SlideShare une entreprise Scribd logo

Quality & Quality tools

nilesh sadaphal
nilesh sadaphal

,dimensions of quality ,quality characteristics ,cost of quality ,1-10-100 rule ,deming’s cycle ,deming’s 14 principles. ,seven quality tools ,quality circle

Ingénierie
1  sur  36
Télécharger pour lire hors ligne
Quality & Quality Tools By Prof N D Sadaphal Assistant Professor Sanjivani College of Engineering, Kopargaon (Maharashtra State) 423601 Mechanical Engineering
1 PROF N D SADAPHAL MECHANICAL ENGINEERING DEPARTMENT TE Mechanical Metrology & Quality Control Quality & Quality Tools 1 Quality?  Think about a product you bought. How can you define its “quality”?  Quality has been defined in a number of ways. When viewed from a consumer’s perspective, it means meeting or exceeding customer expectations. 2
2 Dimensions of Quality 1. Performance:  Will the product/service do the intended job? 2. Reliability:  How often does the product/service fail? 3. Durability:  How long does the product/service last? 4. Serviceability:  How easy to repair the product / to solve the problems in service? 3 Dimensions of Quality (Conti…..) 5. Aesthetics:  What does the product/service look/smell/sound/feel like? 6. Features:  What does the product do/ service give? 7. Perceived Quality:  What is the reputation of the company or its products/services? 8. Conformance to Standards:  Is the product/service made exactly as the designer/standard intended? 4
3 What is Quality?  Definition of Quality: (by the quality guru’s) 1. Quality is fitness for use (comfort) _ _ _ Juran 2. Quality is conformance to requirements_ _ _ Crosby 3. Quality is a predictable degree of uniformity and dependability, at low cost and suited to the market_ _ _ Deming 4. Quality as the totality of features and characteristics of a product or service that bear on its ability to satisfy given need. _ _ _ ASQC 5 What is Quality?  “The degree to which a system, component, or process meets (1) specified requirements, and (2) customer or users needs or expectations” – IEEE  The totality of features and characteristics of a product or service that bears on its ability to satisfy stated or implied needs” – ISO 8402  Degree to which a set of inherent characteristics fulfils requirements – ISO 9000:2000 6
4 Modern Importance of QualityModern Importance of Quality 7 “The first job we have is to turn out quality merchandise that consumers will buy and keep on buying. If we produce it efficiently and economically, we will earn a profit.”- William Cooper Procter. • Quality in service industries, government, health care, and education. • Current and future challenge: keep progress in quality management alive. Statistical Quality Control Quality Assurance Quality Management Quality Characteristics •Quality of Design- design which fulfils all requirement of Customer. (method of construction, material, safety, aesthetics/appearance, reliability etc) •Quality of Conformance- degree/extent to which product conforms its specification and drawing. ability to maintain specified quality design.(i.e. control of good quality) • Quality of Performance- how well manufactured product gives performance. (Quality design + Quality conformance) • Availability- available things in product like life, maintainability and reliability. • Customer Service- service after product has been delivered. e.g. equipment installation, operational training, repair service, replacement of defective component etc. 8
5 Cost of quality Conformance Non-Conformance Quality Costs Appraisal costPrevention cost External failure cost Internal failure cost Cost Report 9 Cost of quality Cost of quality = Cost of conformance + Cost of non-conformance  Cost of conformance is the cost of providing products or services as per the required standards. This can be termed as good amount spent. (Prevention & Appraisal costs)  Cost of non-conformance is the failure cost associated with a process not being operated to the requirements. This can be termed as unnecessary amount spent.( Internal & External failure costs) 10
6 Prevention Costs  Quality planning costs  costs of developing and implementing quality management program  Product-design costs  costs of designing products with quality characteristics  Process costs  costs expended to make sure productive process conforms to quality specifications  Training costs  costs of developing and putting on quality training programs for employees  Information costs  costs of acquiring and maintaining data related to quality, and development of reports on quality performance 11 Activities associated with Prevention costs  Market research  Quality training programs.  Contract review  Design review  Field trials  Supplier evaluation  Process capability review  Design and manufacture of jigs and fixtures  Preventive checks & maintenance 12
7 Examples of prevention Cost  Equipment maintenance & repair  Fixture design and fabrication  Housekeeping  Market analysis  Procedure writing  Safety reviews  Quality training  Salesperson evaluation and selection 13 Appraisal Costs  Inspection and testing  costs of testing and inspecting materials, parts, and product at various stages and at the end of a process.  Cost of Power & material required for testing.  Test equipment costs  costs of maintaining equipment used in testing quality characteristics of products (Calibration of instrument)  Operator costs  costs of time spent by operators to gather data for testing product quality, to make equipment adjustments to maintain quality, and to stop work to assess quality 14
8 Activities associated with Appraisal costs  Proto type testing  Incoming material inspection  Process inspection/control  Final inspection  Laboratory testing / measurement  Quality audits. 15  Audit  Document checking  Diagram checking  Equipment calibration  Final inspection  In-process inspection  Laboratory test  Personnel testing  Procedure testing  Prototype inspection  Receiving inspection  Shipping inspection Examples of appraisal cost 16
9 Internal Failure Costs  Scrap costs  costs of poor-quality products that must be discarded. (fault of manufacturer/vendor)  Rework/repair costs  costs of fixing defective products to conform to quality specifications.  Extra payment made to operator to obtain required level of quality.  Process failure costs  costs of determining why production process is producing poor-quality products.  Process down-time costs  costs of shutting down productive process to fix problem.  Price-down grading costs  costs of discounting poor- quality products—that is, selling products as “seconds”. 17 External Failure Costs  Customer complaint costs  costs of investigating and satisfactorily responding to a customer complaint resulting from a poor-quality product.  Product return costs  costs of handling and replacing poor- quality products returned by customer.  Warranty claims costs  costs of complying with product warranties.  Product liability costs  litigation costs resulting from customer injury.  Lost sales costs  costs incurred because customers are dissatisfied with poor quality products and do not make additional purchases. 18
10 1-10-100 Rule $ $ $ $ $ $ $ $ $ $ 1 10 100 Prevention Correction/ appraisal (inspection/testing) Failure 19 The 1:10:100 rule  Rs.1 spent on prevention, will save Rs.10 spent on appraisal and Rs.100 on failure costs.  “The earlier you detect and prevent a defect the more you can save” 20
11 Cost of Quality Approach 21 Objective Zero defects while minimizing all four quality cost Relation Between cost/value Vs Quality 22
12 Deming’s Cycle  Deming Chain Reaction “Quality improvement is not a costly business option but a strategic imperative that is essential to business survival” Quality Cost Productivity The Deming Chain Improve Quality Decrease Costs Improve Productivity Decrease Price Increase Market Stay in Business Provide More Jobs Return on Investment 23 Deming’s Cycle PDCA 24
13 25 Plan to improve your operations first by finding out what things are going wrong (that is identify the problems faced), and come up with ideas for solving these problems. Do changes designed to solve the problems on a small or experimental scale first. This minimizes disruption to routine activity while testing whether the changes will work or not. Check whether the small scale or experimental changes are achieving the desired result or not. Act to implement changes on a larger scale if the experiment is successful. This means making the changes a routine part of your activity. Also Act to involve other persons (other departments, suppliers, or customers) to implement them on a larger scale. Deming’s 14 Principles. 1. “Create Constancy of Purpose” 2. “Adopt A New Philosophy” 3. “Cease dependence On inspection For Quality” 4. “End lowest tender contracts ” 5. “Improve Every Process Constantly / Forever” 6. “Institute Training” 7. “Adopt An Institute Leadership” 8. “Drive Out Fear” 9. “Break Barriers Between Staff Areas” 10. “Eliminate Exhortations And Targets” 11. “Eliminate Numerical Quotas” 12. “remove the barrier that rob Pride Of workmanship” 13. “Encourage For education & Self Improvement” 14. “Put everybody In The company To work For This transformation” 26
