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Meshfree and Particle Methods in Biomechanics: Prospects and Challenges

The use of meshfree and particle methods in the field of bioengineering and biomechanics has significantly increased. This may be attributed to their unique abilities to overcome most of the inherent limitations of mesh-based methods in dealing with problems involving large deformation and complex g...

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Published in:Archives of computational methods in engineering 2019-11, Vol.26 (5), p.1547-1576
Main Authors: Zhang, L. W., Ademiloye, A. S., Liew, K. M.
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Language:English
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description The use of meshfree and particle methods in the field of bioengineering and biomechanics has significantly increased. This may be attributed to their unique abilities to overcome most of the inherent limitations of mesh-based methods in dealing with problems involving large deformation and complex geometry that are common in bioengineering and computational biomechanics in particular. This review article is intended to identify, highlight and summarize research works on topics that are of substantial interest in the field of computational biomechanics in which meshfree or particle methods have been employed for analysis, simulation or/and modeling of biological systems such as soft matters, cells, biological soft and hard tissues and organs. We also anticipate that this review will serve as a useful resource and guide to researchers who intend to extend their work into these research areas. This review article includes 333 references.
doi_str_mv 10.1007/s11831-018-9283-2
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subjects Bioengineering
Biomechanics
Computation
Computer simulation
Deformation
Engineering
Finite element method
Mathematical and Computational Engineering
Meshless methods
Organs
Original Paper
Particle methods (mathematics)
title Meshfree and Particle Methods in Biomechanics: Prospects and Challenges
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