Numerical Modeling Of Granular/Particulate Systems By Discrete Element Method

M. V. Ramos; J. Kano; E. Kasai

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Numerical Modeling Of Granular/Particulate Systems By Discrete Element Method

机译：颗粒/颗粒系统的离散元数值模拟

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The discrete element method (DEM) enables us to describe the behavior of granular/particulate systems by employing a simple model of micro-mechanical contacts between particles consisting of a spring and a dash-pot coupled with Newton's equation of motion. The DEM is considered superior to other methods Because characteristic properties of individual particles Can be specified. It is also worth mentioning for DEM That parameters, affecting inter-particle contacts, can be Determined from the physical properties of materials Such as the Young's modulus, Poisson ratio, frictional Coefficient and restitution coefficient. AN attempt has Been made in this paper to cover an outline of the DEM And its application to the numerical modeling of Granular/particulate systems.

机译：离散元素方法（DEM）使我们能够通过使用由弹簧和阻尼罐组成的粒子之间的微机械接触的简单模型，并结合牛顿运动方程来描述颗粒/颗粒系统的行为。 DEM被认为优于其他方法，因为可以指定单个粒子的特性。对于DEM也值得一提的是，影响粒子间接触的参数可以根据材料的物理特性确定，例如杨氏模量，泊松比，摩擦系数和恢复系数。本文尝试涵盖DEM的概述及其在颗粒/颗粒系统数值建模中的应用。

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《High Temperature Materials and Processes》 |1998年第4期|p.275-288|共14页
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M. V. Ramos; J. Kano; E. Kasai;
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正文语种 eng
中图分类金属学与热处理;
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Numerical Modeling Of Granular/Particulate Systems By Discrete Element Method

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