EXPERIMENTAL INVESTIGATION ON THE EFFECT OF A CRASH ON A CAR FRONT GUARD BY CHANGING SUITABLE INFO BOUNDARIES TO CONTROL THE ENERGY ASSIMILATION

IF 0.4 Q4 TRANSPORTATION SCIENCE & TECHNOLOGY
S. Dhamone, Arun Padmakumar
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引用次数: 0

Abstract

The main motive of this research is to develop an energy absorber system for automobiles and perform an experimental disquisition by applying different parameters to check the effect of the crash on the machine’s front cushion by perfecting energy-absorbing capacity for the passenger safety aspect. Considering automobile vehicle speed limits similar to (Low, Medium, and High), the speed limits in India vary by state and vehicle type. In Karnataka, there is no limit (60 km/hr for buses in Bangalore except on Airport Road where it is 80 km/hr and 100 km/hr for buses only on NH and 66 km/hr between Mangalore and Udupi). Transport vehicles have a limit of 66 km/hr. This data is set with cooperation between the state and the ministry of highway department for light motor vehicles and buses. My exploration: considering the norms as per international safety regulations, and the purpose of an automobile's safety systems, the experimental set-up was designed so that a straight pendulum would strike the bumper system, and the front, and rear impacts would hit at 4.5 to 5 km/h, and the loaded or unloaded car would hit at 3 km/h and 46 cm above the front and back corners. To achieve this goal and to develop the energy absorber system, we used appropriate parameters such as CAD, CAM, CAE, testing, Simulink, and hand computation, enforcing the criteria in a unique development perspective by adding crash capability with a spring-loaded system, minimising crash effects, increasing immersion capacity, and implementing it on the SUV front cushion system.
通过改变合适的信息边界来控制能量同化,研究碰撞对汽车前护板的影响
本研究的主要动机是开发一种用于汽车的能量吸收系统,并通过应用不同的参数进行实验研究,以检查碰撞对机器前垫的影响,从而完善乘客安全方面的能量吸收能力。考虑到类似于(低、中、高)的汽车限速,印度的限速因州和车型而异。在卡纳塔克邦,没有限制(班加罗尔的公交车为60公里/小时,机场路除外,机场路为80公里/小时;仅NH的公交车为100公里/小时。芒格洛尔和乌杜皮之间的公交车为66公里/小时)。运输车辆的限速为66公里/小时。该数据是在国家和公路部轻型机动车和公共汽车部门的合作下制定的。我的探索:考虑到国际安全法规的规范和汽车安全系统的目的,实验装置的设计使直摆撞击保险杠系统,前后碰撞将以4.5至5公里/小时的速度撞击,装载或卸载的汽车将以3公里/小时和前后角上方46厘米的速度撞击。为了实现这一目标并开发能量吸收系统,我们使用了适当的参数,如CAD、CAM、CAE、测试、Simulink和手工计算,通过增加弹簧加载系统的碰撞能力、最大限度地减少碰撞影响、增加沉浸能力,并将其应用于SUV前缓冲系统,从独特的开发角度执行标准。
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
CiteScore
1.20
自引率
0.00%
发文量
52
审稿时长
20 weeks
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