14 Juran’s Triology Approach  Joseph Juran is one of the “Guru of Quality” like Deming.  Juran defined quality as a “Fitness for purpose”  If product meets all the specifications, it may not fit for use.  Juran Trilogy consists of three basic quality-oriented processes:  quality planning  quality control  quality improvement. 27 Quality planning  The role of quality planning is to design a process that will be able to meet established goals under operating conditions.  The subject of planning can be anything -- an engineering process for designing new products, a production process for making goods, or a service process for responding to customer requests.  Quality Planning involves  Identifying customers.  Determining their needs.  Specifying the product features that satisfy those needs at minimum cost.  Designing the processes that can reliably produce those features. 28
15 Quality control  The role of quality control is to operate and correct the process, so that it performs with optimal effectiveness.  Measure actual performance of product  Compare actual performance with goals set  Do the action on difference  The process of Quality Control involves:  Establishing a measurement procedure  Measuring  Interpreting differences between measurement and goal.  Taking action to correct significant differences 29 Quality improvement  The role of quality improvement is to take the process to higher levels of performance.  Assuming the process is under control, any waste that occurs must be inherent in the design of the process.  The object of quality improvement is to reduce waste to a much lower level.  The steps in Quality Improvement:  Identify specific area for improvement.  Diagnose the causes.  Provide remedies.  Prove that the remedies are effective under operating conditions. 30
16 Seven Quality Tools  Cause and Effect Diagrams  Flow Charts  Check-sheets  Histograms  Pareto Charts  Control Charts  Scatter Diagrams 31 Understand the root causes of a problem BEFORE you put a “solution” into place Investigate the Root Causes Cause and Effect Diagrams 32
17 Cause & Effect Diagrams  Identify many different possible causes for a problem  See the relationships between the many causes  Helps determine which data to collect Why are cause and effect diagrams helpful? Focused problem Root cause Root cause Root cause Root cause 33 34 Cause and Effect Diagrams/Fish bone diagram/Ishikawa diagram
18 35 36
19 37 Cause and Effect Diagrams/Fish bone diagram/Ishikawa diagram Incorrect shipping documents (Quality Problem) Manpower Materials Methods Machine Environment Keyboard sticks Wrong source info Wrong purchase order Types Source info incorrect Didn’t follow proc. Glare on displayTemp. No procedure No communications No training Software problem Corrupt data 38
20 Makes custom er wait Absent receiving party Working system of operators Customer Operator Absent Out of office Not at desk Lunchtime Too many phone calls Absent Not giving receiving party’s coordinates Complaining Leaving a message Lengthy talk Does not know organization well Takes too much time to explain Does not understan d customer 39 Flow Charts Benefits  Show what actually happens at each step in the process  Graphically display processes to identify redundancies. 40
21 41 Start Material Received IS Material of Satisfactory Quality? Return to Supplier Transfer to store No Yes Stop Raw Material Purchase Store 42
22 43 Check-sheets Purpose:  Tool for collecting and organizing measured or counted data Benefits:  Collect data in a systematic and organized manner  To determine source of problem  To facilitate classification of data 44
23 45 46
24 47 Histograms Purpose: To determine the spread or variation of a set of data points in a graphical form 48
25 49 Consider this simple example. Below shows the exam results collected from a 5 class of 50 individuals: 50
26 51 Pareto Charts  Small number of failures are responsible for the bulk of quality costs, this phenomenon is called as “Pareto Principle”.  This pattern is also called the ‘80/20 rule’ and shows itself in many ways.  For example: • 80% of sales are generated by 20% of customers. • 80% of defects are caused by 20% of the problems. • 80% of salary is given to 20% of workers. 20% - The Vital Few or 80% - The Trivial/ Important Many 52
27 Example of Pareto Chart Daily average Total number A One operator (partner out of office) 14.3 172 B Receiving party not present 6.1 73 C No one present in the section receiving call 5.1 61 D Section and name of the party not given 1.6 19 E Inquiry about branch office locations 1.3 16 F Other reasons 0.8 10 29.2 351 Reasons why customers have to wait (12-day analysis with check sheet) 53 54 100% B C A D E F Frequency Percentage 0% 100 200 300 Improvement Significant few Insignificant many
28 55 56 Significant few Insignificant many
29 Control Charts  The control chart is a graph used to study how a process changes over time. Data are plotted in time order.  A control chart always has a central line for the average, an upper line for the upper control limit and a lower line for the lower control limit. 57 Scatter Diagrams Purpose: Relationship between two characteristic value are plotted and analyze as to whether a correlation exists between the two set of data. • To understand the behaviour of a process. 58
30 This is a scatter plot showing the amount of sleep needed per day by age. As you can see, as you grow older, you need less sleep. 59 Negative Correlation 60 This scatter plots show the average income for adults based on the number of years of education completed. Positive Correlation
31 61 62
32 None Low High Perfect Degrees of correlation: 63 New Seven Quality Tools  Affinity Diagram : Grouping of the idea of Brainstorming.  Relation Diagram : Diagram of Why-why analysis.  Tree Diagram : For Systematically Pursuing the Best Strategies for Attaining an Objective  Matrix Diagram : A matrix to express the strong-ness of relationship between two things.  Arrow Diagram : For Working Out Optimal Schedules and Controlling Them Effectively  Process Decision Program Chart (PDPC) : Used to plan various contingencies Same to “Flow chart”  Matrix Data Analysis : Consists of a two-dimensional array to determine location and nature of problem 64
33 Quality Circle •Formation of quality circle is becoming imperative in today’s world where the customer's expectations keep changing and it become tougher day by day to get to the level of delighting the customer. • Voluntary group of persons • Meet on regular basis • Work on similar tasks • Share area of responsibility • Solve problems related to work •voluntarily meet regularly for about an hour every week to identify, analyze and resolve work related problems, leading to improvement, In their total performance and enrichment of their work life." 65 Objective/Function  Change in attitude  Effective team work  Self development  Job satisfaction  Communication  Leadership development  Improved organizational culture  Promote individuals self-development  Create problem prevention attitudes.  Improve customer relations and service delivery  Encourage the flow of new ideas 66
34 Benefits of quality Circles  Increased in quality  self-development  team work  Improve over all company performance and corporate image. 67 Organization structure Non Qc - Members Members Leader Facilitator Co-ordinator Steering committee Top Management Element of quality circle •A steering committee •Coordinator •Facilitator •leader •members 68
35 Awards for Quality  National individual awards  Rajiv Gandhi National Quality Award  IMC Ramakrishna Bajaj National Quality Award Integrated Marketing Communication (IMC)  Malcolm Baldrige National Quality Award (MBNQA)  International awards  European Quality Award  Canadian Quality Award  Australian Business Excellence Award  Deming Prize from Japan Criteria- Leadership, Information and analysis, Strategic planning, Human resource, Business results, management, Customer and market focus 69

