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Module code: FT61 |
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2V (2 hours per week) |
2 |
Semester: 6 |
Mandatory course: no |
Language of instruction:
German |
Assessment:
Written exam
[updated 30.09.2020]
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FT61 (P241-0308) Automotive Engineering, Bachelor, ASPO 01.10.2011
, optional course, specialisation
FT61 (P241-0308) Automotive Engineering, Bachelor, ASPO 01.10.2015
, optional course, specialisation, course inactive since 27.07.2017
FT61 (P241-0308) Automotive Engineering, Bachelor, ASPO 01.04.2016
, semester 6, optional course, specialisation
FT61 (P241-0308) Automotive Engineering, Bachelor, ASPO 01.10.2019
, semester 6, optional course, specialisation
MAB.4.2.4.6 Mechanical and Process Engineering, Bachelor, ASPO 01.10.2013
, optional course, specialisation
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30 class hours (= 22.5 clock hours) over a 15-week period. The total student study time is 60 hours (equivalent to 2 ECTS credits). There are therefore 37.5 hours available for class preparation and follow-up work and exam preparation.
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Recommended prerequisites (modules):
FT04.1 Introduction to Automotive Engineering FT17 Automotive Engineering I FT22 Automotive Engineering II
[updated 03.04.2019]
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Recommended as prerequisite for:
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Module coordinator:
Prof. Dr.-Ing. Rüdiger Tiemann |
Lecturer: Dipl.-Ing. Georg Stefan Hagemann
[updated 11.05.2019]
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Learning outcomes:
After successfully completing this course, students will be able to: _ name the main criteria for the use of commercial vehicles based on technical and business management data, _ describe technical solution possibilities for the application of systems in commercial vehicles and explain their mode of operation, _ explain the interaction of the most relevant systems with each other with their advantages and disadvantages, _ describe the most relevant design components and their design parameters, _ apply the standard approach to the development of trucks using the knowledge they have acquired.
[updated 30.09.2020]
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Module content:
Lecture block 1: Introduction to the commercial vehicle industry 1.1 Introduction 1.2 The Daimler Group * What is the strategy behind a global corporation? * What synergies exist between car and truck technologies? * What are the technical/economic challenges? * What does the future of vehicle traffic look like? 1.3 _Global Player_ (1): Daimler trucks, Daimler buses, Mercedes-Benz vans * What does "Global Player" mean ? * What are the requirements for a global player? * How is global playing implemented? * How can global playing be realized economically ? * What opportunities/risks are there and how do you deal with them? 1.4 _Global Player_ (2): Competitors * What does the market look like in individual regions? * Can there be a global truck? * How are competitors positioned and how are they organized? * What are the effects of competition on in-house developments? * Which vehicle concepts are possible for different customer requirements? Lecture block 2: The "commercial vehicle" and its development 2.1 Definition of a commercial vehicle * What is a commercial vehicle? * What types of commercial vehicles are there? What are the differences? * Why are commercial vehicles different? * What does "modular system" mean? 2.2 History and technological development * Since when have there been commercial vehicles? * How have commercial vehicles developed and why? * Which technologies make sense, which can be expected? 2.3 Transport economy and operating costs * What does profitability mean? What is TCO? * What influence do trucks have on TCO, what influence do technologies have? * Which factors can influence manufacturers and entrepreneurs? 2.4 Legal framework conditions * Which basic conditions have to be considered? * What do solutions for market/region-specific requirements look like? * How are technical solutions brought to market/homologized? * What influence do laws have on development and cost structure? 2.5 Development processes * What is the timeline for developing a commercial vehicle? * What distinguishes new developments from facelifts? * Which steps must be considered during development? * What processes are used to develop trucks? * How is quality verified, how is the operational fitness? * Which methods are used in development? * What influence do modern development methods have on costs and time? Lecture block 3: Vehicle concept and components 3.1 Basic concept, complete vehicle * Which boundary conditions influence the vehicle concept? * Which assemblies determine the vehicle concept? * How is a vehicle designed? 3.2 Cab and interior * Which cab types are there? * Which boundary conditions (laws, safety, ergonomics) have to be considered? * How do customer requirements influence the design of cabs? * What is a TruckClinic? * What influence does the driver have on the design of the cabin? 3.3 Frames and attachments * What is the main purpose of the truck frame? * Which frame types are available and why? How do they differ? * How is a frame designed? * What are the functions of a truck frame and which attachments are available? 3.4 Lightweight construction * What is lightweight construction? * Why is lightweight construction used and which boundary conditions have to be considered? * How can the gap between payload and costs be closed? * What influence will lightweight construction have in the future? 3.5 Theory and practice _ The truck at your fingertips (semi-trailer truck) * What does the transition from theory to practice look like? * What are the names of the individual components? * Why are the components located where they are? What are the alternatives? * How do you evaluate the arrangement / operation / function of the individual assemblies? Lecture block 4: Powertrain concepts, aggregates 4.1 Powertrain design * Which boundary conditions must be considered? * Why do I need a powertrain design? What is the purpose? * How is a powertrain designed? * What influence does the powertrain design have on the use of the truck? 4.2 Assemblies (engine, transmission, axles) * Which assemblies does a truck have? * Which boundary conditions have to be considered when choosing the assemblies? * How are the assemblies constructed? * How do the assemblies work? How do the assemblies interact? 4.3 Alternative drives and fuels * Why is the powertrain the way it is? * Which boundary conditions influence the drive type? * Why do we need alternative drives? * What alternative drives are available and what do they look like? * What are the advantages and disadvantages of the alternative drives? 4.5 Theory and practice _ The truck at your fingertips (four-wheel drive tipper) * What does the transition from theory to practice look like? * Which differences between the semi-trailer truck and the tipper are obvious? * Why are the components located where they are? What are the alternatives? * How do you evaluate the arrangement / operation / function of the individual assemblies? Lecture block 5: Vehicle systems and properties 5.1 Steering, wheel guidance, brake system, electrics, electronics * What systems are required to operate a truck? * Which boundary conditions must be considered when developing the systems? * How do the systems in a truck work? * How do individual systems work together to become a truck? 5.2 Evaluation methodology in testing and simulation * How is a truck and its systems/components/properties evaluated? * How is s truck tested? * How do design, simulation and testing interact? * Which methods are used to evaluate trucks? 5.3 Operational stability, vibration and noise comfort, driving behavior * Which characteristics of a truck should be evaluated? * How do these characteristics affect the real use of the truck? * How can these characteristics be compared with those of market competitors? * How can the characteristics of trucks be influenced during development? 5.4 Active and passive safety * What is the difference between active and passive safety? * Which components/systems influence the safety of trucks ? * Which boundary conditions must be considered (laws, technology)? 5.5 The future truck 2025 _ Man and vehicle in harmony * What will transport look like in the future? * What does the truck of the future look like? * Which tasks will the driver have in the future?
[updated 30.09.2020]
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Teaching methods/Media:
Lecture notes
[updated 30.09.2020]
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Recommended or required reading:
[still undocumented]
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