1. SylabUZ
2. Faculty of Mechanical Engineering
3. winter term 2023/2024
4. WM - oferta ERASMUS - Erasmus programme
5. Quality Engineering

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Quality Engineering - course description

Aim of the course

To acquaint students with the basic terms in the field of quality assurance and quality management. Knowledge of methods and the evaluation procedures of the quality evaluation of products, services and activities. Understanding the basic concepts of quality management. Acquaint with the ISO9OOO quality standards, industry standards. Discussion of basic procedures for implementing and maintaining quality management systems.

Prerequisites

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Mathematics, Metrology, Elements of statistics, the ability to use fundamental IT-tools

Scope

Lecture content.

The concept of quality and its definitions. Fundamental factors affecting the quality of production processes. Aspects and criteria for evaluation of the quality. The concept of quality and its definitions. Fundamental factors affecting the process and quality of production processes. Aspects and criteria for evaluation of the quality. Reliability, reliability functions. Quality systems according to the ISO series of standards, ISO 9000: basics and terminology. Quality management according to the DIN EN ISO 9001. The quality system documents. The implementation of quality management systems. Quality of processes, quality of work, quality of products quality of service. TQM - Total Quality Management objectives, concept and implementation. Six sigma - quality management by measurement of efficiency. The basic principles of Six Sigma, the implementation of the system, the use of statistical methods. Selected quality management tools.

Laboratory content:

Evaluation of the quality of the selected product. Determination of the reliability function for selected devices. Mapping process flow for a given production task. Elements of QMS documentation in accordance with DIN EN ISO 9001 - discussion, comparative assessment. The use of selected quality management tools. Six sigma - determining of the Six Sigma quality  measure for specific products/processes. Statistical Measures of Quality in the Six Sigma, setting short-term and long-term capability of the process.

Teaching methods

Lectures with audiovisual aids. Working with the books and journals.

Individual and group work in laboratory classes. Presentation of solutions, discussion of the obtained solutions.

Learning outcomes and methods of theirs verification

Outcome description	Outcome symbols	Methods of verification	The class form

Assignment conditions

Lecture: Assessment of of the course is determined on the basis of ratings for audit work (weight = 0.4) and test (weight = 0.6).

Assessment of the laboratory is based on: the laboratory exercises and reports/programs resulting from the execution of all exercises to be exercised.

To get a credit the student has to receive all passing grades.

The final grade received by the student is the arithmetic mean of the above grades.

Recommended reading

1. Tadeusz Sałaciński: Quality Engineering in Manufacturing Technology, OW PW, 2020. (eBook)
2.  Joseph M. Juran, A. Blanton Godfrey: JURAN’S QUALITY HANDBOOK, McGraw-Hill, 2010.
3. Nancy R. Tague: The Quality Toolbox, ASQ Qualiyu Press, 2005
4. Jiang Renyan: Introduction to Quality and Reliability Engineering, Springer Nature, 2015.

Further reading

1. Gopal K Kanji, Mike Asher: 100 Methods for Total Quality Management, SAGE Publications Ltd, 1996.
2.  https://quality-one.com/quality-engineering/
3. Standards: ISO  9000 - series.

Notes

Modified by dr inż. Edward Tertel (last modification: 02-06-2023 12:12)