Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1558672 | Procedia Structural Integrity | 2016 | 10 Pages |
Abstract
Structural tapes provide comparable toughness as structural adhesives at orders of magnitude lower stresses. This is potentially useful to minimize the effects of differences in thermal expansion in the joining of mixed materials. The strength properties are modelled using the cohesive zone model. Thus, a cohesive zone represents the tape, i.e. stresses in the tape are transmitted to the substrates through tractions determined by the separations of the surfaces of substrates. This simplification allows for structural analysis of large complex structures. The relation between the traction and the separation is measured experimentally using methods based on the path independence of the J-integral. Repeated experiments are performed at quasi-static loading. A mixed mode cohesive law is adapted to the experimental data. The law is implemented as a UMAT in Abaqus. Simulations show minor thermal distortions due to thermal loading and substantial structural strength in mechanical loading of a mixed material structure.
Related Topics
Physical Sciences and Engineering
Materials Science
Materials Chemistry
Authors
Ulf Stigh, Anders Biel, Daniel Svensson,