Recommandé

Quality awareness
Quality awarenessQuality awareness
Quality awarenesssmcci
 
Basic quality concepts(3)
Basic quality concepts(3)Basic quality concepts(3)
Basic quality concepts(3)ngiyari
 
Quality Assurance and Quality Control - Areas of Improvement
Quality Assurance and Quality Control - Areas of ImprovementQuality Assurance and Quality Control - Areas of Improvement
Quality Assurance and Quality Control - Areas of ImprovementImran Jamil
 
Quality Awareness Session.pptx
Quality Awareness Session.pptxQuality Awareness Session.pptx
Quality Awareness Session.pptxssuser7e363f
 
Quality assurance vs Quality control
Quality assurance vs Quality controlQuality assurance vs Quality control
Quality assurance vs Quality controlBugRaptors
 
Quality assurance
Quality assuranceQuality assurance
Quality assurancerohit kamboj
 
Quality Slides
Quality SlidesQuality Slides
Quality SlidesRobbieA
 
What is quality
What is qualityWhat is quality
What is qualitySaad Al Jabri
 

Recommandé

Quality awareness
Quality awarenessQuality awareness
Quality awarenesssmcci
 
Basic quality concepts(3)
Basic quality concepts(3)Basic quality concepts(3)
Basic quality concepts(3)ngiyari
 
Quality Assurance and Quality Control - Areas of Improvement
Quality Assurance and Quality Control - Areas of ImprovementQuality Assurance and Quality Control - Areas of Improvement
Quality Assurance and Quality Control - Areas of ImprovementImran Jamil
 
Quality Awareness Session.pptx
Quality Awareness Session.pptxQuality Awareness Session.pptx
Quality Awareness Session.pptxssuser7e363f
 
Quality assurance vs Quality control
Quality assurance vs Quality controlQuality assurance vs Quality control
Quality assurance vs Quality controlBugRaptors
 
Quality assurance
Quality assuranceQuality assurance
Quality assurancerohit kamboj
 
Quality Slides
Quality SlidesQuality Slides
Quality SlidesRobbieA
 
What is quality
What is qualityWhat is quality
What is qualitySaad Al Jabri
 
Quality definition
Quality definitionQuality definition
Quality definitionMohit Singla
 
Role of qa&qc in manufacturing presentation
Role of qa&qc in manufacturing presentationRole of qa&qc in manufacturing presentation
Role of qa&qc in manufacturing presentationImran Jamil
 
Quality Awareness Training
Quality Awareness TrainingQuality Awareness Training
Quality Awareness TrainingRasheed Ahmad Rishi Ramsaroop
 
Quality Assurance vs. Quality Control in Manufacturing
Quality Assurance vs. Quality Control in ManufacturingQuality Assurance vs. Quality Control in Manufacturing
Quality Assurance vs. Quality Control in ManufacturingMonarch Metal
 
Quality management slides
Quality management slidesQuality management slides
Quality management slidesSaba Afaq
 
Quality
QualityQuality
QualityKaushi Senarath
 
Quality is a Mindset
Quality is a MindsetQuality is a Mindset
Quality is a MindsetKillick Agile Consulting Services
 
Quality
QualityQuality
Qualitym_divya_bharathi
 
Quality management systems (QMS)
Quality management systems (QMS)Quality management systems (QMS)
Quality management systems (QMS)salman-fuu
 
T Q M
T Q M T Q M
T Q M sajid ghafoor
 
Quality Management System awareness for all
Quality Management System awareness for all Quality Management System awareness for all
Quality Management System awareness for all ANUPAM RAY
 
Importance of Quality
Importance of QualityImportance of Quality
Importance of Qualityjscover
 
Quality management and quality planning
Quality management and quality planningQuality management and quality planning
Quality management and quality planningAmartya Talukdar
 
Quality concepts
Quality conceptsQuality concepts
Quality conceptsArvind sahu
 
Quality management
Quality managementQuality management
Quality managementNarayan SHARMA
 
Training for quality
Training for qualityTraining for quality
Training for qualityMohnish Madkaikar
 
Introduction to Quality
Introduction to QualityIntroduction to Quality
Introduction to QualityWe Learn - A Continuous Learning Forum from Welingkar's Distance Learning Program.
 
Ch 1 introduction to quality
Ch 1 introduction to qualityCh 1 introduction to quality
Ch 1 introduction to qualityjhonnika_waja12345
 
Quality control and quality assurance
Quality control and quality assuranceQuality control and quality assurance
Quality control and quality assuranceLeola Ramirez
 
Quality inspection presentation
Quality inspection presentationQuality inspection presentation
Quality inspection presentationPRASHANT KSHIRSAGAR
 
Reverse Engineering.pptx
Reverse Engineering.pptxReverse Engineering.pptx
Reverse Engineering.pptxSameer Sapra
 
Materia y energía en el ecosistema; El gran repaso; resumen unidad
Materia y energía en el ecosistema; El gran repaso; resumen unidadMateria y energía en el ecosistema; El gran repaso; resumen unidad
Materia y energía en el ecosistema; El gran repaso; resumen unidadLuis Gallardo
 

Contenu connexe

Tendances

Quality definition
Quality definitionQuality definition
Quality definitionMohit Singla
 
Role of qa&qc in manufacturing presentation
Role of qa&qc in manufacturing presentationRole of qa&qc in manufacturing presentation
Role of qa&qc in manufacturing presentationImran Jamil
 
Quality Assurance vs. Quality Control in Manufacturing
Quality Assurance vs. Quality Control in ManufacturingQuality Assurance vs. Quality Control in Manufacturing
Quality Assurance vs. Quality Control in ManufacturingMonarch Metal
 
Quality management slides
Quality management slidesQuality management slides
Quality management slidesSaba Afaq
 
Quality management systems (QMS)
Quality management systems (QMS)Quality management systems (QMS)
Quality management systems (QMS)salman-fuu
 
Quality Management System awareness for all
Quality Management System awareness for all Quality Management System awareness for all
Quality Management System awareness for all ANUPAM RAY
 
