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Strength of Materials
Major: Motor Vehicle Transport
Code of subject: 6.274.00.O.025
Credits: 5.00
Department: Bridges and Structural Mechanics
Lecturer: Palyukh Volodymyr Mykhaylovych
Semester: 3 семестр
Mode of study: денна
Learning outcomes: As a result of studying the academic discipline, the student must be able to demonstrate the following learning outcomes:
– knowledge of the theoretical bases of calculations for the strength, stiffness and stability of machine parts in the amount required for solving design, production-technological, design and research problems;
- the ability to perform design calculations of the main elements of machines, mechanisms, technological equipment, engineering structures, to select rational calculation methods, to substantiate the forms of these elements and materials for their manufacture, to ensure high efficiency of constructions, their reliability and durability.
Required prior and related subjects: Previous academic disciplines.
Higher mathematics. Physics. Theoretical mechanics.
Associated and subsequent academic disciplines.
Machine parts and lifting and transport equipment. Technological equipment of road transport enterprises. Maintenance and repair of car bodies.
Summary of the subject: Resistance of materials as an important general technical discipline plays a leading role in engineering education. The discipline "Resistance of materials" lays the foundations for the formation of the engineering opinion of a future specialist in the field of transport and mechanical engineering and is one of the important educational disciplines of bachelor's training. The course includes studying the following sections:
General provisions, hypotheses and concepts of resistance of materials. Tension and compression of rods. Calculation of strength by the method of allowable stresses. Basics of stress state theory. Strength criteria. Geometric characteristics of flat sections. Clean shift. Torsional deformation. Bending deformation. Stability of compressed rods.
Complex resistance. Energetic methods of displacement determination. Calculation of statically indeterminate rod systems. Calculation of strength under periodically changing load. Free and forced oscillations of mechanical systems. Calculation of structures taking into account the action of dynamic loads.
Theoretical material is taught during lectures, and its assimilation is formed in laboratory works and practical classes.
Assessment methods and criteria: Measures for evaluating the learning outcomes of education seekers include current and semester monitoring of learning outcomes.
Current control is carried out during practical and laboratory classes of the student, it aims to check the level of assimilation of theoretical and practical knowledge. Forms of ongoing control for full-time education students – protection of laboratory work reports, for part-time education students – protection of laboratory work reports and written and oral control of the performance of control work.
The method of assessing the level of achievement of learning outcomes of students during the defense of reports on laboratory work is written control. Methods of assessing the level of achievement of learning outcomes during written and oral control of the performance of control tasks - written control, oral survey.
Semester control is carried out in the form of an exam. Methods of evaluating the learning outcomes of students during the exam - closed-form test control, written control (solving problems), oral survey.
Current control.
Forms of current control and maximum points:
- laboratory work - 40 points.
Total for current control - 40 points.
Examination control.
Forms of examination control and maximum points:
- written component – 50 points;
- oral component – 10 points;
Total for examination control - 60 points.
Total for the discipline - 100 points.
Recommended books: Basic
1. Opir materialiv: Pidruchnyk /H. S. Pysarenko, O. L. Kvitka, E. S. Umans?kyy. – K.: Vyshcha shk., 2004. – 656 s.
2. Posats?kyy S . L. Opir materialiv / S. L. Posats?kyy – L?viv: Vyd. LDU, 1973. – 404 s.
Dopomizhna
1. Opir materialiv. Za redaktsiyeyu H. S. Pysarenka.. – K.: Vyshcha shkola, 1974. – 303 s.
2. Feodosyev V . Y. Soprotyvlenye materyalov / V. Y. Feodos?ev – M.: Vysshaya shkola, 1985. – 512 s.
3. Kornilov O . A. Opir materialiv / O. A. Kornilov – K.: LOHOS, 2000.
4. Ol?khovyy I. M. Korotkyy kurs oporu materialiv / I. M. Ol?khovyy, B. M. Stasyuk, V . Z. Stankevych – L?viv: Vyd-vo NU «L?vivs?ka politekhnika», 2004. – 196 s.
5. Kovtun V . V. Opir materialiv. Rozrakhunkovi roboty: Navchal?nyy posibnyk / V. V. Kovtun, V. S. Pavlov, O. A. Dorofeyev – L?viv: Afisha, – 2002.
Accessorial
1. Opir materialiv. Za redaktsiyeyu H. S. Pysarenka.. – K.: Vyshcha shkola, 1974. – 303 s.
2. Feodosyev V . Y. Soprotyvlenye materyalov / V. Y. Feodos?ev – M.: Vysshaya shkola, 1985. – 512 s.
3. Kornilov O . A. Opir materialiv / O. A. Kornilov – K.: LOHOS, 2000.
4. Ol?khovyy I. M. Korotkyy kurs oporu materialiv / I. M. Ol?khovyy, B. M. Stasyuk, V . Z. Stankevych – L?viv: Vyd-vo NU «L?vivs?ka politekhnika», 2004. – 196 s.
