Effect of Rubber Material Properties on Steady-State Flat Belt Response

Volume 6: 15th International Conference on Multibody Systems, Nonlinear Dynamics, and Control Pub Date : 2019-11-25 DOI:10.1115/detc2019-98166

T. Wasfy, Hatem M. Wasfy

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引用次数: 1

Abstract

Belt-drives are used to transmit power between rotational machine elements in many mechanical systems such as industrial machines, home appliances, and internal combustion engines. The belt cross-section typically consists of axially stiff tension cords (made of steel or polyester strands) embedded in a rubber matrix. The rubber matrix provides the friction interface between the belt and the pulleys through which mechanical torque is transmitted. In this paper, the effect of the rubber’s Young’s modulus and Poisson’s ratio on the steady-state belt normal, tangential and axial stresses, average belt slip, and belt-drive energy efficiency is studied using a high-fidelity flexible multibody dynamics model of a flat belt-drive. The belt’s rubber matrix is modeled using three-dimensional brick elements and the belt’s cords are modeled using one dimensional truss elements. Friction between the belt and the pulleys is modeled using an asperity-based Coulomb friction model. The pulleys are modeled as rigid bodies with a cylindrical contact surface. The equations of motion are integrated using a time-accurate explicit solution procedure.

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橡胶材料性能对稳态平带响应的影响

在许多机械系统中，例如工业机器、家用电器和内燃机，皮带传动用于在旋转机器元件之间传输动力。皮带的横截面通常由嵌入橡胶基体中的轴向刚性张力绳(由钢或聚酯股制成)组成。橡胶基体提供皮带和皮带轮之间的摩擦界面，通过皮带轮传递机械扭矩。本文采用高保真柔性多体动力学模型，研究了橡胶杨氏模量和泊松比对稳态皮带法向、切向和轴向应力、平均滑移和皮带传动能效的影响。皮带的橡胶矩阵采用三维砖单元建模，皮带的绳索采用一维桁架单元建模。皮带与皮带轮之间的摩擦采用基于粗糙度的库仑摩擦模型进行建模。将滑轮建模为具有圆柱形接触面的刚体。运动方程的积分使用时间精确的显式求解程序。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 6: 15th International Conference on Multibody Systems, Nonlinear Dynamics, and Control

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