Importance of Quality
Importance of QualityImportance of Quality
Importance of Qualityjscover
 
Quality management and quality planning
Quality management and quality planningQuality management and quality planning
Quality management and quality planningAmartya Talukdar
 
Quality concepts
Quality conceptsQuality concepts
Quality conceptsArvind sahu
 
Quality control and quality assurance
Quality control and quality assuranceQuality control and quality assurance
Quality control and quality assuranceLeola Ramirez
 

Tendances (20)

Quality definition
Quality definitionQuality definition
Quality definition
 
Role of qa&qc in manufacturing presentation
Role of qa&qc in manufacturing presentationRole of qa&qc in manufacturing presentation
Role of qa&qc in manufacturing presentation
 
Quality Awareness Training
Quality Awareness TrainingQuality Awareness Training
Quality Awareness Training
 
Quality Assurance vs. Quality Control in Manufacturing
Quality Assurance vs. Quality Control in ManufacturingQuality Assurance vs. Quality Control in Manufacturing
Quality Assurance vs. Quality Control in Manufacturing
 
Quality management slides
Quality management slidesQuality management slides
Quality management slides
 
Quality
QualityQuality
Quality
 
Quality is a Mindset
Quality is a MindsetQuality is a Mindset
Quality is a Mindset
 
Quality
QualityQuality
Quality
 
Quality management systems (QMS)
Quality management systems (QMS)Quality management systems (QMS)
Quality management systems (QMS)
 
T Q M
T Q M T Q M
T Q M
 
Quality Management System awareness for all
Quality Management System awareness for all Quality Management System awareness for all
Quality Management System awareness for all
 
Importance of Quality
Importance of QualityImportance of Quality
Importance of Quality
 
Quality management and quality planning
Quality management and quality planningQuality management and quality planning
Quality management and quality planning
 
Quality concepts
Quality conceptsQuality concepts
Quality concepts
 
Quality management
Quality managementQuality management
Quality management
 
Training for quality
Training for qualityTraining for quality
Training for quality
 
Introduction to Quality
Introduction to QualityIntroduction to Quality
Introduction to Quality
 
Ch 1 introduction to quality
Ch 1 introduction to qualityCh 1 introduction to quality
Ch 1 introduction to quality
 
Quality control and quality assurance
Quality control and quality assuranceQuality control and quality assurance
Quality control and quality assurance
 
Quality inspection presentation
Quality inspection presentationQuality inspection presentation
Quality inspection presentation
 

En vedette

Reverse Engineering.pptx
Reverse Engineering.pptxReverse Engineering.pptx
Reverse Engineering.pptxSameer Sapra
 
Materia y energía en el ecosistema; El gran repaso; resumen unidad
Materia y energía en el ecosistema; El gran repaso; resumen unidadMateria y energía en el ecosistema; El gran repaso; resumen unidad
Materia y energía en el ecosistema; El gran repaso; resumen unidadLuis Gallardo
 
Building Web Sites that Work Everywhere
Building Web Sites that Work EverywhereBuilding Web Sites that Work Everywhere
Building Web Sites that Work EverywhereDoris Chen
 
Nur 642 stethoscope slideshare
Nur 642 stethoscope slideshareNur 642 stethoscope slideshare
Nur 642 stethoscope slidesharejoanfc12
 
Spygmomanometer (tensi meter)
Spygmomanometer (tensi meter)Spygmomanometer (tensi meter)
Spygmomanometer (tensi meter)Diah Ayu Fitria
 
2.3 limit,fits,tolerance & gauges
2.3 limit,fits,tolerance & gauges2.3 limit,fits,tolerance & gauges
2.3 limit,fits,tolerance & gaugesnilesh sadaphal
 
Comparators and its type
Comparators and its typeComparators and its type
Comparators and its typenilesh sadaphal
 
Total Quality Management (TQM)
Total Quality Management (TQM)Total Quality Management (TQM)
Total Quality Management (TQM)nilesh sadaphal
 
Acceptance sampling (SQC)
Acceptance sampling (SQC)Acceptance sampling (SQC)
Acceptance sampling (SQC)nilesh sadaphal
 
PMR Science Chapter 8 Generation of Electricity
PMR Science Chapter 8 Generation of ElectricityPMR Science Chapter 8 Generation of Electricity
PMR Science Chapter 8 Generation of ElectricitySook Yen Wong
 
Form 3 PMR Science Chapter 7 Electricity
Form 3 PMR Science Chapter 7 ElectricityForm 3 PMR Science Chapter 7 Electricity
Form 3 PMR Science Chapter 7 ElectricitySook Yen Wong
 
Construction process''column,beam,slab''
Construction process''column,beam,slab''Construction process''column,beam,slab''
Construction process''column,beam,slab''Nabeel Rajpoot
 

En vedette (20)

Reverse Engineering.pptx
Reverse Engineering.pptxReverse Engineering.pptx
Reverse Engineering.pptx
 
Materia y energía en el ecosistema; El gran repaso; resumen unidad
Materia y energía en el ecosistema; El gran repaso; resumen unidadMateria y energía en el ecosistema; El gran repaso; resumen unidad
Materia y energía en el ecosistema; El gran repaso; resumen unidad
 
Building Web Sites that Work Everywhere
Building Web Sites that Work EverywhereBuilding Web Sites that Work Everywhere
Building Web Sites that Work Everywhere
 
Nur 642 stethoscope slideshare
Nur 642 stethoscope slideshareNur 642 stethoscope slideshare
Nur 642 stethoscope slideshare
 
Spygmomanometer (tensi meter)
Spygmomanometer (tensi meter)Spygmomanometer (tensi meter)
Spygmomanometer (tensi meter)
 
Interferometers
InterferometersInterferometers
Interferometers
 
2.3 limit,fits,tolerance & gauges
2.3 limit,fits,tolerance & gauges2.3 limit,fits,tolerance & gauges
2.3 limit,fits,tolerance & gauges
 
Metrology of threads
Metrology of threadsMetrology of threads
Metrology of threads
 
Metrology of threads
Metrology of threadsMetrology of threads
Metrology of threads
 
Comparators and its type
Comparators and its typeComparators and its type
Comparators and its type
 
Total Quality Management (TQM)
Total Quality Management (TQM)Total Quality Management (TQM)
Total Quality Management (TQM)
 
Inspection metrology
Inspection metrologyInspection metrology
Inspection metrology
 
The reel violin
The reel violinThe reel violin
The reel violin
 
Self directed learning
Self directed learningSelf directed learning
Self directed learning
 
francis turbine
francis turbine francis turbine
francis turbine
 
Measurement standards
Measurement standards Measurement standards
Measurement standards
 
Acceptance sampling (SQC)
Acceptance sampling (SQC)Acceptance sampling (SQC)
Acceptance sampling (SQC)
 
PMR Science Chapter 8 Generation of Electricity
PMR Science Chapter 8 Generation of ElectricityPMR Science Chapter 8 Generation of Electricity
PMR Science Chapter 8 Generation of Electricity
 
