Feng Liu scite author profile

In order to solve problems, from a continuum point of view and in a unified way, involving continuum and discontinuum deformation, and small deformation and large movement, the numerical manifold method (NMM) introduces two covers, namely the mathematical cover (MC) and the physical cover (PC). This study generates the MC with the influence domains of nodes in the moving least squares (MLS) interpolation instead of commonly-used finite element meshes, significantly simplifying the generation of PCs and the simulation of crack growth. Advantageous over the conventional meshfree method, the MLS-based NMM can naturally treat complex geometry without recourse to those complicated but contrived criteria or operations. Moreover, the treatment of large movement caused by cracking is much easier with the MLS-based NMM than with the FE-based NMM. Electronic supplementary materialThe online version of this article (

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An edge-based smoothed numerical manifold method and its application to static, free and forced vibration analyses

Liu

Yang

2018

Engineering Analysis with Boundary Elements

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Feng Liu

Primal mixed solution to unconfined seepage flow in porous media with numerical manifold method

Complementarity problem arising from static growth of multiple cracks and MLS-based numerical manifold method

The MLS-based numerical manifold method with applications to crack analysis

An edge-based smoothed numerical manifold method and its application to static, free and forced vibration analyses

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