散装固体的动态和静态壁摩擦

Jie Guo, P. Robinson, Corin Holmes
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引用次数: 0

摘要

在设计大流量散装固体储存和处理设备(如筒仓/箱和料斗)时,壁摩擦是一个关键的材料特性参数。有两个壁面摩擦系数,即运动(动态)和静态,需要考虑,每一个都可以用标准化的测试方法来测量。虽然运动壁摩擦通常对设计目的更感兴趣,但某些应用也需要静摩擦,例如材料在存储中保持静止(即不流动)后。本研究比较了三种散装固体材料在不同壁衬上的动静摩擦测量结果。结果表明,实测壁面静摩擦系数并不像预期的那样始终高于动摩擦系数。概述了造成这种差异的原因,以及对材料和墙体的依赖
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DYNAMIC AND STATIC WALL FRICTIONS FOR BULK SOLIDS
Wall friction is a critical material characterization parameter to understand when designing mass flow bulk solids storage and handling equipment such as silos/bins and hoppers. There are two wall friction coefficients, namely kinematic (dynamic) and static, to consider, each of which can be measured using standardized test methods. While kinematic wall friction is commonly of more interest for design purposes, static friction is also required for certain applications, such as after material has been held at rest (i.e., not flowing) in storage. This study compares the results of both dynamic and static friction measurements for three bulk solids materials on various wall liners. The results showed that the static wall friction coefficient measured was not consistently higher than the dynamic coefficient as expected. Reasons for this difference are outlined, and the dependence on the material and wall
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