (i) Draw cause and effect diagram for an engineering problem. (8) . (ii) What are the interpretations of different shapes of histograms? (8) . ` (or)
(b) (i) An industrial product was subjected to inspection with a batch size of 5-00 for ten consecutive days- The number of defective pieces found are 33, 42, 44, 56, 60, 43, 55, 42, 28.and 70. Draw a p-chart and discuss. (12)

(ii) How is Process Decision Program Chart (PDPC) used? Give an example. (4) 14. (a) Draw the house of quality for an industrial product. Explain various 4 stages. . (16)
(or)
(b) How is FMEA performed? Discuss with an example; Draw the table and give details. (16)

TQM/VMSS/M.B.A/N.P.R.C.E.T??

15. (a) (What are the steps in the implementation of ISO 9000 quality system. Discuss in detail. (16) (or)
(b) (i) Discuss the environmental management system model with a block diagram.(10) (ii) What are the global benefits of environmental management system? Discuss-in detail.(6)

 

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