Effect of initiation chemistry on the fracture toughness, fatigue, strength, and residual monomer content of a novel high-viscosity, two-solution acrylic bone cement

Journal of Biomedical Materials Research

Volumn 59, Issue 3, 2002, Pages 411-421

  Hasenwinkel, Julie M ^a,d   Lautenschlager, Eugene P ^b   Wixson, Richard L ^c   Gilbert, Jeremy L ^d  

^a Northwestern University   (United States)

^b NORTHWESTERN UNIVERSITY   (United States)

^c NORTHWESTERN UNIVERSITY   (United States)

^d Syracuse University   (United States)

Author keywords

Bone cement; Fatigue; Fracture toughness; Poly(methyl methacrylate) (PMMA); Residual monomer

Indexed keywords

CEMENT COMPOSITIONS;

BENDING STRENGTH; COMPOSITION; FATIGUE OF MATERIALS; FRACTURE TOUGHNESS; FREE RADICALS; MONOMERS; POLYMERIZATION; POLYMETHYL METHACRYLATES; STOICHIOMETRY;

BONE CEMENT;

BENZOYL PEROXIDE; BONE CEMENT; METHACRYLIC ACID METHYL ESTER; POLY(METHYL METHACRYLATE); TOLUIDINE DERIVATIVE;

ARTICLE; BIOMECHANICS; MATHEMATICAL ANALYSIS; STOICHIOMETRY; STRESS FRACTURE; TENSILE STRENGTH;

BENZOYL PEROXIDE; BONE CEMENTS; MECHANICS; MICROSCOPY, ELECTRON; SPECTROSCOPY, FOURIER TRANSFORM INFRARED; STRESS, MECHANICAL; SURFACE PROPERTIES; TOLUIDINES; VISCOSITY;

EID: 0037022694     PISSN: 00219304     EISSN: None     Source Type: Journal    
DOI: 10.1002/jbm.1257     Document Type: Article

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