期刊文献+

土壤—耕作工具相互作用建模分析研究现状

Research status of modeling analysis of soil-tillage tool interaction
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摘要 准确模拟土壤—耕作工具之间的相互作用可以实现部分替代田间试验环节,不仅能提高效率降低成本,还能优化耕作工具。从经典力学的分析和数值模型分析(有限元分析、离散元分析、流体动力学分析和耦合算法分析)两个方面对土壤—耕作工具相互作用建模分析的研究现状进行综述。提出目前土壤—耕作工具相互作用的建模中对土壤的模拟不够贴近实际、单一建模方法对土壤的模拟有局限性和多软件耦合算法中通过优化边界穿越等问题。通过对多耦合软件中不同模型边界进行优化,提高模拟土壤与耕作工具相互作用的准确性,使模拟结果更贴近实际。 Accurate simulation of the interaction between soil and tillage tools can achieve partial replacement of field trials,which can not only improve efficiency and reduce costs,but also optimize tillage tools.In this paper,the research status of modeling and analysis of soil-tillage tool interaction is reviewed from two aspects such as classical mechanics analysis and numerical model analysis(including finite element analysis,discrete element analysis,fluid dynamics analysis and coupling algorithm analysis).It is proposed that the simulation of soil in the modeling of soil-tillage tool interaction is not close to reality,the single modeling method has limitations on soil simulation and the problem of optimizing boundary crossing in multi-software coupling algorithm.By optimizing the boundary of different models in multi-coupling software,the accuracy of simulating the interaction between soil and tillage tools is improved,and the simulation results are closer to reality.
作者 宋禹莹 郑炫 刘进宝 杨怀君 李帆 胡赫岩 Song Yuying;Zheng Xuan;Liu Jinbao;Yang Huaijun;Li Fan;Hu Heyan(School of Mechanical and Electrical Engineering,Shihezi University,Shihezi,832000,China;Institute of Mechanical Equipment,Xinjiang Academy of Agricultural Reclamation,Shihezi,832000,China)
出处 《中国农机化学报》 北大核心 2024年第4期250-257,共8页 Journal of Chinese Agricultural Mechanization
基金 新疆生产建设兵团重大科技项目(2017AA004-1)。
关键词 土壤耕作 数值建模 有限元 离散元 流体动力学 soil cultivation numerical modeling finite element discrete element hydrodynamics
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  • 1徐中华,王建华.有限元法分析土壤切削问题的研究进展[J].农业机械学报,2005,36(1):134-137. 被引量:52
  • 2吴建民,高焕文.甘肃河西走廊水资源供需分析及耕作节水研究[J].农业工程学报,2006,22(3):36-39. 被引量:19
  • 3贾晶霞,刘汉武,郝新明,张东兴.马铃薯收获机挖掘铲有限元静力学分析[J].农业机械学报,2006,37(9):86-88. 被引量:33
  • 4Sayre K,Limon A,Govaerts B.Experiences with permanent bed planting systems[C] //Evaluation and Performance of Permanent Raised Bed Systems in Asia and Australia,Griffith,NSW,Australia,2005.
  • 5Mashum M,Kusnarta I,Tisdall J,et al.Permanent raised beds farming system in the semi arid tropics of southern Lombok,Indonesia:performance and adoption[C] //Evaluation and Performance of Permanent Raised Bed Systems in Asia and Australia,Griffith,NSW,Australia,2005.
  • 6He Jin,Li Hongwen,Kuhn N J,et al.Soil loosening on permanent raised-beds in arid northwest China[J].Soil & Tillage Research,2007,97(2):172-183.
  • 7中国农业机械化科学研究院.农业机械设计手册:上册[M].北京:机械工业出版社,1998.
  • 8孙一源 高行方 余登苑.农业土壤力学[M].北京:农业出版社,1985.23-78.
  • 9吉尔 W R,范德伯奇 G E.耕作和牵引土壤动力学[M].耕作和牵引土壤动力学翻译组,译.北京:中国农业机械出版社,1983:102~160.
  • 10杨欣,佟金,陈东辉,张书军,陈秉聪.RFT内支撑三维结构有限元静力学分析与改进设计[J].农业机械学报,2008,39(3):10-13. 被引量:10

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