Amnaya P. Awasthi scite author profile

Carbon nanotube (CNT) polymer-matrix composites exhibit promising properties as structural materials for which appropriate constitutive models are sought, to predict their macroscale behavior. The reliability of determining the homogenized response of such materials depends upon the ability to accurately capture the interfacial behavior between the nanotubes and the polymer matrix. In this work, molecular dynamics simulations, using the Consistent Valence Force Field (CVFF) to describe the atomistic interactions, are used to study nanoscale load transfer between polyethylene and a graphene sheet, a model system chosen to characterize the force-separation behavior between CNTs and the polymer matrix. Separation studies are conducted for both opening as well as sliding modes and cohesive zone parameters such as peak traction and energy of separation are evaluated for each mode. Studies are also carried out to investigate the effect of tension and compression on sliding mode separation. Size dependence studies are conducted utilizing different sizes of the computational domain and different boundary conditions, to obtain the representative volume element and connect to continuum level properties. These results set the stage for continuum length-scale micromechanical models which may be used in determining the overall material response, incorporating interfacial phenomena.

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In search of amorphization-resistant boron carbide

Subhash

Awasthi

Kunka

et al. 2016

Scripta Materialia

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Deformation behavior and amorphization in icosahedral boron-rich ceramics

Awasthi

2020

Progress in Materials Science

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Wave propagation in elasto-plastic granular systems

2013

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Propagation of solitary waves in 2D granular media: A numerical study

Awasthi¹,

Smith²,

Geubelle³

et al. 2012

Mechanics of Materials

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Amnaya P. Awasthi

Modeling of graphene–polymer interfacial mechanical behavior using molecular dynamics

In search of amorphization-resistant boron carbide

Deformation behavior and amorphization in icosahedral boron-rich ceramics

Wave propagation in elasto-plastic granular systems

Propagation of solitary waves in 2D granular media: A numerical study

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