DFG Graduiertenkolleg 2423

PI, P11: Fracture Control by Material Optimization
Co-Pi, P10:
Configurational Fracture/Surface Mechanics
GRK2423: Fracture across scales

Coordinator: Prof. Dr.-Ing. P. Steinmann (Erlangen)

EU ITN Network POEMA (2019-2022)

Polynomial Optimization, Efficiency through Moments and Algebra

Coordinator: Prof. Dr. B. Mourrain (INRIA Sophia Antipolis, Nice)

DFG Sonderforschungsbereich 814

C2: Robuste Struktur- und Prozessoptimierung im Kontext der additiven Fertigung
SFB814: Additive Fertigung, Teilprojekt C2

Coordinator: Prof. Dr.-Ing. D. Drummer (Erlangen)

DFG Sonderforschungsbereich Transregio 154

B06: Robustification of Physical Parameters in Gas Networks
TRR254: Teilprojekt B06

Coordinator: Prof. Dr. A. Martin (Erlangen)

Additive Fertigung für das Flugzeug (ALM2AIR)

Luftfahrtforschungsprogramm(LuFo) 5-2

“Optimization of components for additive manufacturing”

This project aims to advance techniques for lattice optimization in the context of additive manufacturing using titanium alloy (Ti-6Al-4V). We study the full workflow from selection of parametrized base cells for stiffness optimization, the optimization algorithm, the interpretation of optimized results, as a macroscopic lattice design including predefined solid and void non-design regions, and the generation of a ready-to-print surface description of the lattice structure. For the field of structural optimization, the SGP (Sequential Global Programming) algorithm is advanced allowing the distinct choice between solid, void and lattice during the optimization process.

DFG Schwerpunktprogramm 1679

Dynamische Simulation vernetzter Feststoffprozesse
Modellierung, Simulation und Optimierung von Prozessketten

SPP1679: DynSim-FP

PI: Prof. Dr. G. Leugering, Coordinator: Prof. Dr. Stefan Heinrich (Hamburg)

Optimization of iron oxide Pigments (2012-2017)

The dependency of the optical properties of a pigment film and the shape or shape distribution of the pigment is studied within this project. Further, this dependency is used to identify regions in parameterized shape space which will lead to better color values of the pigment.


Prof. Dr. Günter Leugering (Erlangen), Prof. Dr.-Ing. Wolfgang Peukert (Erlangen), Prof. Dr. Ulf Peschel (Erlangen), Prof. Dr. Robin N. Klupp Taylor (Erlangen), Dr. Lukas Pflug (Erlangen)

The P&G SimCenter

Master Collaboration Agreement with Procter & Gamble


Coordination: Zentralinstitut for Scientific Computing

Industrial Partners:

e.g.: Adidas, Airbus, BASF, Lanxess, Procter & Gamble, Schaeffler, Siemens, …


Friedrich-Alexander-Universität Erlangen-Nürnberg