SylabUZ
| Course name | Selected Topics of Strenght Materials |
| Course ID | 06.1-WM-ER-MiBM-09_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 | 30 | 2 | - | - | Exam |
| Laboratory | 15 | 1 | - | - | Credit with grade |
The aim of the course is to familiarize the students problem-solving methodology and complex analysis of the strength found in mechanical engineering.
Strenght of Materials I, Mechanics I, Mathematics I
LECTURE
Extended scope of the news of item in addition to the strength of materials. Reminder issues related to the types of supports flat and spatial systems. Calculation of the reactions of supports from the equilibrium equations (flat and spatial systems). Graphs of internal forces. The characteristics of geometric cross-sections. Determination of beam deflection. Shear stresses distributions in cross-sections of beams subjected to irregular bending. Torsion of thin-walled beams with open and closed profiles. Application of hypotheses of strength to the sizing of beams and beam systems. loads complex. The use of hypotheses of strength to determine the material effort. Tasks statically determinable. Solving of the systems statically indeterminable. Considerations for disks and plates. Analysis of selected complex structures.
LABORATORY
Laboratory topics:
Measurement of Young's modulus by extensometric method,
Measurement of Young's modulus by method of retaining extensometry
Diagonal bending,
Examination of the compression of rod buckling
Examination of a circular ring strain
Correction exercises, tests.
Lectures with audiovisual aids. Solving classes. Working with the book. Group work in laboratory classes
| Outcome description | Outcome symbols | Methods of verification | The class form |
Lecture
positive evaluation of the test
Laboratory
received positive ratings of reports carried out laboratory
Evaluation of the course is getting positive ratings from all forms: Lecture, Laboratory. The final grade received by the student is the arithmetic mean of the above grades.
1. Mott Robert L. and Untener Joseph A.: Applied Strength of Materials, CRC PRESS Taylor&Francis Group, 2021.
2. Limbrunner G., D'Allaird C., Spiegel L.: Strength of Materials: Fundamentals and Applications, Cambridge, 2015.
3. Case J., Chilver A.Ch., Ross C.T.F., Strength of Materials and Structures, Arnold, the Hodder Headline Group, 1999.
4. da Silva V.D., Mechanics and Strength of Materials, Springer-Verlag, Berlin, Heidelberg, 2006.
5. Kobayashi T., Strength and Toughness of Materials, Springer-Verlag Tokyo, 2004.
1. Niezgodziński M. E., Niezgodziński T., Wytrzymałość materiałów, 1979 PWN wyd. XI,
2. Rżysko J., Statyka i wytrzymałość materiałów , 1979 PWN,
3. Jakubowicz A., Orłoś Z., Wytrzymałość materiałów, 1984 WNT,
4. Gubrynowiczowa J., Wytrzymałość materiałów, 1968 PWN.
5. Banasiak M., Grossman K., Trombski M., Zbiór zadań z wytrzymałości materiałów, 1998, PWN.
Modified by dr inż. Paweł Jurczak (last modification: 05-06-2023 11:43)
