Review Analysis of Light Vehicle Propeller Shaft

IOSR Journal of Mechanical and Civil Engineering Pub Date : 2017-05-01 DOI:10.9790/1684-1403048690

Shehnaj S. Mahboob, S. Pagare, A. Biradar, Aamir K. Khan

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引用次数: 1

Abstract

In recent times, with great focus on the economical saving uses of materials, the increased on the economical saving use of materials, the increased understanding of the machine method and nature of fatigue failure, and improvements in the mechanical design and analysis procedures, the popular thing/general way things are going towards conservatives has been reversed. Ordinary steel propeller-shafts are usually manufactured in two or more pieces to increase the basic bending natural frequency because the bending natural frequency of a shaft is (when one number goes one way, the other number goes the opposite way) to the square of beam length and (fair in amount, related to/properly sized, related to) the square root of clearly started/ particular modulus. Therefore the steel propeller shaft is made in two sections connected by a support structure, bearings and U-joints and because of this over all weight of composite materials. Composite (made up of different things) materials (Glass Epoxy) were used and designed and analyzed for their appropriateness in terms of torsional strength, bending natural frequency, torsional buckling and number of cycle by comparing.

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轻型汽车传动轴的回顾分析

近年来，随着对材料经济节约使用的重视，对材料经济节约使用的重视，对机械方法和疲劳失效性质的了解的增加，以及机械设计和分析程序的改进，流行的事物/一般的事物趋于保守的趋势已经发生了逆转。普通钢螺旋桨轴通常被制造成两件或多件，以增加基本弯曲固有频率，因为轴的弯曲固有频率是(当一个数字向一个方向移动时，另一个数字向相反方向移动)梁长度的平方和(数量合理，与/尺寸适当，与)明确开始/特定模量的平方根。因此，钢制螺旋桨轴由两个部分组成，由支撑结构、轴承和u形接头连接，因此复合材料的重量超过了所有部分。采用复合材料(玻璃环氧树脂)，通过对比，从扭转强度、弯曲固有频率、扭转屈曲和循环次数等方面对其适用性进行了设计和分析。

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IOSR Journal of Mechanical and Civil Engineering

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