EXtended Finite Element Method for fracture characterization of adhesive joints in pure mode i

Computational Materials Science

Volumn 50, Issue 4, 2011, Pages 1543-1549

  Campilho, R D S G ^a,b   Banea, M D ^c   Chaves, F J P ^c   Silva, L F M Da ^c  

^a INSTITUTO SUPERIOR DE ENGENHARIA DO PORTO   (Portugal)

^b UNIVERSIDADE LUSÓFONA DE HUMANIDADES E TECNOLOGIAS   (Portugal)

^c UNIVERSITY OF PORTO   (Portugal)

Author keywords

Bonded joints; Experimental testing; eXtended Finite Element Method; Fracture toughness

Indexed keywords

ADHERENDS; BONDED JOINT; BONDED STRUCTURE; BULK SOLIDS; COHESIVE STRENGTH; COHESIVE ZONE MODEL; CRACK GROWTH; DAMAGE INITIATION; DAMAGE MODEL; DOUBLE-CANTILEVER BEAM; EXPERIMENTAL TESTING; EXTENDED FINITE ELEMENT METHOD; FRACTURE BEHAVIOUR; FRACTURE CHARACTERIZATION; GAINING MOMENTUM; INPUT VALUES; LOAD DISPLACEMENTS; NUMERICAL PREDICTIONS; NUMERICAL SIMULATION; REDUCTION METHOD; RELATIVE DISPLACEMENT; TENSILE TESTS; THIN LAYERS; TRACTION-SEPARATION LAW;

ADHESIVE JOINTS; BUILDING MATERIALS; CHEMICAL INDUSTRY; CRACK PROPAGATION; DAMAGE DETECTION; DATA REDUCTION; FRACTURE; FRACTURE TESTING; FRACTURE TOUGHNESS; STRUCTURAL DESIGN; TENSILE STRENGTH; TENSILE TESTING; TRACTION (FRICTION);

FINITE ELEMENT METHOD;

EID: 79151484108     PISSN: 09270256     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.commatsci.2010.12.012     Document Type: Conference Paper

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