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机译:减少阻力和降低土壤扰动特性的仿生深耕机(耕作深度> 40 cm)的DEM模拟
Key Laboratory of Biomimetic Engineering (Ministry of Education), Jilin University;
Key Laboratory of Biomimetic Engineering (Ministry of Education), Jilin University;
Key Laboratory of Biomimetic Engineering (Ministry of Education), Jilin University;
Key Laboratory of Biomimetic Engineering (Ministry of Education), Jilin University;
School of Mechanical Science and Engineering, Jilin University;
Bionic; Subsoiler; DEM; Energy consumption; Soil disturbance;
机译:基于DEM的不同几何形状的深层耕作机耕作力和扰动特性
机译:中华江黄淮海平原土壤性质和产量的骨干深度,周期间隔和综合耕作的影响
机译:黄淮海平原土壤深层深度,周期间隔和联合耕作实践对土壤性质和产量的影响
机译:通过FEM模拟设计优化和降低仿生区底线的减少
机译:仿生Earth自润滑表面减阻特性的实验研究
机译:在不同的周期性土壤耕作系统之前和之后进行的深层土壤能量需求
机译:10 cm土层深度降水后土壤温度极值恢复率的实证研究