农业机械钻土打洞触土部件仿生防粘减阻技术

The applied project plans to study the soil-hole-drilling component and soil-fertilizing component with biomimetically geometrical structure and ultra high molecular weight polyethylene (UHMWPE) learning from the geometrical structure and hydrophobic nature of the cuticle of soil-burrowing animals in order to reduce soil adhesion and forward resistance premise the quality of soil hole by soil-hole-drilling component and injecting quality for component for injecting fertilizing liquid in soil. So, this study will be of an important theoretical value and practical significance. The two type of components consist of subsoiler for soil-hole-drilling component and its expander or the injecting part for injecting liquid. Biomimetic drag reduction theories and techniques of subsoiler and anti-adhesion and drag reduction techniques of the expander for soil-hole-drilling component and the component for injecting liquid in soil will be established. The research work is an important extension of efficiency-high and energy-saving biomimetic theories and techniques of soil-engaging components of agricultural machinery. The research route is clear and innovative; the application of biomimetic technique in agricultural machinery has its self feature; the research results of the project will have specific utilization. This project puts forward compositive anti-adhesion and drag reduction techniques of biomimetically geometrical structure and UHMWPE utilizing in the soil-hole-drilling component and soil-fertilizing component and, so, the research content is innovative; the techniques for soil-hole-drilling component and soil-fertilizing component have compositive innovation and are in foreland of the anti-adhesion and drag reduction of biomimetically geometrical structure of agricultural machinery.

本申请项目拟采用学习土壤洞穴动物体表几何结构特征和疏水性质的几何结构与超高分子量聚乙烯(UHMWPE)材料相集成的仿生几何结构技术，研究钻土打洞部件鼠道犁和液体沃土器，在保证所要求土壤洞道或液体沃土质量前提下，具防粘和减阻功能，达到提高农机钻土打洞部件节能增效之目的，具有重要理论价值和实际意义。钻土打洞部件由犁铲和扩孔器或注液器组成，本申请项目旨在建立减阻犁铲设计的仿生原理和构建技术，并构建几何结构表面与UHMWPE材料集成的扩孔器和注液器仿生防粘减阻技术，是对农机触土部件高效节能仿生理论与技术的重要拓展，研究思路创新；仿生技术在农机化工程领域具自身特色；其成果具明确应用前景。提出几何结构与UHMWPE材料仿生集成的防粘、减阻技术应用于钻土打洞部件，在内容上具创新性；在技术上具集成创新性；将防粘减阻这一国际前沿问题，发展为仿生几何结构与材料集成应用在钻土打洞部件，在发展上具前沿性。

本申请项目拟采用学习土壤洞穴动物体表几何结构特征和疏水性质的几何结构与超高分子量聚乙烯(UHMWPE)材料相集成的仿生几何结构技术，研究钻土打洞部件鼠道犁和液体沃土器，在保证所要求土壤洞道或液体沃土质量前提下，具防粘和减阻功能，达到提高农机钻土打洞部件节能增效之目的，具有重要理论价值和实际意义。钻土打洞部件由犁铲和扩孔器或注液器组成，本申请项目旨在建立减阻犁铲设计的仿生原理和构建技术，并构建几何结构表面与UHMWPE材料集成的扩孔器和注液器仿生防粘减阻技术，是对农机触土部件高效节能仿生理论与技术的重要拓展，研究思路创新；仿生技术在农机化工程领域具自身特色；其成果具有明确应用前景。