Objectives: Random analysis of 74 kg Indian human male subject has been done in this study. Finite element model of human subject has been developed using anthropometric data corresponding to 95th percentile 74 kg human subject. Method/Analysis: Finite element method has been used to study the dynamic response of the human subject when it is subjected to random vibration. Geometry has been developed using the designing tool i.e., Solid Works and analysis has been done on the simulation software i.e., Ansys. During this study, different magnitude of acceleration i.e., 0.2, 0.4 and 0.8 m/s2 has been applied in three different directions i.e., vertical, fore-and-aft and lateral direction. Findings: Acceleration of magnitude 0.2, 0.4 and 0.8 m/s2 has been applied in all the directions and results in the form of deformations and Von-mises stresses is found at these magnitude of acceleration applied in all the directions. It has been observed that maximum effect of vibration in terms of stress and deformation in human subject is found when the vibration is applied in vertical direction at a magnitude of 0.8 m/s2. The minimum effect of vibration is found when vibration is applied in the lateral direction. Applications/Improvement: The results obtained from current study will be beneficial to design automobile seats and components. Experimental study can also be performed to validate the obtained results.
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机译:目的:本研究对74公斤印度裔男性受试者进行了随机分析。使用对应于95%74公斤人体的人体测量数据开发了人体的有限元模型。方法/分析:有限元方法已被用于研究人类受试者随机振动时的动态响应。已使用设计工具(即Solid Works)开发了几何图形,并已在模拟软件(即Ansys)中进行了分析。在这项研究中,在三个不同的方向(垂直,前后和横向)上应用了不同的加速度幅度,即0.2、0.4和0.8 m / s2。研究结果:在所有方向上都施加了0.2、0.4和0.8 m / s2的加速度,结果以变形的形式出现,在所有方向上施加的这些加速度下都发现了冯米斯应力。已经观察到,当在垂直方向上以0.8m / s 2的量级施加振动时,在人类受试者中,在应力和变形方面发现了振动的最大效果。当在横向上施加振动时,发现振动的最小影响。应用/改进:从当前研究中获得的结果将有助于设计汽车座椅和零部件。也可以进行实验研究以验证所获得的结果。
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