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Plastic deformation analysis of cracked adhesive bonds loaded in shear
Martin Y.M. Chiang
*
,
Chai Herzl
*
Corresponding author for this work
School of Mechanical Engineering
National Institute of Standards and Technology
Research output
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Contribution to journal
›
Article
›
peer-review
44
Scopus citations
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Dive into the research topics of 'Plastic deformation analysis of cracked adhesive bonds loaded in shear'. Together they form a unique fingerprint.
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Keyphrases
Adhesive Bonding
100%
Adhesive Stress
25%
Adhesively Bonded Joints
25%
Bond Thickness
50%
Crack Tip
100%
Deformation Analysis
100%
Drucker-Prager Model
50%
Elastoplastic
25%
Elastoplastic Stress
25%
End-notched Flexure
25%
Finite Element Analysis
25%
Incremental Plasticity
25%
Interface Crack
25%
Large Strain
25%
Load Case
25%
Mode I Loading
25%
Non-associated Flow Rule
25%
Numerical Prediction
25%
Plane Strain
25%
Plastic Deformation
100%
Plastic Zone
25%
Polymer Adhesive
25%
Shear Strain
25%
Strain Degree
25%
Strain Hardening
50%
Stress Field
25%
Stress-strain Response
25%
Triaxial
25%
Von Mises
25%
Yield Behavior
25%
Engineering
Adhesive Bond
100%
Adhesive Stress
25%
Adhesively Bonded Joint
25%
Bond Thickness
50%
Crack Tip
100%
End-Loaded Split
25%
End-Notched Flexure
25%
Experimental Result
25%
Extended Drucker-Prager Model
25%
Finite Element Analysis
25%
Flow Rule
25%
Interface Crack
25%
Loading Case
25%
Material Model
25%
Numerical Prediction
25%
Plane Strain
25%
Plastic Deformation
100%
Plastic Zone
25%
Shear Strain
25%
Strain Hardening
50%
Stress Field
25%
Stress-Strain Relations
25%