Cohesive law identification of adhesive layers subject to shear load – An exact inverse solution

An exact general solution of the following inverse problem is obtained: given a couple of beams adhesively bonded along a surface parallel to their axes, subject to traction / flexure load, find the unknown interface shear force. This solution is used to identify the cohesive law that characterizes...

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Published inInternational journal of solids and structures Vol. 158; pp. 150 - 164
Main Author Cricrì, Gabriele
Format Journal Article
LanguageEnglish
Published New York Elsevier Ltd 01.02.2019
Elsevier BV
Subjects
Adhesion tests
Adhesive bonding
Adhesives
Configurations
Data reduction
Flexing
Inverse method
Inverse problems
Methodology
Shear decohesion test
Shear forces
Shear decohesion test
Adhesive bonding
Inverse method
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Abstract An exact general solution of the following inverse problem is obtained: given a couple of beams adhesively bonded along a surface parallel to their axes, subject to traction / flexure load, find the unknown interface shear force. This solution is used to identify the cohesive law that characterizes the behaviour of adhesive layers subject to shear load. In order to generate data to be used to evaluate the identification methodology, three decohesion virtual tests are performed by means of detailed FE simulations. The series of tests is related to standard test configurations, and shows the correctness of the inverse solution and the efficiency of the proposed methodology, as it is more precise than the data reduction methodologies provided by literature. If ad hoc test configurations are designed, this identification methodology can be applied to adhesion between different materials and to adhesive layers with variable behaviour.
AbstractList An exact general solution of the following inverse problem is obtained: given a couple of beams adhesively bonded along a surface parallel to their axes, subject to traction / flexure load, find the unknown interface shear force. This solution is used to identify the cohesive law that characterizes the behaviour of adhesive layers subject to shear load. In order to generate data to be used to evaluate the identification methodology, three decohesion virtual tests are performed by means of detailed FE simulations. The series of tests is related to standard test configurations, and shows the correctness of the inverse solution and the efficiency of the proposed methodology, as it is more precise than the data reduction methodologies provided by literature. If ad hoc test configurations are designed, this identification methodology can be applied to adhesion between different materials and to adhesive layers with variable behaviour.
Author Cricrì, Gabriele
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  organization: Department of Industrial Engineering, University of Salerno via Giovanni Paolo II 132, 84084, Fisciano (SA), Italy
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Keywords Shear decohesion test
Adhesive bonding
Inverse method
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Snippet An exact general solution of the following inverse problem is obtained: given a couple of beams adhesively bonded along a surface parallel to their axes,...
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SubjectTerms Adhesion tests
Adhesive bonding
Adhesives
Configurations
Data reduction
Flexing
Inverse method
Inverse problems
Methodology
Shear decohesion test
Shear forces
Title Cohesive law identification of adhesive layers subject to shear load – An exact inverse solution
URI https://dx.doi.org/10.1016/j.ijsolstr.2018.09.001
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