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Jensen, Henrik Myhre
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Topics
Publications (10/10 displayed)
- 2023Compressive strength prediction of carbon fiber-reinforced pultruded profiles including realistic volumetric fiber orientationscitations
- 2019Kink band predictions in fiber composites using periodic boundary conditionscitations
- 2018Micromechanics of kink band formation in open-hole fibre composites under compressive loadingcitations
- 2018Micromechanics of kink band formation in open-hole fibre composites under compressive loadingcitations
- 2016Experimental study of cracks at interfaces with voidscitations
- 2011Simulation of Post Failure Response in Fiber Composites
- 2007Interface fracture in adhesively bonded shell structurescitations
- 2006A Fracture Mechanical Model and a Cohesive Zone Model of Interface Fracture
- 2004Cohesive zone modelling of interface fracture near flaws in adhesive jointscitations
- 2003Crack initiation and growth in brittle bondscitations
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article
Crack initiation and growth in brittle bonds
Abstract
A fracture mechanics based analysis of the strength of a bond between a thin plate and a substrate is presented. The bond edge is regarded as a crack front, which is loaded under combined mode I, II and III conditions. A numerical procedure is used to study crack initiation and growth. Results for bond strength are presented and effects of free plate edges and closely spaced bonds are studied. Crack growth at the interface is simulated by assuming a growth rate criterion, which is verified by ensuring that the fracture criterion is satisfied locally along the growing front. Experimental results are obtained and show good qualitative agreement with predictions.