The relationship between the parameters of the bonded-particle model and the macroscopic properties of oilseed rape shoot stalk provides valuable insights into the interaction between the stalks and harvesting machine...The relationship between the parameters of the bonded-particle model and the macroscopic properties of oilseed rape shoot stalk provides valuable insights into the interaction between the stalks and harvesting machinery.In this study,a discrete element model of oilseed rape shoot stalk was constructed using a method that combined ordered and bimodal distribution filling.The model’s six contact and five bonding parameters were calibrated based on physical and simulated diametral compression tests.The Plackett-Burman design was employed to screen the effects of the parameters on the rupture force.The range of significant parameters was determined using the steepest ascent test.Furthermore,by calculating the second-order regression model and analyzing the significance of parameter combination using the central composite design method,the optimal parameter combination was identified,including a bonded disk radius of 0.78 mm,a normal stiffness per unit area of 4.61×10^(7) Pa,a shear stiffness per unit area of 5.21×10^(7) Pa,and a coefficient of static friction between particles of oilseed rape shoot stalk of 0.47.The simulated rupture force(58.80 N)differed by 6.5%from the average value of the physical test(62.92 N),and the deformation of the compression process was consistent.The results demonstrate that the model effectively reflects the mechanical failure properties of oilseed rape shoot stalk during the diametral compression,providing a reference for modeling other crop stalks and aiding in the study of interactions between clamping-transporting devices and stalks during harvesting.展开更多
基金funded by the National Natural Science Foundation of China(Grant No.52205270 and No.52075210)the Natural Science Foundation of Hubei Province(Grant No.2023AFB852)+1 种基金the Fundamental Research Funds for the Central Universities(Grant No.2662023GXQD002)China Agriculture Research System of MOF and MARA(Grant No.CARS-12).
文摘The relationship between the parameters of the bonded-particle model and the macroscopic properties of oilseed rape shoot stalk provides valuable insights into the interaction between the stalks and harvesting machinery.In this study,a discrete element model of oilseed rape shoot stalk was constructed using a method that combined ordered and bimodal distribution filling.The model’s six contact and five bonding parameters were calibrated based on physical and simulated diametral compression tests.The Plackett-Burman design was employed to screen the effects of the parameters on the rupture force.The range of significant parameters was determined using the steepest ascent test.Furthermore,by calculating the second-order regression model and analyzing the significance of parameter combination using the central composite design method,the optimal parameter combination was identified,including a bonded disk radius of 0.78 mm,a normal stiffness per unit area of 4.61×10^(7) Pa,a shear stiffness per unit area of 5.21×10^(7) Pa,and a coefficient of static friction between particles of oilseed rape shoot stalk of 0.47.The simulated rupture force(58.80 N)differed by 6.5%from the average value of the physical test(62.92 N),and the deformation of the compression process was consistent.The results demonstrate that the model effectively reflects the mechanical failure properties of oilseed rape shoot stalk during the diametral compression,providing a reference for modeling other crop stalks and aiding in the study of interactions between clamping-transporting devices and stalks during harvesting.