5. Kovtun V . V. Opir materialiv. Rozrakhunkovi roboty: Navchal?nyy posibnyk / V. V. Kovtun, V. S. Pavlov, O. A. Dorofeyev – L?viv: Afisha, – 2002.
Educational and methodological support
1. Vyprobuvannya stali na roztyah : instruktsiya do laboratornoyi roboty № 1 z kursu «Opir materialiv» dlya studentiv inzhenerno-tekhnichnykh spetsial?nostey / uklad.: YE.V. V. Kharchenko, V. M. Palyukh, B. M. Stasyuk, I. ya. Zhbadyns?kyy, V.V. Vira. – L?viv : Vydavnytstvo L?vivs?koyi politekhniky, 2020. – 12 s.
2. Vyprobuvannya stali, chavunu, derevyny ta tsementnoho kamenyu na stysk : instruktsiya do laboratornoyi roboty № 2 z kursu «Opir materialiv» dlya studentiv inzhenerno-tekhnichnykh spetsial?nostey. / uklad.: YE. V. Kharchenko, R. A. Koval?chuk, KH. I. Lishchyns?ka, V. M. Palyukh. – L?viv : Vydavnytstvo L?vivs?koyi politekhniky, 2015. – 16 s.
3. Eksperymental?ne vyvchennya zakonu Huka. Vyznachennya modulya Yunha ta koefitsiyenta Puassona dlya stali: Instruktsiya do laboratornoyi roboty № 3 z kursu «Opir materialiv» dlya studentiv mekhaniko-budivel?nykh spetsial?nostey / Ukl.: YE. V. Kharchenko, B. T. Martynovych, R. A. Koval?chuk, V. M. Palyukh – L?viv: Vydavnytstvo L?vivs?koyi politekhniky, 2014. – 15 s.
4. Vyznachennya modulya zsuvu iz vyprobuvan? na kruchennya: instruktsiya do laboratornoyi roboty № 4 z kursu «Opir materialiv» dlya studentiv inzhenerno-tekhnichnykh spetsial?nostey. / uklad. : YE. V. Kharchenko, M. I. Voytovych, B. T. Martynovych, V. M. Palyukh. – L?viv: Vydavnytstvo L?vivs?koyi politekhniky. 2013. – 8 s.
5. Doslidzhennya napruhy i peremishchennya pry pryamomu poperechnomu z•hyni balky. Instruktsiya do laboratornoyi roboty № 6 z kursu «Opir materialiv» dlya studentiv inzhenerno-tekhnichnykh spetsial?nostey / Uklad.: Stasyuk B. M., Kharchenko YE. V., Zhbadyns?kyy I. YA., Palyukh V. M., Martynovych B. T. – L?viv: Vydavnytstvo Natsional?noho universytetu «L?vivs?ka politekhnika», 2016. – 16 s.
6. Doslidzhennya kosoho z•hinu pryamoho stryzhnya : instruktsiya do laboratornoyi roboty № 7 z kursu «Opir materialiv» dlya studentiv inzhenerno-tekhnichnykh spetsial?nostey / uklad.: YE.M. V. Kharchenko, V. M. Palyukh, B. M. Stasyuk, I. A. Dereven?ko, V.V. Vira. – L?viv : Vydavnytstvo L?vivs?koyi politekhniky, 2021. – 16 s.
7. Doslidzhennya stiykosti stysnenykh pryamykh stryzhniv : instruktsiya do laboratornoyi roboty № 28 z kursu «Opir materialiv» dlya studentiv inzhenerno-tekhnichnykh spetsial?nostey / uklad. : YE. V. Kharchenko, V. M. Palyukh, B. M. Stasyuk, B. T. Martynovych. – L?viv: Vydavnytstvo L?vivs?koyi politekhniky, 2015. – 12 s.
8. Doslidzhennya napruzhen? i peremishchen? u ploskiy statychno nevyznacheniy rami. Instruktsiya do laboratornoyi roboty № 15 z kursu «Opir materialiv» dlya studentiv inzhenerno-tekhnichnykh spetsial?nostey / Ukl.: Kharchenko YE. V., Palyukh V. M., Stasyuk B. M., Dereven?ko I. A., Vira V. V. – L?viv: Natsional?nyy universytet «L?vivs?ka politekhnika», 2021. – 14 s.
Information resources
1. https://mathalino.com/reviewer/mechanics-and-strength-of-materials/mechanics-and-strength-of-materials
2. http://www.sopromat.info