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Carbon Composites
Prof. Dr.-Ing.
Klaus
Drechsler
Contact
www.lcc.mw.tum.de drechsler@lcc.mw.tum.dePhone +49.89.289.15092
Management
Prof. Dr.-Ing. Klaus Drechsler, Director
Dr. mont. Elisabeth Ladstätter
Adjunct Professors
Dr.-Ing. Oswin Öttinger
Dr.-Ing. Christian Weimer
Prof. Pierre Mertiny, Ph.D., Dipl.-Ing.
Prof. Paul Compston
Administrative and Technical Staff
Cigdem Filker
Katja Knösch
Pelin Hans
Daniel Amrein, B.Sc.
Helmut Josef Dick
Sebastian Gruber
Thomas Witteczek
Reiner Rauch
Research Scientists
Luciano Avila Gray, M.Sc.
Dipl.-Ing. Vincent Backmann
Benno Böckl, M.Sc.
Dominik Boos, M.Sc.
Dennis Bublitz, M.Sc.
David Colin, M.Sc.
Dipl.-Ing. Matthias Copony
Dipl.-Ing. Paul Bockelmann
Dr.-Ing. Christoph Ebel
Dipl.-Ing. Stefan Ehard
Dipl.-Ing. Ralf Engelhardt
Dipl.-Ing. Philipp Fahr
Dr.-Ing. Mathias Hartmann
Klaus Heller, M.Sc.
Dipl.-Ing. Bernhard Horn
Dipl.-Ing. Philipp Kammerhofer
Dipl.-Ing. Kalle Kind
Dipl.-Ing. Andreas Kollmannsberger
Dr. Hannes Körber
Theodosia Kourkoutsaki, M.Sc.
Dipl.-Ing. Jan Krollmann
Peter Kuhn, M.Sc.
Stephan Maidl, M.Sc.
Dipl.-Ing. Ulrich Mandel
Alexander Matschinski, M.Sc.
Dipl.-Ing. Andreas Mierzwa
Jonathan Oelhafen, M.Sc.
Dipl.-Ing. Philipp Picard
Marina Plöckl, M.Sc.
Dipl.-Ing. Maximilian Schäfer
Dipl.-Ing. Philipp Maximilian Schäfer
Dipl.-Ing. Alexander Schwingenschlögl
Florian Sommer, M.Sc.
Dipl.-Ing. Daniel Teufl
Swami Subramaniyan Venkat, M.Sc.
Dipl.-Ing. Mario Vollmer
Dipl.-Ing. Thomas Wettemann
Dipl.-Ing. Swen Zaremba
Research Focus
■■
Process technology for fibers and
textiles
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Process technology for matrix systems
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Simulation
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Material behavior and testing
Competence
The LCC takes an interdisciplinary
approach to research, extending from
raw materials through implementation of
manufacturing technologies to complete
composite components. With specially
developed simulation methods, the
composite manufacturing process chain
can be represented virtually.
Infrastructure
■■
Composite technical lab ‘Preforming
and Thermoset Injection Technology’
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Composite technical lab ‘Thermoplastic
Technology’
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Composite test labor
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Computing cluster
Courses
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Materials and Process Technologies for
Carbon Composites
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Composite Materials and Structure-
property Relationship
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Analysis and Design of Composite
Structures
■■
Production Technologies for Composite
Parts
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Process Simulation and Material
Modeling of Composites
■■
Multifunctional Polymer-based
Composites
■■
Carbon and Graphite – High Perfor-
mance Materials for Key Industries
■■
Supply Chain and Value Creation
Composites
Selected Publications 2017
■■
Eberl, L.; Avila Gray, L.; Zaremba, S.;
Drechsler, K.: The effect of fiber undula-
tion on the strain field for pinned com
posite/titanium joints under tension.
Composites Part A: Applied Science
and Manufacturing 103, 2017, 148-160
■■
Kollmannsberger, A.; Lichtinger, R.;
Hohenester, F.; Ebel, C.; Drechsler, K.:
Numerical analysis of the temperature
profile during the laser-assisted auto
mated fiber placement of CFRP tapes
with thermoplastic matrix. Journal of
Thermoplastic Composite Materials,
2017
■■
Kuhn, P.; Catalanotti, G.; Xavier, J.;
Camanho, P.P.; Körber, H.: Fracture
toughness and crack resistance curves
for fiber compressive failure mode in
polymer composites under high rate
loading. Composite Structures 182,
2017, 164-175
■■
Schäfer, P.M.; Gierszewski, D.;
Kollmannsberger, A.; Zaremba, S.;
Drechsler, K.: Analysis and improved
process response prediction of laser-
assisted automated tape placement
with PA-6/carbon tapes using Design
of Experiments and numerical simu
lations. Composites Part A: Applied
Science and Manufacturing 96, 2017,
137-146
■■
Taubert, R.; Mandel, U.; Hartmann,
M.: Influence of nonlinear material
behavior on the effect of inter-fiber
cracks in composite laminates. Journal
of Composite Materials 51 (27), 2017,
3819-3833