Multiaxial fatigue of rubber: Part II: Experimental observations and life predictions

Abstract

Fatigue experiments were conducted with an axial-torsion specimen covering a wide range of stretch biaxiality and a range of fatigue lives between 103 and 2 × 106 cycles. These experiments include combined torsion-compression, pure torsion, combined torsion tension and pure axial tension. Both in-phase and out-of-phase combinations of axial and torsion loading were considered. The multiaxial fatigue experiments described provide empirical evidence from which an understanding of the mechanics of the fatigue process in rubber can be developed. Each of the four equivalence parameters described in Part I has been applied to the axial-torsion fatigue experiments described in this paper (Part II). These results provide the basis for an analysis of the effects of multiaxial loading on fatigue life, and an assessment of the degree to which the various equivalence parameters are able to rationalize the results in a unified way. For the combined axial and shear strain histories in this study, the maximum principal strain criterion gave the best correlation to fatigue life. Strain energy density gave the worst correlation. The cracking energy density criterion was generally found to give good correlation of fatigue crack nucleation lives from combined axial-torsion tests. Because it provides a plane-specific analysis, this criterion appears to be particularly well suited for use in crack nucleation analyses of multiaxial strain histories. © 2005 Blackwell Publishing Ltd.

Publication Title

Fatigue and Fracture of Engineering Materials and Structures

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