Z. X. Li scite author profile

Z. X. Li

5Publications

45Citation Statements Received

45Citation Statements Given

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Affiliations

University of Leeds, Southeast University

Publications

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Evaluation of fatigue life for titanium alloy TC4 under variable amplitude multiaxial loading

et al. 2014

Fatigue Fract Eng Mat Struct

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Fatigue tests under variable amplitude multiaxial loading were conducted on titanium alloy TC4 tubular specimens. A method to estimate the fatigue life under variable amplitude multiaxial loading has been proposed. Multiaxial fatigue parameter based on Wu–Hu–Song approach and rainflow cycle counting and Miner–Palmgren rule were applied in this method. The capability of fatigue life prediction for the proposed method was checked against the test data of TC4 alloy under variable amplitude multiaxial loading. The prediction results are all within a factor of two scatter band of the test results.

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Concurrent multi-scale modeling of civil infrastructures for analyses on structural deteriorating—Part II: Model updating and verification

Chan

et al. 2009

Finite Elements in Analysis and Design

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Modelling of load interaction and overload effect on fatigue damage of steel bridges

Chan

2001

Fatigue Fract Eng Mat Struct

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This paper studies the effects of load sequence and interaction, and overloading effect on the fatigue damage of bridges on the basis of a non‐linear fatigue damage model. The model is derived from the theory of continuum damage mechanics for high‐cycle fatigue. Fatigue behaviour at two levels of constant stress range is first discussed in detail. The formulation for the effective fatigue strength of the predamaged members is then derived, and the results predicted by the model are compared with the experimental data for two stress level tests and other results obtained from linear and double linear fatigue damage models. The variation of cycle ratio and fatigue life due to overloading is secondly investigated; the equations for evaluating the effect of overloading on fatigue damage accumulation on bridges at normal traffic loading are then derived. It has been demonstrated that the developed model can well describe the effect of load sequence and interaction and has also been verified by comparing the predicted results obtained by the model with the experimental data based on two levels of stress tests. The effect of accidental overloading on the fatigue damage of existing bridges can also be evaluated using the model. The model is applied to evaluate the fatigue damage and service life of the Tsing Ma Bridge, an essential portion of the transport network for the Hong Kong airport, under normal traffic loading and possible accidental overloading.

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Adaptive multiscale analyses on structural failure considering localized damage evolution on vulnerable joints

Zheng

Chen

2014

Archives of Civil and Mechanical Engineering

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Multi-scale analyses on seismic damage and progressive failure of steel structures

Jiang

Tang

2012

Finite Elements in Analysis and Design

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Z. X. Li

Evaluation of fatigue life for titanium alloy TC4 under variable amplitude multiaxial loading

Concurrent multi-scale modeling of civil infrastructures for analyses on structural deteriorating—Part II: Model updating and verification

Modelling of load interaction and overload effect on fatigue damage of steel bridges

Adaptive multiscale analyses on structural failure considering localized damage evolution on vulnerable joints

Multi-scale analyses on seismic damage and progressive failure of steel structures

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