Course title | Interaction of Railway Vehicle and Track |
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Course code | KDPD/DIVC2 |
Organizational form of instruction | Lecture |
Level of course | Doctoral |
Year of study | not specified |
Semester | Summer |
Number of ECTS credits | 0 |
Language of instruction | Czech |
Status of course | Optional |
Form of instruction | Face-to-face |
Work placements | This is not an internship |
Recommended optional programme components | None |
Lecturer(s) |
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Course content |
1.Mechanics of a rail vehicle running on track, modelling a vehicle/track dynamical interaction in a vertical direction. Theoretical solution principles. Track loading. 2. Particular types of rail vehicle and track models. Definition of a straight track and curve. Unášivé pohyby of a rail vehicle. 3. Principles of modelling particular types of elastic and damping elements in a vehicle dynamic model. Modelling of contact vazeb wheelset/track and adhesion vazeb wheel/rail. Various attitudes to solution. 4. Means of mathematical model solution for a numerical simulation of a real rail vehicle's running. Output quantities and their statistical evaluation. Vehicle running behaviour on a straight track, guiding of vehicles on a curved track. 5. Modelling and verification of a numerical simulation of a real rail vehicle running on a real track. Means of experimental analysis of the vehicle/track dynamic interaction and processing of measurement results. 6. Solution for particular problems, force exertion on a track by vehicles, unstable vehicle running, causes of its occurence and consequences.
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Learning activities and teaching methods |
Monologic (reading, lecture, briefing) |
Learning outcomes |
Theoretical analysis and numerical simulation of a rail vehicle running on track. Definition of a straight track and curve, definition of a traffic road. Motions of a rail vehicle. Track bed models. Priciples of rail vehicle discrete models. Principles of modelling particular types of elastic and damping elements in a vehicle model. Modelling of contact joints of wheelset/track and adhesion joints of wheel/rail. Means of mathematical model solution for a numerical simulation of a real rail vehicle's running. Modelling and verification of a numerical simulation of a real rail vehicle running on a real track. Solution for particular problems, force exertion on a track by vehicles, unstable vehicle running, causes of its occurence and consequences.
After graduating from this subject the student is able to solve questions in topic relative interaction of vehicle and track line |
Prerequisites |
unspecified
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Assessment methods and criteria |
Discussion
The subject enrolment for Erasmus students is possible only after approval of the tutor/guarantor of the subject based on a proof of previously taken subjects and their content. |
Recommended literature |
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Study plans that include the course |
Faculty | Study plan (Version) | Category of Branch/Specialization | Recommended semester | |
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Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Means and Infrastructure: Transport Infrastructure (2013) | Category: Transportation and communications | 1 | Recommended year of study:1, Recommended semester: Summer |
Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Means and Infrastructure: Transport Means (2013) | Category: Transportation and communications | 1 | Recommended year of study:1, Recommended semester: Summer |
Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Means and Infrastructure: Transport Infrastructure (2013) | Category: Transportation and communications | 1 | Recommended year of study:1, Recommended semester: Summer |
Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Means and Infrastructure: Transport Means (2013) | Category: Transportation and communications | 1 | Recommended year of study:1, Recommended semester: Summer |
Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Means and Infrastructure: Electrical Engineering (2013) | Category: Transportation and communications | 1 | Recommended year of study:1, Recommended semester: Summer |
Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Means and Infrastructure: Electrical Engineering (2013) | Category: Transportation and communications | 1 | Recommended year of study:1, Recommended semester: Summer |