- longitudinal dynamics of vehicles
- power requirements
- powertrain
- torque and speed converter
- axle/final drives
- tires
- driving performance
- brakes (structure, function, design issues)
- vehicle safety
Module MV-IMAD-B107-M-4
Automotive Engineering (M, 5.0 LP)
Module Identification
| Module Number | Module Name | CP (Effort) |
|---|---|---|
| MV-IMAD-B107-M-4 | Automotive Engineering | 5.0 CP (150 h) |
| MV-VKM-B107-M-4 | Automotive Engineering | 5.0 CP (150 h) |
| MV-MEMT-9-M-6 | Fahrzeugtechnik | 5.0 CP (150 h) |
Hint concerning Module Number MV-MEMT-9-M-6:
Number, Name and level for Master's degree in metal technology for vocational schools
Basedata
| CP, Effort | 5.0 CP = 150 h |
|---|---|
| Position of the semester | 2 Sem. from SuSe |
| Level | [4] Bachelor (Specialization) |
| Language | [DE] German |
| Module Manager | |
| Lecturers | |
| Area of study | [MV-iMAD] Mechanical and Automotive Design |
| Reference course of study | [MV-82.103-SG] B.Sc. Mechanical Engineering |
| Livecycle-State | [NORM] Active |
Courses
| Type/SWS | Course Number | Title | Choice in Module-Part | Presence-Time / Self-Study | SL | SL is required for exa. | PL | CP | Sem. | |
|---|---|---|---|---|---|---|---|---|---|---|
| 2V | MV-IMAD-86327-K-4 | Automotive Engineering I
| P | 28 h | 47 h | - | - | PL1 | 2.5 | SuSe |
| 2V | MV-IMAD-86328-K-4 | Automotive Engineering II
| P | 28 h | 47 h | - | - | PL1 | 2.5 | WiSe |
- About [MV-IMAD-86327-K-4]: Title: "Automotive Engineering I"; Presence-Time: 28 h; Self-Study: 47 h
- About [MV-IMAD-86328-K-4]: Title: "Automotive Engineering II"; Presence-Time: 28 h; Self-Study: 47 h
Examination achievement PL1
- Form of examination: written exam (Klausur) (120 Min.)
- Examination Frequency: each semester
- Examination number: 10329 ("Automotive Engineering")
Evaluation of grades
The grade of the module examination is also the module grade.
Contents
- transverse dynamics of vehicles
- instantaneous center of rotation
- braking process
- stationary cornering
- dynamic steering behavior
- impacting the self-steering behavior
- suspension and damping
Competencies / intended learning achievements
Students will be able to
- describe and reproduce general concepts and relationships of the longitudinal dynamics of vehicles
- determine the power requirements of vehicles and describe individual demands of the components
- explain different drive systems as well as their properties and characteristics
- describe torque and speed converters and characterize their operation and necessity.
- describe the structure, design and properties of a tire in the context of the overall vehicle system
- characterize and interpret driving performances
- reproduce the structure, requirements and design of brakes and their properties
- describe general aspects of vehicle safety and discuss concrete examples in connection with vehicles
- describe and reproduce general concepts and relationships of the transverse dynamics of vehicles
- determine and adjust the instantaneous center of rotation
- characterize braking maneuvers and explain the related vehicle behavior
- explain basic concepts and relationships of stationary cornering
- describe the meaning as well as concepts of dynamic steering behavior of vehicles
- describe the possibilities and significance of impacting the self-steering behavior
- reproduce and discuss the terms and relations of suspension and damping
For Bachelor's degree teaching profession for vocational schools in metal technology:
Students will be able to understand the general principles of automotive engineering and their application in technology, especially in areas important to vocational schools.
Literature
- Skriptum zu den Vorlesungen
- Braess, Seifert: Handbuch Kraftfahrzeugtechnik, Vieweg Verlag, ISBN 3-528-33114-3
- Heißing, Ersoy: Fahrwerkhandbuch, Vieweg Verlag, ISBN 3-8348-0105-0
Requirements for attendance of the module (informal)
None- Notice: Some Courses have informal requirements for attendance:
Requirements for attendance of the module (formal)
NoneReferences to Module / Module Number [MV-IMAD-B107-M-4]
| Course of Study | Section | Choice/Obligation |
|---|---|---|
| [MV-82.103-SG] B.Sc. Mechanical Engineering | [Specialisation] Vehicle Engineering (if chosen) | [P] Compulsory |
| [MV-82.103b-SG#2022] B.Sc. Maschinenbau 2022 [2022] | [Specialisation] Wahlpflichtbereich / Kompetenzfelder | [WP] Compulsory Elective |
| Module-Pool | Name | |
| [MV-MB-2022-MPOOL-4] | Wahlplichtmodule Bachelor Maschinenbau |
References to Module / Module Number [MV-MEMT-9-M-6]
| Course of Study | Section | Choice/Obligation |
|---|---|---|
| [MV-66.108-SG] M.Ed. LaBBS Metals Technology | [Core Modules (non specialised)] Maschinen- und Fahrzeugtechnik | [P] Compulsory |
References to Module / Module Number [MV-VKM-B107-M-4]
| Course of Study | Section | Choice/Obligation |
|---|---|---|
| [WIW-82.789-SG#2009] B.Sc. Business Studies with Technical Qualifications (2009) [2009] | [Fundamentals] Field of study: Mechanical Engineering | [WP] Compulsory Elective |
| [WIW-82.?-SG#2021] B.Sc. Business Studies with Technical Qualifications (2021) [2021] | [Core Modules (non specialised)] Technical Profile Area | [WP] Compulsory Elective |
Notes on the module handbook of the department Mechanical and Process Engineering
Ausnahmen: