Impact fracture behavior and damage mechanisms of PP/EVOH blends compatibilized with ionomer Zn2+

Journal of Applied Polymer Science

Volumn 117, Issue 5, 2010, Pages 2515-2522

  Montoya, M ^a   Abad, M J ^a   Losada, L Barral ^a   Pettarin, V ^b   Bernal, C ^c  

^a UNIVERSITY OF A CORUÑA   (Spain)

^b UNIVERSIDAD NACIONAL DE MAR DEL PLATA   (Argentina)

^c UNIVERSIDAD DE BUENOS AIRES   (Argentina)

Author keywords

Blends; Damage mechanisms; Impact fracture; Mechanical properties; Polypropylene

Indexed keywords

ABSORPTION MECHANISMS; DAMAGE MECHANISM; DAMAGE MECHANISMS; DEFORMATION MECHANISM; DUCTILE BEHAVIOR; DUCTILE TEARING; EXPERIMENTAL DATA; IMPACT FRACTURE; IMPACT FRACTURE BEHAVIOR; IMPACT LOADINGS; INITIATION ENERGY; PP MATRIX; PREMATURE FAILURES; QUASI-STATIC STRESS; SECOND PHASE PARTICLES; TOUGHENING EFFECTS; WORK OF FRACTURE;

DEBONDING; INTERCALATION; MECHANICAL PROPERTIES; THERMOPLASTICS; ZINC;

FRACTURE;

DAMAGE; DEBONDING; DEFORMATION; FRACTURE; IMPACT; PARTICLE SIZE; POLYMER BLEND; POLYPROPYLENE; TOUGHNESS;

EID: 77953235487     PISSN: 00218995     EISSN: 10974628     Source Type: Journal    
DOI: 10.1002/app.32149     Document Type: Article

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