FINITE ELEMENT SIMULATION OF INTER-PLANT WEED CONTROL DEVICE IN PADDY FIELD

IF 0.6 Q4 AGRICULTURAL ENGINEERING

INMATEH-Agricultural Engineering Pub Date : 2023-04-30 DOI:10.35633/inmateh-69-24

Wenting Jin, Yuqi Zhuansun, T. Zhuang, Qi Lu, Wenlong Li, Liuxuan Ma

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引用次数: 0

Abstract

Mechanical weeding in paddy fields is a green and environmentally friendly way to control weeds, which has the advantages of reducing the amount of pesticides and improving the physical structure of the soil. This paper briefly describes the composition and relevant parameters of the mechanical weeding environment in rice fields. Using Creo 5.0, HyperMesh 2017, and LS-PrePost and LS-DYNA software to jointly simulate the interaction process between inverted V-shaped inter-plant weeding component and the soil in the paddy field, the single-point ALE multi-material unit algorithm is used to couple the soil and water with multiple substances, and realize the material movement between the soil and the water layer. Using the penalty function method, a fluid-solid coupling finite element modelled on the interaction between inter-plant weeding components and soil-water was established. The dynamic behavior of the interactions shows that the coupling stress increases and then decreases periodically, and the teeth of the spring cross the soil with a "bending moon (fish scale)" scratch, which can effectively avoid rice seedlings and reduce the injury rate.

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水田植间除草装置的有限元模拟

稻田机械除草是一种绿色环保的杂草治理方式，具有减少农药用量、改善土壤物理结构等优点。本文简要介绍了冰原机械除草环境的组成及相关参数。利用Creo 5.0、HyperMesh 2017、LS PrePost和LS-DYNA软件联合模拟稻田中倒V型株间除草组件与土壤的相互作用过程，采用单点ALE多材料单元算法将土壤与水与多种物质耦合，实现土壤与水层之间的物质运动。采用罚函数法，建立了一个考虑株间除草构件与土壤水分相互作用的流固耦合有限元模型。相互作用的动力学行为表明，耦合应力呈周期性的先增大后减小，弹簧的齿与土壤交叉形成“弯月（鱼鳞）”划痕，可以有效地避开水稻幼苗，降低伤害率。

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

INMATEH-Agricultural Engineering AGRICULTURAL ENGINEERING-

CiteScore

1.30

自引率

57.10%

发文量