Joints with screws or bolts are widely used in steel constructions. Often, such fasteners are placed in multiple rows. In such a multi-row arrangement the load bearing of individual fasteners is statically indeterminate, thus depending on mechanical behavior of fastener and basic material. The established assessment against static fail-ure is based on the simplifying assumption. Modern simulation methods offer an efficient alternative to expensive experimental investigations of such joints.
The scope of the work is to investigate, to what extent the accuracy of predicting plastic deformations and failure of multi-row joints can be improved using damage mechics simulations. Such simulations do not only incorporate plastic behavior but also local damage and material softening up to failure.
Damage Mechanics Simulation of Failure of Multi-Row Joints in Steel Constructions
Abstract
Keywords
abaqus
computer simulation
ERC sector(s)
PE Physical Sciences and Engineering
Name supervisor
Geralf Hütter
E-mail
geralf.huetter@b-tu.de
Name of Department/Faculty/School
Faculty of Architecture, Civil Engineering and Urban Planning
Name of the host University
Brandenburg University of Technology Cottbus – Senftenberg (BTU)
EUNICE partner e-mail of destination Research
Adriana.Handrich@b-tu.de
Country
Germany
Thesis level
Master
Minimal language knowledge requisite
English B2
Thesis mode
On-site
Start date
Length of the research internship
6 months
Financial support available (other than E+)
No