A model formulation for the prediction of churning power loss in worm gear transmission

Tribology and Materials Pub Date : 1900-01-01 DOI:10.46793/tribomat.2022.012

H. Chothani, K. Maniya

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Abstract

Churning power loss is a complex process that causes significant loss of energy under splash lubrication of gear units. A set of empirical equations are available that allows for precise churning power losses calculation for only the parallel axis gears. The main objective of this study is to formulate a new mathematical model for worm gear based on the experiment result. The mathematical model is formulated using the dimensional analysis method and has been experimentally validated over a wide range of speeds in terms of revolutions, types of lubricants, lubricant temperature, and immersion depths. The simple direct torque measurement method was used to measure the churning loss. The influence of inertia force, viscous force, and gravitational forces were also investigated therefore correlations with Froude and Reynolds numbers are presented. Hardened steel and bronze were used as a material combination of worm and worm gear, respectively. A new formula for worm gear under splash lubrication has been derived and validated by comparison with experimental evidence. A very little discrepancy was found between the experiment result and the mathematical equation.

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蜗轮传动搅拌功率损失预测的模型公式

搅拌功率损失是一个复杂的过程，导致显着的能量损失下的溅射润滑齿轮单元。一组经验方程是可用的，允许精确的搅拌功率损失计算仅为平行轴齿轮。本研究的主要目的是在实验结果的基础上建立新的蜗轮蜗杆的数学模型。该数学模型采用量纲分析方法建立，并通过实验验证了该模型在转速、润滑剂类型、润滑剂温度和浸泡深度等多种转速下的正确性。采用简单的直接扭矩测量法测量搅拌损失。还研究了惯性力、粘性力和重力的影响，并给出了它们与弗劳德数和雷诺数的关系。蜗杆和蜗轮的材料组合分别采用淬火钢和青铜。推导了一种新的蜗轮飞溅润滑公式，并与实验结果进行了对比验证。实验结果与数学方程相差很小。

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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Tribology and Materials

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