An innovative approach to fatigue disbond propagation in adhesive joints

Journal of Adhesion Science and Technology

Volumn 10, Issue 3, 1996, Pages 183-198

  Aglan, H ^a   Abdo, Z ^a  

^a TUSKEGEE UNIVERSITY   (United States)

Author keywords

Fatigue disbond propagation; Specific energy of damage; Structural adhesive joint

Indexed keywords

BOND STRENGTH (MATERIALS); BONDING; CHARACTERIZATION; ENERGY DISSIPATION; FATIGUE OF MATERIALS; HYSTERESIS; JOINTS (STRUCTURAL COMPONENTS); MATHEMATICAL MODELS; MICROSTRUCTURE; THERMODYNAMIC PROPERTIES; CRACK PROPAGATION; DEBONDING; ENERGY RELEASE RATE; FATIGUE DAMAGE;

ADHESIVE JOINT RESISTANCE; DEBONDING; DISBOND GROWTH RATE; FATIGUE DISBOND PROPAGATION; MODIFIED CRACK LAYER MODEL; SPECIFIC ENERGY OF DAMAGE; STRUCTURAL ADHESIVE JOINT;

ADHESIVE JOINTS;

ADHESIVELY BONDED JOINTS; ALUMINUM 2024-T3; DISBOND; INNOVATIVE APPROACHES; LAP JOINT; LIFETIME ASSESSMENT; NUMBER OF CYCLES; PROCESSING CONDITION; SPECIFIC ENERGY; SPECIFIC ENERGY OF DAMAGE; STRUCTURAL ADHESIVE; SUPERIOR RESISTANCE; TENSION-TENSION;

EID: 0029756287     PISSN: 01694243     EISSN: 15685616     Source Type: Journal    
DOI: 10.1163/156856196X00346     Document Type: Article

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