SylabUZ
Course name | Fundamentals of Engineering Design I |
Course ID | 06.9-WM-ER-ZiIP-25_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 | 5 |
Course type | obligatory |
Teaching language | english |
Author of syllabus |
|
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 | 15 | 1 | - | - | Exam |
Project | 30 | 2 | - | - | Credit with grade |
Transfer of basic knowledge of the field of engineering design. To familiarize students with the identification of components and machine parts, general knowledge of the construction and principles of operation of components and subassemblies of machines such as: connections, couplings, gears, flexible components, bearings, etc. Another goal of the subject is to learn the basic principles of calculation and design of basic machine elements.
Technical drawing, Mechanics, Strength of materials, 2D engineering graphics, Science of materials
Lecture
Basic terms and definitions. Models of the design and construction process. Principles of construction. Technological construction. Normalization, typization and unification of parts and assemblies. Rational selection of materials. Rational shaping of parts. Contemporary models of the design and construction process. The course of the design and construction process. Concurrent engineering. The main differences between the concurrent and the "traditional" model of the design process. Costs, quality and time in concurrent design. Directories of relative costs. Welded, riveted, interference, grooved, splined, pin, bolt, wedge and screw joints - principles of construction, calculations: rules for the selection of all types of connections, the advantages and disadvantages of individual models. Supporting structures. Flexible elements. Tasks of susceptible elements, construction, principle of operation. Bearings and bearings: types of bearings, selection, shaft bearings, axes and shafts, principles of calculation and construction. Fixing elements, seals. Screw mechanisms: types of screw mechanisms, principle of operation, construction. Clutches and brakes: tasks of clutches and brakes, types, construction, principle of operation. Gears. Belt, chain and friction gears. Types of gears: construction and operation principle, disadventages and advantages, design features. Principles of practical use of theoretical knowledge during the implementation of a specific weldment design.
Project
In the project classes, students (in groups of 2 people) carry out the design of a welded construction, which is a welded pressure vessel. Issues in class include:
Lecture: conventional lecture, demonstration.
Project: group work, discussion, brainstorming, ideas exchange, computer work.
Outcome description | Outcome symbols | Methods of verification | The class form |
Lecture: Exam
The condition for obtaining a positive grade is to get at least 60% of the possible points.
Project: Credit with grade.
The condition for passing is the implementation of the project, using appropriate methods and techniques. During the course of the project, the student has to identify simple engineering tasks, solve them for the necessary information from the literature.
Final rating:
The final grade is the sum of two component evaluations with the following weighting factors:
exam grade - 0.6, project grade - 0.4.
1. A. Golenko, Fundamentals of Machine Design A Coursebook for Polish and Foreign Students, e-book by "Europejski Fundusz Społeczny", EU funds
2. R.L. Mott, Machine Elements in Mechanical Design, Prentice Hall, 2003
3. W. Jiang, Analysis and Design of Machine Elements, John Wiley & Sons Singapore Pte. Ltd, 2019
4. R. G. Budynas, J. K. Nisbett, Shigley’s Mechanical Engineering Design, McGraw-Hill Education, 2015
5. V. B. Bhandari, Design of Machine Elements, Tata McGraw Hill Education Private Limited, 2010
1. R. C. JUVINALL, K. M. MARSHEK, Fundamentals of Machine Component Design, 5th ed., JOHN WILEY & SONS, INC. 2012
2. U.K. Ghosh, Design of Welded Steel Structures: Principles and Practice, Stany Zjednoczone, CRC Press, 2015.
Modified by dr inż. Wojciech Babirecki (last modification: 08-06-2023 23:32)