Jinyou Xiao scite author profile

SUMMARYA precorrected fast Fourier transform (pFFT) accelerated boundary element method (BEM) for large-scale transient elastodynamic analysis is developed and described in this paper. The frequency-domain approach is used. To overcome the 'wrap-around' problem associated with the discrete Fourier transform, the exponential window method (EWM) is employed and incorporated in the frequency-domain BEM. An improved implementation scheme of the pFFT method based on polynomial interpolation technique is developed and applied to accelerate the elastodynamic BEM. This new scheme reduces the memory required to save the convolution matrix by a factor of 8. To further improve the efficiency of the code, a newly developed linear system solver based on the induced dimension reduction method is employed. Its performance is investigated and compared with that of the well-known GMRES. The accuracy and computational efficiency of the method are evaluated and demonstrated by three examples: a classical benchmark, a plate subject to an impact loading and a porous cube with nearly half million DOFs subject to a step traction loading. Both analytical and experimental results are employed to validate the method. It has been found that the EWM can effectively resolve the wrap-around problem and accurate time responses for an arbitrarily chosen time period can be obtained.

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The mechanical properties and constitutive model of two woven composites including the influences of temperature, strain rate and damage growth

Wang

Wen

Xiao

et al. 2019

Composites Part B: Engineering

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Jinyou Xiao

Efficiency improvement of the polar coordinate transformation for evaluating BEM singular integrals on curved elements

Precorrected FFT accelerated BEM for large‐scale transient elastodynamic analysis using frequency‐domain approach

The mechanical properties and constitutive model of two woven composites including the influences of temperature, strain rate and damage growth

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