Form 3 PMR Science Chapter 7 Electricity
Form 3 PMR Science Chapter 7 ElectricityForm 3 PMR Science Chapter 7 Electricity
Form 3 PMR Science Chapter 7 Electricity
 
Construction process''column,beam,slab''
Construction process''column,beam,slab''Construction process''column,beam,slab''
Construction process''column,beam,slab''
 

Similaire à Quality & Quality tools

Quality management concepts
Quality management conceptsQuality management concepts
Quality management conceptsAshu0711
 
Introduction to Quality (Training for Beginners)
Introduction to Quality (Training for Beginners)Introduction to Quality (Training for Beginners)
Introduction to Quality (Training for Beginners)Zahid khan
 
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptx
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptxChapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptx
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptxMohammedAbuBakkerSid2
 
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptx
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptxChapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptx
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptxVandaMnica1
 
Quality Management
Quality ManagementQuality Management
Quality ManagementReyhaneh b
 
Pengantar kualitas (hasmand)
Pengantar kualitas (hasmand)Pengantar kualitas (hasmand)
Pengantar kualitas (hasmand)icha geovanna
 
Quality systems management
Quality systems managementQuality systems management
Quality systems managementsmumbahelp
 
Unit-I Introduction
Unit-I IntroductionUnit-I Introduction
Unit-I IntroductionDr.Raja R
 
Quality Management System
Quality Management SystemQuality Management System
Quality Management SystemDwi Anita
 
Quality Slides
Quality SlidesQuality Slides
Quality SlidesRobbieA
 
Quality dimensions for BMS
Quality dimensions for BMSQuality dimensions for BMS
Quality dimensions for BMSSameer Omles
 
CH 3 Quality management and Control.pptx
CH 3 Quality management and Control.pptxCH 3 Quality management and Control.pptx
CH 3 Quality management and Control.pptxamanuel236786
 
Lecture 3 (quality of design and quality of conformance)
Lecture 3 (quality of design and quality of conformance)Lecture 3 (quality of design and quality of conformance)
Lecture 3 (quality of design and quality of conformance)RAJ BAIRWA
 
Total quality management report
Total quality management reportTotal quality management report
Total quality management reportKristian Nierves
 

Similaire à Quality & Quality tools (20)

Tqm evolation of quality concecpts
Tqm evolation of quality concecpts Tqm evolation of quality concecpts
Tqm evolation of quality concecpts
 
Quality management concepts
Quality management conceptsQuality management concepts
Quality management concepts
 
Introduction to Quality (Training for Beginners)
Introduction to Quality (Training for Beginners)Introduction to Quality (Training for Beginners)
Introduction to Quality (Training for Beginners)
 
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptx
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptxChapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptx
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptx
 
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptx
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptxChapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptx
Chapter 1 (Lecture 1-3)-Basic Concept of Quality and Quality Control.pptx
 
Quality Management
Quality ManagementQuality Management
Quality Management
 
WHAT IS QUALITY | INTRODUCTION TO QUALITY | SETH SAFETY PRODUCTS.
WHAT IS QUALITY | INTRODUCTION TO QUALITY | SETH SAFETY PRODUCTS.WHAT IS QUALITY | INTRODUCTION TO QUALITY | SETH SAFETY PRODUCTS.
WHAT IS QUALITY | INTRODUCTION TO QUALITY | SETH SAFETY PRODUCTS.
 
Pengantar kualitas (hasmand)
Pengantar kualitas (hasmand)Pengantar kualitas (hasmand)
Pengantar kualitas (hasmand)
 
Quality systems management
Quality systems managementQuality systems management
Quality systems management
 
Quality Control.pptx
Quality Control.pptxQuality Control.pptx
Quality Control.pptx
 
Unit-I Introduction
Unit-I IntroductionUnit-I Introduction
Unit-I Introduction
 
Qarajeet
QarajeetQarajeet
Qarajeet
 
Quality Management System
Quality Management SystemQuality Management System
Quality Management System
 
Quality Slides
Quality SlidesQuality Slides
Quality Slides
 
Quality dimensions for BMS
Quality dimensions for BMSQuality dimensions for BMS
Quality dimensions for BMS
 
Quality one
Quality oneQuality one
Quality one
 
CH 3 Quality management and Control.pptx
CH 3 Quality management and Control.pptxCH 3 Quality management and Control.pptx
CH 3 Quality management and Control.pptx
 
Lecture 3 (quality of design and quality of conformance)
Lecture 3 (quality of design and quality of conformance)Lecture 3 (quality of design and quality of conformance)
Lecture 3 (quality of design and quality of conformance)
 
Total quality management report
Total quality management reportTotal quality management report
Total quality management report
 
Quality and performance
Quality and performanceQuality and performance
Quality and performance
 

Plus de nilesh sadaphal

Bsaic Mechanical Engineering_Design Fundamentals
Bsaic Mechanical Engineering_Design FundamentalsBsaic Mechanical Engineering_Design Fundamentals
Bsaic Mechanical Engineering_Design Fundamentalsnilesh sadaphal
 
Introduction to Mechanical Engineering_BME_Unit 1
Introduction to Mechanical Engineering_BME_Unit 1Introduction to Mechanical Engineering_BME_Unit 1
Introduction to Mechanical Engineering_BME_Unit 1nilesh sadaphal
 
Unit 2 2 design consideration
Unit 2 2 design considerationUnit 2 2 design consideration
Unit 2 2 design considerationnilesh sadaphal
 

Plus de nilesh sadaphal (6)

Bsaic Mechanical Engineering_Design Fundamentals
Bsaic Mechanical Engineering_Design FundamentalsBsaic Mechanical Engineering_Design Fundamentals
Bsaic Mechanical Engineering_Design Fundamentals
 
Introduction to Mechanical Engineering_BME_Unit 1
Introduction to Mechanical Engineering_BME_Unit 1Introduction to Mechanical Engineering_BME_Unit 1
Introduction to Mechanical Engineering_BME_Unit 1
 
Unit 3 sheetmetal
Unit 3 sheetmetalUnit 3 sheetmetal
Unit 3 sheetmetal
 
Unit 3 forging
Unit 3 forgingUnit 3 forging
Unit 3 forging
 
Unit 2 1 engg materials
Unit 2 1 engg materialsUnit 2 1 engg materials
Unit 2 1 engg materials
 
Unit 2 2 design consideration
Unit 2 2 design considerationUnit 2 2 design consideration
Unit 2 2 design consideration
 

Dernier

Solving The Right Triangles PowerPoint 2.ppt
Solving The Right Triangles PowerPoint 2.pptSolving The Right Triangles PowerPoint 2.ppt
Solving The Right Triangles PowerPoint 2.pptJasonTagapanGulla
 
welding defects observed during the welding
welding defects observed during the weldingwelding defects observed during the welding
welding defects observed during the weldingMuhammadUzairLiaqat
 
