2014
DOI: 10.1177/1056789514524075
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A modified nonlinear fatigue damage accumulation model

Abstract: This paper presents a modified nonlinear fatigue damage accumulation model accounting for load interaction effects. The original model is based on physical property degradation of materials, from which the load interaction effects are ignored. However, the load interaction effects have a significant influence on the fatigue life. In the study, by analyzing five damage models, a load interaction parameter is obtained and added to the original model. Experimental work is then carried out to verify the modified m… Show more

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Cited by 106 publications
(102 citation statements)
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“…The residual life of the K417 alloy under LH loading path was estimated using the proposed and existing models . It should be pointed out that the physical materials of K417 at 750 and 850°C were introduced into the physics based model (Equation ) due to the lack of experimental data.…”
Section: Resultsmentioning
confidence: 99%
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“…The residual life of the K417 alloy under LH loading path was estimated using the proposed and existing models . It should be pointed out that the physical materials of K417 at 750 and 850°C were introduced into the physics based model (Equation ) due to the lack of experimental data.…”
Section: Resultsmentioning
confidence: 99%
“…Ye‐Wang model accounted for the effect of loading sequence and could be applied conveniently in engineering using equivalent‐loading postulate. Lv et al pointed out that the effect of load interaction had a significant influence on the residual fatigue life and modified Ye‐Wang model by introducing a loading interaction factor: nitalic2Nf2=1n1Nfitalic1lnNfitalic2lnNfitalic1σitalic1σitalic2. …”
Section: Nonlinear Damage Accumulation Modelsmentioning
confidence: 99%
“…Then, Equation can be simplified as Dln()1nNfitaliclnNf. The two‐block loading spectrum which is of special interest to test nonlinear damage models, is normally defined by the applied high and low stress amplitude blocks, respectively, during n H and n L loading cycles. Lv et al presented a new damage accumulation model by extending the Ye‐Wang model for fatigue analysis under variable amplitude loadings. For two‐block loadings, by introducing the equivalent fatigue damage concept, the residual life fraction under the second block can be obtained by n2Nf2=1n1Nf1lnNf2lnNf1 where n 1 and n 2 represent the number of cycles at the two loading stress levels, respectively, and N f 1 and N f 2 stand for fatigue life at the corresponding loading stress level.…”
Section: Existing Nonlinear Fatigue Damage Accumulation Modelsmentioning
confidence: 99%
“…As aforementioned, this effect will produce extra damage behavior with influence on residual life, which often leads to overestimated fatigue life. According to this, Lv et al introduced an interaction factor σ 1 / σ 2 into the damage exponent of Equation n2Nf2=1n1Nf1italiclnNf2italiclnNf1·σ1σ2 where σ 1 and σ 2 are the two stresses characterizing the two‐block loadings.…”
Section: Existing Nonlinear Fatigue Damage Accumulation Modelsmentioning
confidence: 99%
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