Effects of bionic non-smooth surface on reducing soil resistance to disc ploughing

被引：0

作者：

CHIRENDE Benard ^{[1
,2
]}

SIMALENGA Timothy Emmanuel ^{[2
]}

机构：

[1] Key Laboratory for Bionic Engineering of Ministry of Education of China, Jilin University

[2] Agricultural Research Council, Institute for Agricultural Engineering(South Africa)

来源：

Science China(Technological Sciences) | 2010年 / 11期

关键词：

bionics; disc plough; soil resistance; convex units; concave units; non-smooth surface;

D O I：

暂无

中图分类号：

S152 [土壤物理学];

学科分类号：

0903 ; 090301 ;

摘要：

Past researches have shown that the non-smooth body surfaces of soil burrowing animals help to reduce soil resistance. In this research, this concept of bionic non-smooth surface was applied to disc ploughs and an experiment was conducted in an indoor soil bin to find out the effects of different bionic units on reducing soil resistance to disc ploughing. Horizontal force acting on the disc plough during soil deformation was measured using a 5 kN sensor. Convex and concave bionic units were used and the material used for making convex ones is ultra high molecular weight polyethylene (UHMWPE) which is hydrophobic. From the experiment results, higher or deeper bionic units always resulted in less soil resistance. Convex bionic units gave the highest resistance reduction reaching a maximum of 19% reduction (from 1715.36 N to 1383.65 N) compared to concave bi-onic units. Also, samples with a bionic unit density of 30% gave the highest resistance reduction compared to the other two, which were either plain or had 10% density. In conclusion, the concept of bionic non-smooth units can be applied to disc ploughs in order to reduce soil resistance.

引用

页码：2960 / 2965

页数：6

共 10 条

[1] 圆盘犁刀仿生设计与试验优化方法 [J].

张毅 ;

牛毅 ;

申彦杰 .

农机化研究, 2008, (12) :92-94

[2] Sliding resistance of plates with bionic bumpy surface against soil [J].

LI Jianqiao SUN Jiurong REN Luquan CHEN Bingcong Key Laboratory for TerrainMachine Bionics Engineering Ministry of Education China Jilin University Changchun P R China College of Life Science Peking University Beijing P R China .

JournalofBionicsEngineering, 2004, (04) :207-214

[3] A Study on Adhesive Properties of Materials Based on Biomimetic Results of Gecko′s Feet [J].

Stanislav Gorb .

Journal of Bionics Engineering, 2004, (01) :66-71

[4]

Design Principles of the Non-smooth Surface of Bionic Plow Moldboard[J]. Luquan Ren, Shiqiao Deng, Jingchun Wang, Zhiwu Han Key Laboratory of Terrain-Machine Bionics Engineering (Ministry of Education,China), Jilin University at Nanling Campus, Changchun 130022,P.R. China.Journal of Bionics Engineering. 2004(01)

[5] 臭蜣螂体壁表面结构及其与减粘脱附功能的关系 [J].

程红 ;

孙久荣 ;

李建桥 ;

任露泉 .

昆虫学报, 2002, (02) :175-181

[6]

Methodology for product design based on the study of bionics[J] . Wilson Kindlein Junior,Andréa Seadi Guanabara.Materials and Design . 2004 (2)

[7]

Effects of non-smooth characteristics on bionic bulldozer blades in resistance reduction against soil[J] . Luquan Ren,Zhiwu Han,Jianjiao Li,Jin Tong.Journal of Terramechanics . 2003 (4)

[8] Interactions of the cutting edge of tillage implements with soil [J].

Fielke, JM .

JOURNAL OF AGRICULTURAL ENGINEERING RESEARCH, 1996, 63 (01) :61-71

[9] A MODIFIED-MODEL TO PREDICT SOIL CUTTING RESISTANCE [J].

ZHANG, J ;

KUSHWAHA, RL .

SOIL & TILLAGE RESEARCH, 1995, 34 (03) :157-168

[10]

Comprehensive experimental investigation on bionic non-smooth curved blade surface in anti-adhesion and resistance reduction against soil .2 Ren L.Q,Han Z.W,Li J.Q,Tong J. Soil and Tillage Research . 2006

← 1 →