Fracture mode dependent damage modelling of 3D textile-reinforced composites under multiaxial fatigue loading

M. Gude; W. Hufenbach; I. Koch

Fracture mode dependent damage modelling of 3D textile-reinforced composites under multiaxial fatigue loading

Research output: Contribution to book/conference proceedings/anthology/report › Conference contribution › Contributed › peer-review

Contributors

M. Gude - , Institute of Lightweight Engineering and Polymer Technology (Author)
W. Hufenbach - , Chair of Lightweight Engineering and Polymer Technology (Author)
I. Koch - , Institute of Lightweight Engineering and Polymer Technology (Author)

Abstract

For the simulation of the material degradation process of 3D textile-reinforced composites during multi-axial fatigue loading a new physically based damage model is developed based on the fracture mode concept (FMC) of CUNTZE and the continuum damage mechanics. The determination of the model parameters and the model verification is done in cyclic tests of glass/epoxy tube specimens, with multi-layered weft knitted fabric reinforcement, under superposed tension/compression-torsion loading.

Details

Original language	English
Title of host publication	ICCM-17 - 17th International Conference on Composite Materials
Publisher	International Committee on Composite Materials
Publication status	Published - 2009
Peer-reviewed	Yes

Conference

Title	17th International Conference on Composite Materials
Abbreviated title	ICCM 17
Conference number	17
Duration	27 - 31 July 2009
City	Edinburgh
Country	United Kingdom

External IDs

ORCID	/0000-0003-1370-064X/work/142243669

Research Portal of the TU Dresden

Fracture mode dependent damage modelling of 3D textile-reinforced composites under multiaxial fatigue loading

Contributors

Abstract

Details

Conference

External IDs

Keywords

ASJC Scopus subject areas

Keywords