机械工程学报
機械工程學報
궤계공정학보
CHINESE JOURNAL OF MECHANICAL ENGINEERING
2009年
6期
262-266
,共5页
袁春元%周孔亢%吴琳琪%安登峰%王国林
袁春元%週孔亢%吳琳琪%安登峰%王國林
원춘원%주공항%오림기%안등봉%왕국림
空气弹簧%有限元分析%Hypermesh软件
空氣彈簧%有限元分析%Hypermesh軟件
공기탄황%유한원분석%Hypermesh연건
Air spring%Finite element analysis%Hypermesh software
空气悬架系统的刚度直接影响整车性能,而悬架刚度又主要取决于空气弹簧刚度特性.由于在工作行程中橡胶气囊发生多重非线性问题,难以用传统方法预估弹簧刚度.为此,基于空气弹簧结构分析、非线性有限元理论,提出一种空气弹簧力学特性预估方法.在这方法中以Yeoh模型模拟橡胶层,rebar模型代表帘线层,缘板及活塞作为刚体,气体流动与气囊体变形耦合.为了检验该方法的有效性和可行性,以某一大客车悬架用膜式空气弹簧为应用实例,根据结构尺寸用CAD软件UG建立三维实体模型,并用Hypermesh软件划分网格,用试验测试橡胶材料的应力应变关系.将有限元模型导入非线性有限元软件abaqus中进行数值计算.计算结果表明,所提出的方法是切实可行,为汽车悬架用空气弹簧研制开发提供了一种较为经济实用的预估方法.
空氣懸架繫統的剛度直接影響整車性能,而懸架剛度又主要取決于空氣彈簧剛度特性.由于在工作行程中橡膠氣囊髮生多重非線性問題,難以用傳統方法預估彈簧剛度.為此,基于空氣彈簧結構分析、非線性有限元理論,提齣一種空氣彈簧力學特性預估方法.在這方法中以Yeoh模型模擬橡膠層,rebar模型代錶簾線層,緣闆及活塞作為剛體,氣體流動與氣囊體變形耦閤.為瞭檢驗該方法的有效性和可行性,以某一大客車懸架用膜式空氣彈簧為應用實例,根據結構呎吋用CAD軟件UG建立三維實體模型,併用Hypermesh軟件劃分網格,用試驗測試橡膠材料的應力應變關繫.將有限元模型導入非線性有限元軟件abaqus中進行數值計算.計算結果錶明,所提齣的方法是切實可行,為汽車懸架用空氣彈簧研製開髮提供瞭一種較為經濟實用的預估方法.
공기현가계통적강도직접영향정차성능,이현가강도우주요취결우공기탄황강도특성.유우재공작행정중상효기낭발생다중비선성문제,난이용전통방법예고탄황강도.위차,기우공기탄황결구분석、비선성유한원이론,제출일충공기탄황역학특성예고방법.재저방법중이Yeoh모형모의상효층,rebar모형대표렴선층,연판급활새작위강체,기체류동여기낭체변형우합.위료검험해방법적유효성화가행성,이모일대객차현가용막식공기탄황위응용실례,근거결구척촌용CAD연건UG건립삼유실체모형,병용Hypermesh연건화분망격,용시험측시상효재료적응력응변관계.장유한원모형도입비선성유한원연건abaqus중진행수치계산.계산결과표명,소제출적방법시절실가행,위기차현가용공기탄황연제개발제공료일충교위경제실용적예고방법.
Air susPension stiffness directly affects performances ofvehicle.Suspension stiffness mainly depends on the stiffness of air spring.Traditional methods can hardly predict the stiffness because the rubber air bag generates multiple nonlinear problems during working process.For this,based on the structure analysis and nonlinear finite element theory,a prediction method for the dynamic characteristic of air spring is proposed,in which Yeoh model is used to simulate the rubber layer,rebar model represents cord layer,listrium and Diston are used as rigid body,airflow is coupled with air bag deformation..To prove its validity and feasibility,diaphragm aif springs for bus suspension are taken as examples.3-D solid model is built by using CAD software UG on the basis of the structure size.Mesh is also generated by using hypermesh sofleware.The relationship between stress and strain of rubber materials is tested.Numerical calculation of the finite element model is carried out by using nonlinear finite element software abaqus.The calculation results show that the finite element method is feasible.It provides an economical and practical prediction method for the development of air springs for vehicle suspension.