Dynamischer Default-Fachbereich geändert auf MV

Notes on the module handbook of the department Mechanical and Process Engineering

Die hier dargestellten veröffentlichten Studiengang-, Modul- und Kursdaten des Fachbereichs Maschinenbau und Verfahrenstechnik ersetzen die Modulbeschreibungen im KIS und wuden mit Ausnahme folgender Studiengänge am 28.10.2020 verabschiedet.

Ausnahmen:

BSc. Bio- und Chemieingenieurwissenschaften (Stand WS 20/21): https://www.mv.uni-kl.de/fileadmin/mv/Studium_Lehre/Modulhandbuecher/MH_BSc_BCI.pdf
BEd. Lehramt Metalltechnik (Stand WS 19/20): https://www.mv.uni-kl.de/fileadmin/mv/Studium_Lehre/Modulhandbuecher/MHB_Bachelor_Lehramt_Metalltechnik.pdf
MSc. Bio- und Chemieingenieurwissenschaften (Stand WS 20/21): https://www.mv.uni-kl.de/fileadmin/mv/Studium_Lehre/Modulhandbuecher/MH_Msc_BCI.pdf
MEd. Lehramt Metalltechnik Werkstoffe und Fertigung (Stand WS 19/20): https://www.mv.uni-kl.de/fileadmin/mv/Studium_Lehre/Modulhandbuecher/MHB_Master_Lehramt_Metalltechnik_-_Werkstoffe_und_Fertigung.pdf
MEd. Lehramt Metalltechnik Maschinen- und Fahrzeugtechnik (Stand WS 19/20): https://www.mv.uni-kl.de/fileadmin/mv/Studium_Lehre/Modulhandbuecher/MHB_Master_Lehramt_Metalltechnik_-_Fahrzeugtechnik.pdf
MEd. Lehramt Metalltechnik Verfahrenstechnik (Stand WS 19/20): https://www.mv.uni-kl.de/fileadmin/mv/Studium_Lehre/Modulhandbuecher/MHB_Master_Lehramt_Metalltechnik_-_Verfahrenstechnik.pdf

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 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	Stephan, Nicole, Dr.-Ing. (WMA \| DEPT: MV) Teutsch, Roman, Prof. Dr.-Ing. (PROF \| DEPT: MV, GS)
Lecturers	Engel, Hans G., Prof. Dr.-Ing. (EXT \| DEPT: MV)
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.

From [MV-IMAD-86327-K-4] Automotive Engineering I:

longitudinal dynamics of vehicles
power requirements
powertrain
torque and speed converter
axle/final drives
tires
driving performance
brakes (structure, function, design issues)
vehicle safety

From [MV-IMAD-86328-K-4] Automotive Engineering II:

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 (informal)

None

Requirements for attendance (formal)