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Volumn 42, Issue 13, 2001, Pages 5803-5811
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Fatigue failure mechanisms of short glass-fiber reinforced nylon 66 based on nonlinear dynamic viscoelastic measurement
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Author keywords
Fatigue failure mechanisms; Glass fiber; Viscoelastic
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Indexed keywords
CRACK PROPAGATION;
DUCTILITY;
FATIGUE TESTING;
FOURIER TRANSFORMS;
MATHEMATICAL MODELS;
MICROCRACKS;
MORPHOLOGY;
OPTICAL MICROSCOPY;
VISCOELASTICITY;
NONLINEAR VISCOELASTICITY;
VOID FORMATION;
GLASS FIBER REINFORCED PLASTICS;
GLASS FIBER;
NYLON;
FAILURE ANALYSIS;
FATIGUE;
FIBER-REINFORCED MATERIAL;
GLASS FIBER;
VISCOELASTICITY;
CHEMICAL STRUCTURE;
CONFERENCE PAPER;
FOURIER ANALYSIS;
MATERIALS TESTING;
MEASUREMENT;
MOLECULAR DYNAMICS;
NONLINEAR SYSTEM;
VISCOELASTICITY;
FATIGUE;
FIBER REINFORCED COMPOSITE;
GLASS FIBER;
NYLON 66;
VISCOELASTICITY;
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EID: 0035970573
PISSN: 00323861
EISSN: None
Source Type: Journal
DOI: 10.1016/S0032-3861(00)00897-1 Document Type: Article |
Times cited : (72)
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References (17)
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