SylabUZ
| Course name | Manufacturing Processes |
| Course ID | 06.9-WM-ER-ZiIP-27_18 |
| Faculty | Faculty of Mechanical Engineering |
| Field of study | WM - oferta ERASMUS |
| Education profile | - |
| Level of studies | Erasmus programme |
| Beginning semester | winter term 2023/2024 |
| Semester | 1 |
| ECTS credits to win | 4 |
| Course type | obligatory |
| Teaching language | english |
| Author of syllabus |
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| The class form | Hours per semester (full-time) | Hours per week (full-time) | Hours per semester (part-time) | Hours per week (part-time) | Form of assignment |
| Lecture | 30 | 2 | - | - | Exam |
| Laboratory | 30 | 2 | - | - | Credit with grade |
Skills and competences in range: designing of technological processes, productive systems as well as the productive processes; the choice of process and the technology in dependence on: material, shape, function and the size of productions
Basic knowledge about manufacturing technique, materials, metrology, engineering graphics
Topics: theories of production process, manufacturing process, technological process, surroundings of production process, the productiveness, product. Classifications of production processes. Production system and its organization. Manufacturing process planning. Factory layout planning and analysis walk path planning. Product and its feature: functional, usable, trade. Quality computer aided assurance. Computer aided manufacturing, numerical control, direct numerical control. Tooling, equipment, fixtures development. Computer integrated manufacturing (CIM). The Sheer’s concept of information flow. Process simulation tools. Chosen examples of processes in different fields of technique. The form of organization of technological process and productive (the team technology).Technological specialisation and objective. FMS. The functional structure of productive process - the examples. Planning of technological process. The process of development of new product and the technology. Standarization, ISO 10303 norm. Virtual production. Elements of bill of costs. Traditional and integrated cycle of product development. Modern technologies in production systems. Assembly process design. Planning process: sizes of production, efficiency. Rapid tooling, rapid prototyping, rapid manufacturing.
Lecture – aided by mulitimedia presentations, laboratory – using CAM systems
| Outcome description | Outcome symbols | Methods of verification | The class form |
Lecture: exam in writing form which includes verification of knowledge presented in the course of the lecture content
laboratory: on the basis of studies carried out evaluations of components of technological processes and presentation of the project for the selected product.
Lecture – Exam.
Laboratory – credit with a grade. Credits are awarded on the basis of attendance, participation in classroom activities and project presentation.
Final grade: 0,5L+0,5E
1. Cornelius T. Leondes Computer Aided and Integrated Manufacturing Systems, Volume 4: Computer Aided Design Computer Aided Manufacturing (CAD CAM) World Scientific Publishing Company, 2013
2. Thompson Rob. Manufacturing processes for design professionals. Thames&Hudson Ltd. London 2018.
1. Knox, Charles S. CAD/CAM systems planning and implementation. Series: Mechanical engineering (Marcel Dekker Inc.), Publisher: M. Dekker, New York, 2017
Modified by dr inż. Julian Jakubowski, prof. UZ (last modification: 14-06-2023 08:35)
