玉米收割拖拉机车架的应力分析

Randi Purnama Putra, Waskito, Dori Yuvenda, Junil Adri
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引用次数: 0

摘要

印尼现有的玉米地面积和农民从事的玉米种植活动要求创新出一种有效和高效的玉米收割机。因此,位于巴东国立大学工程学院的适当技术研究中心设计了一种玉米收获拖拉机,以方便社区开展农业活动。玉米收割机拖拉机的设计由收割机机构、车架、发动机和动力总成组成。车架是玉米收获机拖拉机的重要组成部分,其强度取决于车架的形状和比例。车架的结构强度必须同时考虑安全因素和结构强度。本研究的目的是评估由 ASTM A36 型钢制成的玉米收割机拖拉机的车架强度。在这项研究中,车架中存在的 von Mises 应力被用来计算玉米收割机拖拉机车架的强度。在数值分析中,底盘采用了两种不同载荷变化的测试,即集中载荷和表面均匀分布载荷。模拟结果表明,玉米收割机拖拉机的车架可以很好地承受载荷。玉米收割机拖拉机车架上的应力分析结果表明,车架上的集中载荷产生的最大应力为 3.248 兆帕。而作用在车架上的分布载荷所产生的最大应力为 3.510 兆帕。此外,还获得信息表明,ASTM A36 型车架的安全系数值符合部件要求,可承受集中载荷和分布载荷
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Stress analysis of the frame of a corn harvesting tractor
The extent of existing corn land in Indonesia and the activities carried out by farmers in corn farming requires the innovation of an effective and efficient corn harvesting machine. This underlies the Research Center for Appropriate Technology located at the Faculty of Engineering, Universitas Negeri Padang to design a corn harvesting tractor that can facilitate the community in carrying out activities in the agricultural sector. The design of the corn harvester tractor consists of the harvester mechanism, the frame, the engine, and the powertrain. The frame is a crucial component of the corn harvester tractor, and its strength depends on its shape and proportions. The construction's strength of the frame must take into account both safety considerations and the structure's strength. The purpose of this study is to evaluate the frame strength of a corn harvester tractor made of steel of the ASTM A36 type. In this study, the von Mises stress that exists in the frame is used to calculate the strength of the frame of a corn harvester tractor. In numerical analysis, the chassis utilizes two tests with various load variations, namely the concentrated load and the load that is evenly distributed on the surface. The simulation results show that the frame of the corn harvester tractor can withstand the load well. The results of the stress analysis that occurs on the frame of the corn harvester tractor are that the maximum stress that occurs due to the concentrated load on the frame is 3.248 MPa. While the maximum stress that occurs due to the distributed load acting on the frame is 3.510 MPa. In addition, information was obtained that the value of the safety factor for the frame with ASTM A36 type met the component requirements that could withstand concentrated loads and distributed loads
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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