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On fatigue crack growth testing and analysis of non-crystallising rubber using planar tension specimen

Tadej Kocjan, Marko Nagode, Jernej Klemenc, Simon Oman

2022Polymer Testing10 citationsDOIOpen Access PDF

Abstract

Rubber fatigue crack growth tests are one method of characterising fatigue behaviour. Due to the possibility of using one specimen to measure fatigue at multiple load levels, it is often considered a faster and less expensive method compared to the time-consuming fatigue crack initiation tests. In this work, the possibility of a new specimen grip geometry for crack growth tests was investigated, enabling the use of specimens cut from compression moulded plates. Several variations of a crack growth predictor parameter for tests with different mean strain levels were investigated. In addition, the optimum variation of the crack growth angle with respect to the loading direction was evaluated using test measurements. The results show that the use of the simplified crack growth predictor can provide the same results as the commonly used tearing energy. Using the Euclidean length of the crack growth increments gives better results than their horizontal projection, with the possibility of using angle deviations up to 90° without major drawbacks.

Topics & Concepts

Materials scienceParis' lawTearingCrack closureCrack growth resistance curveNatural rubberTension (geology)Compact tension specimenComposite materialFracture mechanicsFatigue testingStructural engineeringWork (physics)PlanarCompression (physics)Computer scienceMechanical engineeringComputer graphics (images)EngineeringFatigue and fracture mechanicsMechanical Engineering and Vibrations ResearchElasticity and Material Modeling
On fatigue crack growth testing and analysis of non-crystallising rubber using planar tension specimen | Litcius