NUMERICAL STUDY ON EFFECT OF PHASE ANGLE ON TORSIONAL AND LATERAL VIBRATIONS IN POWER TRANSMISSION SYSTEM EMPLOYING CARDAN SHAFT

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Mohd Hazri Omar, Muhajir Ab Rahim, Mohd Noor Arib Md Rejab
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引用次数: 0

Abstract

A power transmission system driven by a Cardan shaft may experience severe vibration due to fluctuating rotational speed and moments transferred to the final drives, determined by the level of angular misalignment and phasing of the joint yokes. This study investigates the potential of an out-of-phase position displaced by a phase angle in attenuating vibrations. The governing equations representing the dynamics of the system are derived. The torsional and lateral vibration responses are numerically calculated over a range of input rotational speeds. When attenuating the vibration, the phase angle is set equal to the maximum twist that occurs during the in-phase position. Relative attenuation is used to investigate the phase angle effects. The effectiveness is studied for different levels of static angular misalignment. For the considered system, the results showed that for static angular misalignment greater than 20 degrees, the proposed phase angle arrangement could attenuate torsional vibration by more than 10 percent and significantly attenuate the lateral vibration.
万向轴传动系统中相位角对扭转和横向振动影响的数值研究
由万向节轴驱动的动力传动系统可能会由于传递到终传动的转速和力矩的波动而经历严重振动,这是由万向节叉的角度偏差和相位确定的。这项研究研究了在衰减振动时,相位偏移一个相位角的异相位置的潜力。导出了代表系统动力学的控制方程。扭转和横向振动响应是在输入转速范围内进行数值计算的。当衰减振动时,相位角被设置为等于在同相位置期间发生的最大扭曲。相对衰减用于研究相位角效应。研究了不同水平静态角偏差的有效性。对于所考虑的系统,结果表明,对于大于20度的静态角偏差,所提出的相位角布置可以将扭转振动衰减10%以上,并显著衰减横向振动。
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来源期刊
Jurnal Teknologi-Sciences & Engineering
Jurnal Teknologi-Sciences & Engineering ENGINEERING, MULTIDISCIPLINARY-
CiteScore
1.30
自引率
0.00%
发文量
96
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