机械研究与应用
機械研究與應用
궤계연구여응용
Mechanical Research & Application
2015年
5期
42-45
,共4页
刘伟奇%唐亚鸣%顾莹%唐李白%田杨
劉偉奇%唐亞鳴%顧瑩%唐李白%田楊
류위기%당아명%고형%당리백%전양
凹坑形刀齿%受力分析%数值模拟%减粘减阻
凹坑形刀齒%受力分析%數值模擬%減粘減阻
요갱형도치%수력분석%수치모의%감점감조
concave blade%force analysis%numerical modeling%drag reduction
土壤对疏浚机具的粘附会增加切削阻力、降低切削效率。土壤动物的非光滑表面为疏浚机具的仿生设计提供了参考。非光滑表面切削土壤具有减阻的作用,针对凹坑形非光滑表面的刀齿切削土壤的的受力情况进行理论分析,建立了其土壤切削模型。利用软件Fluent进行了凹坑形光滑表面刀齿在土壤切削过程中的力学分析,结果表明:在一定的土壤条件下,与光滑表面刀齿相比,非光滑凹坑形刀齿粘附对土壤粘附力较小,受到的切削阻力也较小。理论分析和与数值模拟均验证了非光滑凹坑形仿生刀齿能够起到预期的减粘减阻的效果。
土壤對疏浚機具的粘附會增加切削阻力、降低切削效率。土壤動物的非光滑錶麵為疏浚機具的倣生設計提供瞭參攷。非光滑錶麵切削土壤具有減阻的作用,針對凹坑形非光滑錶麵的刀齒切削土壤的的受力情況進行理論分析,建立瞭其土壤切削模型。利用軟件Fluent進行瞭凹坑形光滑錶麵刀齒在土壤切削過程中的力學分析,結果錶明:在一定的土壤條件下,與光滑錶麵刀齒相比,非光滑凹坑形刀齒粘附對土壤粘附力較小,受到的切削阻力也較小。理論分析和與數值模擬均驗證瞭非光滑凹坑形倣生刀齒能夠起到預期的減粘減阻的效果。
토양대소준궤구적점부회증가절삭조력、강저절삭효솔。토양동물적비광활표면위소준궤구적방생설계제공료삼고。비광활표면절삭토양구유감조적작용,침대요갱형비광활표면적도치절삭토양적적수력정황진행이론분석,건립료기토양절삭모형。이용연건Fluent진행료요갱형광활표면도치재토양절삭과정중적역학분석,결과표명:재일정적토양조건하,여광활표면도치상비,비광활요갱형도치점부대토양점부력교소,수도적절삭조력야교소。이론분석화여수치모의균험증료비광활요갱형방생도치능구기도예기적감점감조적효과。
Soil on the dredging machine will increase the cutting resistance and reduce the cutting efficiency. The non-smooth surface of soil animals provides a reference for the bionic design of dredging machines. The non-smooth surface cutting soil has the effect of reducing resistance. The soil cutting model is established according to the stress conditions of the cutter tooth in cutting soil. The mechanics analysis on concave smooth surface cutter in soil cutting process is conducted by using the FLU-ENT software. The results show that under certain soil conditions, compared with the smooth surface cutter, the adhesion force of the non-smooth concave cutter teeth to soil is less, and the cutting resistance is less. The theoretical analysis and numerical simulation show that the non-smooth concave bionic blade can be expected to reduce the drag reduction.