Design, analysis and fabrication of a 3D printed ABS wheel hub for an autonomous agricultural robot

B. V. Naik, R. Goud
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Abstract

Wheel Assemblies in a Traditional Vehicle or a Robot Consists of a Knuckle, Hub, Bearings and Wheel usually assembled as a Single Part. The materials used to make these components are cast iron, Aluminium alloys, Ductile iron, mild steel etc. Usage of an alternative material like ABS (Acrylonitrile Butadiene Styrene) has been proposed in this work which is intended to reduce the overall weight of the wheel assembly. Due to the Lightweight of hub and wheel would reduce the Inertia, the work done to stop or move the vehicle will also be reduced. In this work a 3D Printed ABS wheel hub has been proposed by conducting required analysis with suitable three-dimensionaldesign yielding reliable Factor of Safety with reduction in weight and hence making ABS a usable material for the wheel hubs. The characteristics of ABS (Acrylonitrile Butadiene Styrene) like good mechanical strength, mechanical damping ability with good fatigue resistance, Stiffness and ease of manufacturing gives the material an upper hand over other plastic polymers in reducing the mass without compromising on safety and strength.
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自主农业机器人3D打印ABS轮毂的设计、分析与制造
传统车辆或机器人的车轮组件由转向节、轮毂、轴承和车轮组成,通常组装为单个部件。用于制造这些部件的材料有铸铁、铝合金、球墨铸铁、低碳钢等。使用一种替代材料,如ABS(丙烯腈-丁二烯-苯乙烯),在这项工作中提出,旨在减少车轮总成的整体重量。由于轮毂和车轮的轻量化会减少惯性,停止或移动车辆所做的工作也会减少。在这项工作中,通过适当的三维设计进行必要的分析,提出了3D打印ABS轮毂,产生了可靠的安全系数,减轻了重量,从而使ABS成为轮毂的可用材料。ABS(丙烯腈-丁二烯-苯乙烯)具有良好的机械强度、抗疲劳的机械阻尼能力、刚度和易于制造等特点,在降低质量而不影响安全性和强度方面优于其他塑料聚合物。
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