Parameter Optimization and DEM Simulation of Bionic Sweep with Lower Abrasive Wear Characteristics

Abstract: High wear rates during the tillage process often result in significant financial losses and wasted farming seasons. In this paper, a bionic design was used to reduce tillage wear. Inspired by wear-resistant animals with ribbed structures, the bionic ribbed sweep (BRS) was designed by combining a ribbed unit with a conventional sweep (CS). BRSs with different parameters (width φ, height h, angle θ, and interval λ) were simulated and optimized using the DEM and RSM methods at a working depth of 60 mm to evaluate… Show more

“…The existence of the bionic structure significantly improved the wear resistance. Similarly, Wang et al [ 11 ] designed a biomimetic sweep inspired by the ribbed structures on the surface of the shell and pangolin squama, as shown in Figure 17 . Using DEM and response surface methodology (RSM), the dimensional parameters of the biomimetic sweep exhibiting optimal wear-resistant characteristics were determined.…”

“…These effects de probability and strength of contact between the abrasive material and th resulting in better wear resistance compared to conventional flat surfaces [169] Figure 23. Mechanism of soil particles delamination leading to wear reduction [11].…”

“…Inspired by this, researchers have designed excavation components with low resistance characteristics [ 8 , 9 , 10 ]. Similarly, the surface structures of organisms like shells, pangolins, and dung beetles have inspired the development of components aimed at reducing adhesion and increasing wear resistance [ 11 , 12 , 13 ]. These biomimetic designs effectively enhance the performance of components and improve the quality of operations.…”

Biomimetic Design of Soil-Engaging Components: A Review

“…The existence of the bionic structure significantly improved the wear resistance. Similarly, Wang et al [ 11 ] designed a biomimetic sweep inspired by the ribbed structures on the surface of the shell and pangolin squama, as shown in Figure 17 . Using DEM and response surface methodology (RSM), the dimensional parameters of the biomimetic sweep exhibiting optimal wear-resistant characteristics were determined.…”

“…These effects de probability and strength of contact between the abrasive material and th resulting in better wear resistance compared to conventional flat surfaces [169] Figure 23. Mechanism of soil particles delamination leading to wear reduction [11].…”

“…Inspired by this, researchers have designed excavation components with low resistance characteristics [ 8 , 9 , 10 ]. Similarly, the surface structures of organisms like shells, pangolins, and dung beetles have inspired the development of components aimed at reducing adhesion and increasing wear resistance [ 11 , 12 , 13 ]. These biomimetic designs effectively enhance the performance of components and improve the quality of operations.…”

Biomimetic Design of Soil-Engaging Components: A Review