Class 1 | NFPA 72 | Overview Fire Alarm System
Class 1 | NFPA 72 | Overview Fire Alarm SystemClass 1 | NFPA 72 | Overview Fire Alarm System
Class 1 | NFPA 72 | Overview Fire Alarm Systemirfanmechengr
 
Instrumentation, measurement and control of bio process parameters ( Temperat...
Instrumentation, measurement and control of bio process parameters ( Temperat...Instrumentation, measurement and control of bio process parameters ( Temperat...
Instrumentation, measurement and control of bio process parameters ( Temperat...121011101441
 
lifi-technology with integration of IOT.pptx
lifi-technology with integration of IOT.pptxlifi-technology with integration of IOT.pptx
lifi-technology with integration of IOT.pptxsomshekarkn64
 
IVE Industry Focused Event - Defence Sector 2024
IVE Industry Focused Event - Defence Sector 2024IVE Industry Focused Event - Defence Sector 2024
IVE Industry Focused Event - Defence Sector 2024Mark Billinghurst
 
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdfCCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdfAsst.prof M.Gokilavani
 
Transport layer issues and challenges - Guide
Transport layer issues and challenges - GuideTransport layer issues and challenges - Guide
Transport layer issues and challenges - GuideGOPINATHS437943
 
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube ExchangerStudy on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube ExchangerAnamika Sarkar
 
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)dollysharma2066
 
Past, Present and Future of Generative AI
Past, Present and Future of Generative AIPast, Present and Future of Generative AI
Past, Present and Future of Generative AIabhishek36461
 
Software and Systems Engineering Standards: Verification and Validation of Sy...
Software and Systems Engineering Standards: Verification and Validation of Sy...Software and Systems Engineering Standards: Verification and Validation of Sy...
Software and Systems Engineering Standards: Verification and Validation of Sy...VICTOR MAESTRE RAMIREZ
 
Arduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.pptArduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.pptSAURABHKUMAR892774
 
Indian Dairy Industry Present Status and.ppt
Indian Dairy Industry Present Status and.pptIndian Dairy Industry Present Status and.ppt
Indian Dairy Industry Present Status and.pptMadan Karki
 
Work Experience-Dalton Park.pptxfvvvvvvv
Work Experience-Dalton Park.pptxfvvvvvvvWork Experience-Dalton Park.pptxfvvvvvvv
Work Experience-Dalton Park.pptxfvvvvvvvLewisJB
 
Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.eptoze12
 
Introduction to Machine Learning Unit-3 for II MECH
Introduction to Machine Learning Unit-3 for II MECHIntroduction to Machine Learning Unit-3 for II MECH
Introduction to Machine Learning Unit-3 for II MECHC Sai Kiran
 
Call Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile serviceCall Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile servicerehmti665
 

Dernier (20)

young call girls in Rajiv Chowk🔝 9953056974 🔝 Delhi escort Service
young call girls in Rajiv Chowk🔝 9953056974 🔝 Delhi escort Serviceyoung call girls in Rajiv Chowk🔝 9953056974 🔝 Delhi escort Service
young call girls in Rajiv Chowk🔝 9953056974 🔝 Delhi escort Service
 
Solving The Right Triangles PowerPoint 2.ppt
Solving The Right Triangles PowerPoint 2.pptSolving The Right Triangles PowerPoint 2.ppt
Solving The Right Triangles PowerPoint 2.ppt
 
welding defects observed during the welding
welding defects observed during the weldingwelding defects observed during the welding
welding defects observed during the welding
 
Class 1 | NFPA 72 | Overview Fire Alarm System
Class 1 | NFPA 72 | Overview Fire Alarm SystemClass 1 | NFPA 72 | Overview Fire Alarm System
Class 1 | NFPA 72 | Overview Fire Alarm System
 
Instrumentation, measurement and control of bio process parameters ( Temperat...
Instrumentation, measurement and control of bio process parameters ( Temperat...Instrumentation, measurement and control of bio process parameters ( Temperat...
Instrumentation, measurement and control of bio process parameters ( Temperat...
 
lifi-technology with integration of IOT.pptx
lifi-technology with integration of IOT.pptxlifi-technology with integration of IOT.pptx
lifi-technology with integration of IOT.pptx
 
IVE Industry Focused Event - Defence Sector 2024
IVE Industry Focused Event - Defence Sector 2024IVE Industry Focused Event - Defence Sector 2024
IVE Industry Focused Event - Defence Sector 2024
 
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdfCCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
 
Transport layer issues and challenges - Guide
Transport layer issues and challenges - GuideTransport layer issues and challenges - Guide
Transport layer issues and challenges - Guide
 
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube ExchangerStudy on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
 
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
 
Past, Present and Future of Generative AI
Past, Present and Future of Generative AIPast, Present and Future of Generative AI
Past, Present and Future of Generative AI
 
Software and Systems Engineering Standards: Verification and Validation of Sy...
Software and Systems Engineering Standards: Verification and Validation of Sy...Software and Systems Engineering Standards: Verification and Validation of Sy...
Software and Systems Engineering Standards: Verification and Validation of Sy...
 
Design and analysis of solar grass cutter.pdf
Design and analysis of solar grass cutter.pdfDesign and analysis of solar grass cutter.pdf
Design and analysis of solar grass cutter.pdf
 
Arduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.pptArduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.ppt
 
Indian Dairy Industry Present Status and.ppt
Indian Dairy Industry Present Status and.pptIndian Dairy Industry Present Status and.ppt
Indian Dairy Industry Present Status and.ppt
 
Work Experience-Dalton Park.pptxfvvvvvvv
Work Experience-Dalton Park.pptxfvvvvvvvWork Experience-Dalton Park.pptxfvvvvvvv
Work Experience-Dalton Park.pptxfvvvvvvv
 
Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.
 
Introduction to Machine Learning Unit-3 for II MECH
Introduction to Machine Learning Unit-3 for II MECHIntroduction to Machine Learning Unit-3 for II MECH
Introduction to Machine Learning Unit-3 for II MECH
 
Call Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile serviceCall Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile service
 

