The reduction of water resources and soil fertility in Northeast China will have a requirement on higher working efficiency of agricultural soil-engaging components.The adhesion and resistance are main problems for so...The reduction of water resources and soil fertility in Northeast China will have a requirement on higher working efficiency of agricultural soil-engaging components.The adhesion and resistance are main problems for soil-engaging tillage components.However,the soil-burrowing or soil-digging animals give inspirations to resolve those problems.Their fair,claw,toe,textured surface and scales have functions of anti-adhesion or resistance reduction.Those results provide a way to realize the sustainable development of modern agriculture by developing novel biomimetic agricultural machinery systems with independent intellectual property rights to meet conservation tillage requirements in the Northern China region.Biological structures of some soil-burrowing or soil-digging animals,such as beetle,mole cricket,earthworm,mole,vole,pangolin,and snake,as well as their mechanisms of anti-adhesion or reducing resistance were reviewed in this paper.Bioinspired applications in Northeast China were also presented in the paper,including moldboard,subsoiler components,furrow opener,roller,and biomimetic rototilling-stubble-breaking blade.In addition,the existed problems in agricultural engineering and the future development trends were discussed.展开更多
Remarkable geometrical similarities are found in digging claws of soil burrowing animals,in spite of the fact that they evolved independently.Based on convergent evolution theory,this study innovatively proposed a bio...Remarkable geometrical similarities are found in digging claws of soil burrowing animals,in spite of the fact that they evolved independently.Based on convergent evolution theory,this study innovatively proposed a bionic engineering perspective that focuses on general and analogous geometrical characteristics of soil animals.It was observed that soil animals with powerful burrowing ability have analogous serrated structures on their digging claws.Taking soil imprinting toothed wheel as the research object,the hypothesis that special serrated structures have the potential of reducing penetrating resistance from soil and enhancing digging efficiency for soil engaging component was investigated.The convergent evolution inspired bionic serrated structures were utilized for the design of cutting edge on toothed wheel.Then,a toothed wheel that mounted with the conventional tooth and a bionic tooth were manufactured and tested in the soil bin.Results showed that special bionic serrated structure could reduce the required draft force for toothed wheel;meanwhile increase the depth and volume of prepared micro-basin.It was found that the soil-penetrating mechanism of the bionic toothed wheel behaved as saw cutting that similar to the digging behavior of soil burrowing animals.Geometry of serrated structure has the ability to maximum stress concentrations in soil,thus increased the tendency of soil material to fail.These results indicate that the convergent evolution inspired bionic approach is novel and advantageous for the design of new soil engaging implements for working quality optimization and forward resistance reduction.展开更多
基金National Science&Technology Pillar Program of China in the Twelfth Five-year Plan Period(2014BAD06B03)and by“Project 985”of Jilin University.
文摘The reduction of water resources and soil fertility in Northeast China will have a requirement on higher working efficiency of agricultural soil-engaging components.The adhesion and resistance are main problems for soil-engaging tillage components.However,the soil-burrowing or soil-digging animals give inspirations to resolve those problems.Their fair,claw,toe,textured surface and scales have functions of anti-adhesion or resistance reduction.Those results provide a way to realize the sustainable development of modern agriculture by developing novel biomimetic agricultural machinery systems with independent intellectual property rights to meet conservation tillage requirements in the Northern China region.Biological structures of some soil-burrowing or soil-digging animals,such as beetle,mole cricket,earthworm,mole,vole,pangolin,and snake,as well as their mechanisms of anti-adhesion or reducing resistance were reviewed in this paper.Bioinspired applications in Northeast China were also presented in the paper,including moldboard,subsoiler components,furrow opener,roller,and biomimetic rototilling-stubble-breaking blade.In addition,the existed problems in agricultural engineering and the future development trends were discussed.
基金Thank for the financial support for this research project by the National Natural Science Foundation of China for Young Scholars(Grant No.51605210)by Scientific Research Project of Yunnan Provincial Education Department(Grant No.2018Y018).
文摘Remarkable geometrical similarities are found in digging claws of soil burrowing animals,in spite of the fact that they evolved independently.Based on convergent evolution theory,this study innovatively proposed a bionic engineering perspective that focuses on general and analogous geometrical characteristics of soil animals.It was observed that soil animals with powerful burrowing ability have analogous serrated structures on their digging claws.Taking soil imprinting toothed wheel as the research object,the hypothesis that special serrated structures have the potential of reducing penetrating resistance from soil and enhancing digging efficiency for soil engaging component was investigated.The convergent evolution inspired bionic serrated structures were utilized for the design of cutting edge on toothed wheel.Then,a toothed wheel that mounted with the conventional tooth and a bionic tooth were manufactured and tested in the soil bin.Results showed that special bionic serrated structure could reduce the required draft force for toothed wheel;meanwhile increase the depth and volume of prepared micro-basin.It was found that the soil-penetrating mechanism of the bionic toothed wheel behaved as saw cutting that similar to the digging behavior of soil burrowing animals.Geometry of serrated structure has the ability to maximum stress concentrations in soil,thus increased the tendency of soil material to fail.These results indicate that the convergent evolution inspired bionic approach is novel and advantageous for the design of new soil engaging implements for working quality optimization and forward resistance reduction.