A NUMERICAL APPROACH FOR MECHANICS OF SOIL-TOOL INTERACTION FOR A ROBOTIC ASSISTANT FARMER

机译：机器人助理农民土工具互动力学的数值方法

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Use of mobile robots in farm setting may result in lowering production costs, reducing the manual labors, and may be essential in the future due to a potential shortage of farmers. The conditions, such as blade geometry, soil conditions, and cutting depth, have been shown to have great effects on power consumption and on efficiency of particular farm machineries. In this paper, a 3-dimensional nonlinear finite element analysis (FEA) is developed to analyze behavior of a blade moving in a block of soil, and to find force reactions on the blade. This FEA model resulted in accurately predicting draft forces developed on the blade when it moves through the soil. The deformation of soil in front of the blade during soil-blade interaction is also studied. The FEA results are compared with analytical soil mechanics results which show good agreement.

机译：在农场环境中使用移动机器人可能导致生产成本降低，减少了手动劳动力，由于农民的潜在短缺，将来可能是必不可少的。叶片几何形状，土壤条件和切削深度等条件已被证明对功耗具有很大的影响以及特定农用机械的效率。在本文中，开发了三维非线性有限元分析（FEA）以分析在土块中移动的叶片的行为，并在刀片上找到力反应。该FEA模型导致准确地预测叶片在叶片上发育的牵伸力。还研究了在土壤 - 叶片相互作用期间叶片前面的土壤变形。将FEA结果与分析土壤力学结果进行比较，表现出良好的一致性。

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《ASME International Mechanical Engineering Congress and Exposition》|2013年||共10页
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Ahad Armin; Walerian Szyszkowski; Reza Fotouhi;
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4. A NUMERICAL APPROACH FOR MECHANICS OF SOIL-TOOL INTERACTION FOR A ROBOTIC ASSISTANT FARMER [C] . Ahad Armin, Walerian Szyszkowski, Reza Fotouhi ASME international mechanical engineering congress and exposition . 2013

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A NUMERICAL APPROACH FOR MECHANICS OF SOIL-TOOL INTERACTION FOR A ROBOTIC ASSISTANT FARMER

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