Quality & Quality tools

  • 1. Quality & Quality Tools By Prof N D Sadaphal Assistant Professor Sanjivani College of Engineering, Kopargaon (Maharashtra State) 423601 Mechanical Engineering
  • 2. 1 PROF N D SADAPHAL MECHANICAL ENGINEERING DEPARTMENT TE Mechanical Metrology & Quality Control Quality & Quality Tools 1 Quality?  Think about a product you bought. How can you define its “quality”?  Quality has been defined in a number of ways. When viewed from a consumer’s perspective, it means meeting or exceeding customer expectations. 2
  • 3. 2 Dimensions of Quality 1. Performance:  Will the product/service do the intended job? 2. Reliability:  How often does the product/service fail? 3. Durability:  How long does the product/service last? 4. Serviceability:  How easy to repair the product / to solve the problems in service? 3 Dimensions of Quality (Conti…..) 5. Aesthetics:  What does the product/service look/smell/sound/feel like? 6. Features:  What does the product do/ service give? 7. Perceived Quality:  What is the reputation of the company or its products/services? 8. Conformance to Standards:  Is the product/service made exactly as the designer/standard intended? 4
  • 4. 3 What is Quality?  Definition of Quality: (by the quality guru’s) 1. Quality is fitness for use (comfort) _ _ _ Juran 2. Quality is conformance to requirements_ _ _ Crosby 3. Quality is a predictable degree of uniformity and dependability, at low cost and suited to the market_ _ _ Deming 4. Quality as the totality of features and characteristics of a product or service that bear on its ability to satisfy given need. _ _ _ ASQC 5 What is Quality?  “The degree to which a system, component, or process meets (1) specified requirements, and (2) customer or users needs or expectations” – IEEE  The totality of features and characteristics of a product or service that bears on its ability to satisfy stated or implied needs” – ISO 8402  Degree to which a set of inherent characteristics fulfils requirements – ISO 9000:2000 6
  • 5. 4 Modern Importance of QualityModern Importance of Quality 7 “The first job we have is to turn out quality merchandise that consumers will buy and keep on buying. If we produce it efficiently and economically, we will earn a profit.”- William Cooper Procter. • Quality in service industries, government, health care, and education. • Current and future challenge: keep progress in quality management alive. Statistical Quality Control Quality Assurance Quality Management Quality Characteristics •Quality of Design- design which fulfils all requirement of Customer. (method of construction, material, safety, aesthetics/appearance, reliability etc) •Quality of Conformance- degree/extent to which product conforms its specification and drawing. ability to maintain specified quality design.(i.e. control of good quality) • Quality of Performance- how well manufactured product gives performance. (Quality design + Quality conformance) • Availability- available things in product like life, maintainability and reliability. • Customer Service- service after product has been delivered. e.g. equipment installation, operational training, repair service, replacement of defective component etc. 8
  • 6. 5 Cost of quality Conformance Non-Conformance Quality Costs Appraisal costPrevention cost External failure cost Internal failure cost Cost Report 9 Cost of quality Cost of quality = Cost of conformance + Cost of non-conformance  Cost of conformance is the cost of providing products or services as per the required standards. This can be termed as good amount spent. (Prevention & Appraisal costs)  Cost of non-conformance is the failure cost associated with a process not being operated to the requirements. This can be termed as unnecessary amount spent.( Internal & External failure costs) 10
  • 7. 6 Prevention Costs  Quality planning costs  costs of developing and implementing quality management program  Product-design costs  costs of designing products with quality characteristics  Process costs  costs expended to make sure productive process conforms to quality specifications  Training costs  costs of developing and putting on quality training programs for employees  Information costs  costs of acquiring and maintaining data related to quality, and development of reports on quality performance 11 Activities associated with Prevention costs  Market research  Quality training programs.  Contract review  Design review  Field trials  Supplier evaluation  Process capability review  Design and manufacture of jigs and fixtures  Preventive checks & maintenance 12
  • 8. 7 Examples of prevention Cost  Equipment maintenance & repair  Fixture design and fabrication  Housekeeping  Market analysis  Procedure writing  Safety reviews  Quality training  Salesperson evaluation and selection 13 Appraisal Costs  Inspection and testing  costs of testing and inspecting materials, parts, and product at various stages and at the end of a process.  Cost of Power & material required for testing.  Test equipment costs  costs of maintaining equipment used in testing quality characteristics of products (Calibration of instrument)  Operator costs  costs of time spent by operators to gather data for testing product quality, to make equipment adjustments to maintain quality, and to stop work to assess quality 14
  • 9. 8 Activities associated with Appraisal costs  Proto type testing  Incoming material inspection  Process inspection/control  Final inspection  Laboratory testing / measurement  Quality audits. 15  Audit  Document checking  Diagram checking  Equipment calibration  Final inspection  In-process inspection  Laboratory test  Personnel testing  Procedure testing  Prototype inspection  Receiving inspection  Shipping inspection Examples of appraisal cost 16
  • 10. 9 Internal Failure Costs  Scrap costs  costs of poor-quality products that must be discarded. (fault of manufacturer/vendor)  Rework/repair costs  costs of fixing defective products to conform to quality specifications.  Extra payment made to operator to obtain required level of quality.  Process failure costs  costs of determining why production process is producing poor-quality products.  Process down-time costs  costs of shutting down productive process to fix problem.  Price-down grading costs  costs of discounting poor- quality products—that is, selling products as “seconds”. 17 External Failure Costs  Customer complaint costs  costs of investigating and satisfactorily responding to a customer complaint resulting from a poor-quality product.  Product return costs  costs of handling and replacing poor- quality products returned by customer.  Warranty claims costs  costs of complying with product warranties.  Product liability costs  litigation costs resulting from customer injury.  Lost sales costs  costs incurred because customers are dissatisfied with poor quality products and do not make additional purchases. 18
  • 11. 10 1-10-100 Rule $ $ $ $ $ $ $ $ $ $ 1 10 100 Prevention Correction/ appraisal (inspection/testing) Failure 19 The 1:10:100 rule  Rs.1 spent on prevention, will save Rs.10 spent on appraisal and Rs.100 on failure costs.  “The earlier you detect and prevent a defect the more you can save” 20
  • 12. 11 Cost of Quality Approach 21 Objective Zero defects while minimizing all four quality cost Relation Between cost/value Vs Quality 22
  • 13. 12 Deming’s Cycle  Deming Chain Reaction “Quality improvement is not a costly business option but a strategic imperative that is essential to business survival” Quality Cost Productivity The Deming Chain Improve Quality Decrease Costs Improve Productivity Decrease Price Increase Market Stay in Business Provide More Jobs Return on Investment 23 Deming’s Cycle PDCA 24
  • 14. 13 25 Plan to improve your operations first by finding out what things are going wrong (that is identify the problems faced), and come up with ideas for solving these problems. Do changes designed to solve the problems on a small or experimental scale first. This minimizes disruption to routine activity while testing whether the changes will work or not. Check whether the small scale or experimental changes are achieving the desired result or not. Act to implement changes on a larger scale if the experiment is successful. This means making the changes a routine part of your activity. Also Act to involve other persons (other departments, suppliers, or customers) to implement them on a larger scale. Deming’s 14 Principles. 1. “Create Constancy of Purpose” 2. “Adopt A New Philosophy” 3. “Cease dependence On inspection For Quality” 4. “End lowest tender contracts ” 5. “Improve Every Process Constantly / Forever” 6. “Institute Training” 7. “Adopt An Institute Leadership” 8. “Drive Out Fear” 9. “Break Barriers Between Staff Areas” 10. “Eliminate Exhortations And Targets” 11. “Eliminate Numerical Quotas” 12. “remove the barrier that rob Pride Of workmanship” 13. “Encourage For education & Self Improvement” 14. “Put everybody In The company To work For This transformation” 26
