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论文类型：期刊论文

发表时间：2018-02-01

发表刊物：INTERNATIONAL JOURNAL OF PLASTICITY

收录刊物：SCIE、EI、Scopus

卷号：101

页面范围：58-73

ISSN号：0749-6419

关键字：Fatigue; Dissipative heating; Rubbers; Carbon-black; Pre-stretch level

摘要：Cyclically loaded styrene-butadiene rubber containing different amounts of carbon-black is experimentally examined under different pre-stretch levels at room temperature. The experimental observations, especially related to both the multi-step eyelid response interrupted by relaxation periods and the dissipative heating, provide valuable insights into the pre-stretch and filler effects on the Underlying physical mechanisms of this rubber-filler material system. According to the active role of carbon-black fillers dispersed in the rubber matrix on the inelastic phenomena via the local microscopic interactions, the constitutive theory formulated in the Part I of this work is modified in order to incorporate explicitly the filler effects. A deterministic identification procedure is proposed to extract the physically interpretable model parameters of the rubber matrix. The properties of the perfect network and the superimposed (entangled and non-entangled) free chains are identified via an amplification-inspired procedure using, respectively, the relaxed stress data as a function of the filler content and the history-dependent mechanical cyclic response at the highest filler content. The identified rubber matrix properties are introduced into the finite element simulations as input constants and the same thermo-mechanical boundary conditions regarding the experimental tests are simulated. The capabilities of the proposed constitutive model to predict the thermo-mechanical response under two cyclic loading blocks with different pre-stretch levels are verified by comparisons with experiments. The constitutive model is found able to successfully capture the pre-stretch and filler effects on the fatigue-induced stress-softening, the hysteresis and the change in temperature.