Real contact ratio and tooth bending stress calculation for plastic/plastic and plastic/steel spur gears

IF 1.2 4区工程技术 Q3 ENGINEERING, MECHANICAL

Mechanics & Industry Pub Date : 2021-01-01 DOI:10.1051/MECA/2021029

T. Jabbour, Ghazi Asmar, M. Abdulwahab, J. Nasr

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引用次数: 1

Abstract

This paper presents an iterative method for calculating the effective contact ratio and the bending tooth stress for a pair of plastic/plastic and plastic/steel spur gears with an involute profile. In this method, the pinion and the gear are modeled, at each moment of the mesh cycle, as equivalent springs in parallel undergoing the same displacement along the line of action. This leads to the calculation of the bending stress by taking into account the number of teeth initially in contact and those which enter in contact prematurely. We also investigate the influence of certain gear parameters, such as, the number of teeth, the pressure angle, and the module on the behavior of a pair of meshed gears. In addition, the variation of the bending stress at the tooth fillet is investigated for a pair of plastic/plastic and a pair of plastic/steel spur gears, in order to determine the critical configurations for which the bending stress is maximum. In general, the results obtained from the present method also show that the stress variation in plastic/plastic gears differs markedly from that in plastic/steel gears.

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塑料/塑料和塑料/钢正齿轮的实接触比和齿弯应力计算

本文提出了一种计算渐开线直齿塑料/塑料齿轮和塑料/钢齿轮有效接触比和弯曲齿应力的迭代方法。在该方法中，在啮合周期的每个时刻，将小齿轮和齿轮建模为平行的等效弹簧，沿着作用线进行相同的位移。这导致了弯曲应力的计算，考虑到最初接触的牙齿数量和过早接触的牙齿数量。我们还研究了某些齿轮参数，如齿数、压力角和模数对一对啮合齿轮行为的影响。此外，还研究了一对塑料/塑料直齿齿轮和一对塑料/钢直齿齿轮在齿角处的弯曲应力变化，以确定弯曲应力最大的临界结构。总的来说，本方法得到的结果还表明，塑料/塑料齿轮的应力变化与塑料/钢齿轮的应力变化有明显不同。

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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来源期刊

Mechanics & Industry ENGINEERING, MECHANICAL-MECHANICS

CiteScore

2.80

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： An International Journal on Mechanical Sciences and Engineering Applications With papers from industry, Research and Development departments and academic institutions, this journal acts as an interface between research and industry, coordinating and disseminating scientific and technical mechanical research in relation to industrial activities. Targeted readers are technicians, engineers, executives, researchers, and teachers who are working in industrial companies as managers or in Research and Development departments, technical centres, laboratories, universities, technical and engineering schools. The journal is an AFM (Association Française de Mécanique) publication.