  • 15. 14 Juran’s Triology Approach  Joseph Juran is one of the “Guru of Quality” like Deming.  Juran defined quality as a “Fitness for purpose”  If product meets all the specifications, it may not fit for use.  Juran Trilogy consists of three basic quality-oriented processes:  quality planning  quality control  quality improvement. 27 Quality planning  The role of quality planning is to design a process that will be able to meet established goals under operating conditions.  The subject of planning can be anything -- an engineering process for designing new products, a production process for making goods, or a service process for responding to customer requests.  Quality Planning involves  Identifying customers.  Determining their needs.  Specifying the product features that satisfy those needs at minimum cost.  Designing the processes that can reliably produce those features. 28
  • 16. 15 Quality control  The role of quality control is to operate and correct the process, so that it performs with optimal effectiveness.  Measure actual performance of product  Compare actual performance with goals set  Do the action on difference  The process of Quality Control involves:  Establishing a measurement procedure  Measuring  Interpreting differences between measurement and goal.  Taking action to correct significant differences 29 Quality improvement  The role of quality improvement is to take the process to higher levels of performance.  Assuming the process is under control, any waste that occurs must be inherent in the design of the process.  The object of quality improvement is to reduce waste to a much lower level.  The steps in Quality Improvement:  Identify specific area for improvement.  Diagnose the causes.  Provide remedies.  Prove that the remedies are effective under operating conditions. 30
  • 17. 16 Seven Quality Tools  Cause and Effect Diagrams  Flow Charts  Check-sheets  Histograms  Pareto Charts  Control Charts  Scatter Diagrams 31 Understand the root causes of a problem BEFORE you put a “solution” into place Investigate the Root Causes Cause and Effect Diagrams 32
  • 18. 17 Cause & Effect Diagrams  Identify many different possible causes for a problem  See the relationships between the many causes  Helps determine which data to collect Why are cause and effect diagrams helpful? Focused problem Root cause Root cause Root cause Root cause 33 34 Cause and Effect Diagrams/Fish bone diagram/Ishikawa diagram
  • 20. 19 37 Cause and Effect Diagrams/Fish bone diagram/Ishikawa diagram Incorrect shipping documents (Quality Problem) Manpower Materials Methods Machine Environment Keyboard sticks Wrong source info Wrong purchase order Types Source info incorrect Didn’t follow proc. Glare on displayTemp. No procedure No communications No training Software problem Corrupt data 38
  • 21. 20 Makes custom er wait Absent receiving party Working system of operators Customer Operator Absent Out of office Not at desk Lunchtime Too many phone calls Absent Not giving receiving party’s coordinates Complaining Leaving a message Lengthy talk Does not know organization well Takes too much time to explain Does not understan d customer 39 Flow Charts Benefits  Show what actually happens at each step in the process  Graphically display processes to identify redundancies. 40
  • 22. 21 41 Start Material Received IS Material of Satisfactory Quality? Return to Supplier Transfer to store No Yes Stop Raw Material Purchase Store 42
  • 23. 22 43 Check-sheets Purpose:  Tool for collecting and organizing measured or counted data Benefits:  Collect data in a systematic and organized manner  To determine source of problem  To facilitate classification of data 44
  • 25. 24 47 Histograms Purpose: To determine the spread or variation of a set of data points in a graphical form 48
  • 26. 25 49 Consider this simple example. Below shows the exam results collected from a 5 class of 50 individuals: 50
  • 27. 26 51 Pareto Charts  Small number of failures are responsible for the bulk of quality costs, this phenomenon is called as “Pareto Principle”.  This pattern is also called the ‘80/20 rule’ and shows itself in many ways.  For example: • 80% of sales are generated by 20% of customers. • 80% of defects are caused by 20% of the problems. • 80% of salary is given to 20% of workers. 20% - The Vital Few or 80% - The Trivial/ Important Many 52
  • 28. 27 Example of Pareto Chart Daily average Total number A One operator (partner out of office) 14.3 172 B Receiving party not present 6.1 73 C No one present in the section receiving call 5.1 61 D Section and name of the party not given 1.6 19 E Inquiry about branch office locations 1.3 16 F Other reasons 0.8 10 29.2 351 Reasons why customers have to wait (12-day analysis with check sheet) 53 54 100% B C A D E F Frequency Percentage 0% 100 200 300 Improvement Significant few Insignificant many
  • 30. 29 Control Charts  The control chart is a graph used to study how a process changes over time. Data are plotted in time order.  A control chart always has a central line for the average, an upper line for the upper control limit and a lower line for the lower control limit. 57 Scatter Diagrams Purpose: Relationship between two characteristic value are plotted and analyze as to whether a correlation exists between the two set of data. • To understand the behaviour of a process. 58
  • 31. 30 This is a scatter plot showing the amount of sleep needed per day by age. As you can see, as you grow older, you need less sleep. 59 Negative Correlation 60 This scatter plots show the average income for adults based on the number of years of education completed. Positive Correlation
  • 33. 32 None Low High Perfect Degrees of correlation: 63 New Seven Quality Tools  Affinity Diagram : Grouping of the idea of Brainstorming.  Relation Diagram : Diagram of Why-why analysis.  Tree Diagram : For Systematically Pursuing the Best Strategies for Attaining an Objective  Matrix Diagram : A matrix to express the strong-ness of relationship between two things.  Arrow Diagram : For Working Out Optimal Schedules and Controlling Them Effectively  Process Decision Program Chart (PDPC) : Used to plan various contingencies Same to “Flow chart”  Matrix Data Analysis : Consists of a two-dimensional array to determine location and nature of problem 64
  • 34. 33 Quality Circle •Formation of quality circle is becoming imperative in today’s world where the customer's expectations keep changing and it become tougher day by day to get to the level of delighting the customer. • Voluntary group of persons • Meet on regular basis • Work on similar tasks • Share area of responsibility • Solve problems related to work •voluntarily meet regularly for about an hour every week to identify, analyze and resolve work related problems, leading to improvement, In their total performance and enrichment of their work life." 65 Objective/Function  Change in attitude  Effective team work  Self development  Job satisfaction  Communication  Leadership development  Improved organizational culture  Promote individuals self-development  Create problem prevention attitudes.  Improve customer relations and service delivery  Encourage the flow of new ideas 66
  • 35. 34 Benefits of quality Circles  Increased in quality  self-development  team work  Improve over all company performance and corporate image. 67 Organization structure Non Qc - Members Members Leader Facilitator Co-ordinator Steering committee Top Management Element of quality circle •A steering committee •Coordinator •Facilitator •leader •members 68
  • 36. 35 Awards for Quality  National individual awards  Rajiv Gandhi National Quality Award  IMC Ramakrishna Bajaj National Quality Award Integrated Marketing Communication (IMC)  Malcolm Baldrige National Quality Award (MBNQA)  International awards  European Quality Award  Canadian Quality Award  Australian Business Excellence Award  Deming Prize from Japan Criteria- Leadership, Information and analysis, Strategic planning, Human resource, Business results, management, Customer and market focus 69