2-D granular model of composite elasticity using molecular dynamics simulation

Abstract: Composite of two kinds of grains is modeled in two-dimension and the elasticity is calculated using molecular dynamics method implementing Gear predictor-corrector of fifth order. It has been observed that same composite concentration can be represented by several configurations of the two kinds of grains. Simulation results show a peak or maximum value of a parameter proportional to Young's modulus, which quantitatively agrees with reported experiment results. Ratio of 2 1 / k k used in simulation has influen… Show more

“…Previously, binary composite materials have been discussed in 3-d experiment [1] and 2-d simulated based on granular particles [2], where the mixture could be homogenously dispersed [1] or the components can still be differed [3]. A model of binary composite materials are proposed in this work and compared to the Voight and Reuss formulas, which has been common as benchmark in studying composite models [4].…”

Binary Composite Fiber Elasticity using Spring-Mass and Non-Interacting Parallel Sub-Fiber Model

“…Previously, binary composite materials have been discussed in 3-d experiment [1] and 2-d simulated based on granular particles [2], where the mixture could be homogenously dispersed [1] or the components can still be differed [3]. A model of binary composite materials are proposed in this work and compared to the Voight and Reuss formulas, which has been common as benchmark in studying composite models [4].…”

Binary Composite Fiber Elasticity using Spring-Mass and Non-Interacting Parallel Sub-Fiber Model

Elasticity and Mechanical Response of a Composite Particle System Induced by a Vertical Loading

Simulation of bond strength between matrix and filler of aligned continuous fiber composite in term of friction coefficient