Module Handbook

  • 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:

Course MV-IVW-86981-K-7

Commercial Aircraft Composite Technology (2V+1U, 4.0 LP)

Course Type

SWS Type Course Form CP (Effort) Presence-Time / Self-Study
- K Lecture with exercise classes (V/U) 4.0 CP 78 h
2 V Lecture 28 h
1 U Lecture hall exercise class 14 h
(2V+1U) 4.0 CP 42 h 78 h

Basedata

SWS 2V+1U
CP, Effort 4.0 CP = 120 h
Position of the semester 1 Sem. in WiSe
Level [7] Master (Advanced)
Language [DE/EN] German or English as required
Lecturers
Area of study [MV-IVW] Composite Materials
Additional informations
Livecycle-State [NORM] Active

Contents

  • Market environment commercial aircraft and importance of the aircraft as a means of transport
  • Importance of lightweight construction in aircraft structures
  • History of the use of composite materials in aircraft construction
  • Requirements for existing and new aircraft
  • Material selection criteria and material properties
  • Aircraft and structural development process
  • Qualification process and certification process
  • Industrial manufacturing processes of primary structures
  • Testing and verification
  • Repair procedures
  • Design studies of wing, fuselage and high-lift structures
  • Interaction of materials, construction methods and manufacturing processes
  • New developments of materials, construction methods and manufacturing processes

Competencies / intended learning achievements

1. Lecture

Students will be able to

  • explain the current and future international importance of the aircraft as a means of transportation
  • explain significant economic and environmental impacts of lightweight aircraft construction using modern materials
  • define and justify the main requirements for composite materials used in aircraft construction
  • state the state of the art with regard to material systems and manufacturing processes used for load-bearing aircraft components
  • explain the basic procedure for the dimensioning as well as the certification of aircraft structures made of fiber-reinforced composites
  • describe the most important design, test and repair principles for aircraft components made of fiber-reinforced composites
  • apply the basic procedure for material qualification
  • analyze the basic interrelationships of material properties, manufacturing technology and construction methods of typical aircraft structures
  • to evaluate advantages and disadvantages of composite aircraft structures

2. Exercise

The students will be able to

  • apply functional analyses to determine component and material specific requirements for aircraft structures
  • synthesize the steps necessary for material qualification
  • evaluate which manufacturing processes are advantageous for specific construction methods and components
  • derive a possible method for the design of a riveted fiber composite repair
  • understand and apply examples of the main non-destructive test methods for fiber composite structures
  • organize their exercise group, discuss and structure their results together in the exercise group, present and defend their results

Literature

  • Breuer: Commercial Aircarft Composite Technology, Springer Verlag
  • Hausmann: Berechnung und Konstruktion von Verbundwerkstoffen 1 - Teil 1-3 - TU-Kaiserslautern, Skript zur Vorlesung
  • Schürmann: Konstruieren mit Faser-Kunststoff-Verbunden (VDI-Buch) - Springer
  • Wiedemann: Leichtbau: Elemente und Konstruktion - Springer
  • IASB: Luftfahrttechnischen Handbuch (LTH); Handbuch Struktur Berechnung (HSB) - http:// www.lth-online.de/arbeitskreise/iasb-strukturberechnung.html
  • Luftfahrt-Bundesamt (Hrsg.), Bundesminister f. Verkehr (Hrsg.): Grundlagen der LFZ-Technik in Theorie und Praxis - Verlag TÜV Rheinland GmbH
  • Ehrenstein: Faserverbund-Kunststoffe: Werkstoffe, Verarbeitung, Eigenschaften - Hanser Fachbuchverlag
  • Flemming, Roth: Faserverbundbauweisen. Eigenschaften: Mechanische, konstruktive, thermische, elektrische, ökologische, wirtschaftliche Aspekte - Springer
  • Hellerich, Harsch, Baur: Werkstoff-Führer Kunststoffe: Eigenschaften, Prüfungen, Kennwerte - Hanser Fachbuchverlag
  • Industrievereinigung - AVK: Handbuch Faserverbundkunststoffe: Grundlagen, Verarbeitung, Anwendungen - Vieweg+Teubner
  • Pilato, Michno: Advanced Composite Materials - Springer
  • Flemming, Ziegmann, Roth: Faserverbundbauweisen, Fasern und Matrices - Springer
  • Flemming, Ziegmann, Roth: Faserverbundbauweisen, Fertigungsverfahren: Fertigungsverfahren mit duroplastischer Matrix - Springer
  • Flemming, Ziegmann, Roth: Faserverbundbauweisen. Halbzeuge und Bauweisen - Springer
  • Neitzel, Mitschang, Breuer: Handbuch Verbundwerkstoffe: Werkstoffe, Verarbeitung - Hanser

Materials

Blackboard, PowerPoint slides, script available

Requirements for attendance (informal)

Modules:

Requirements for attendance (formal)

None

References to Course [MV-IVW-86981-K-7]

Module Name Context
[MV-IVW-184-M-7] Commercial Aircraft Composite Technology P: Obligatory 2V+1U, 4.0 LP