工业技术创新
工業技術創新
공업기술창신
Industrial Technology Innovation
2014年
5期
515-519
,共5页
罗瑞兴%闫普选%王玉峰%韩飞雪
囉瑞興%閆普選%王玉峰%韓飛雪
라서흥%염보선%왕옥봉%한비설
航空轮胎%非线性%有限元%力学行为
航空輪胎%非線性%有限元%力學行為
항공륜태%비선성%유한원%역학행위
Aircraft tire%Nonlinear%Finite element%Mechanical behavior
基于轮胎变形的几何非线性、轮胎与地面接触的非线性、轮胎材料的非均匀性及橡胶基复合材料的各向异性的特性,通过AutoCAD软件设计轮胎断面的轮廓结构,利用ABAQUS有限元软件建立34×10.75-16航空轮胎结构有限元模型。通过ABAQUS/ATNDARD求解器仿真计算,得到不同充气压力工况下相应的载荷与变形量。根据仿真结果与轮胎测试结果对比分析表明,建立的有限元分析模型能够模拟该型号航空轮胎各工况条件下的力学行为,为轮胎设计提供参考。
基于輪胎變形的幾何非線性、輪胎與地麵接觸的非線性、輪胎材料的非均勻性及橡膠基複閤材料的各嚮異性的特性,通過AutoCAD軟件設計輪胎斷麵的輪廓結構,利用ABAQUS有限元軟件建立34×10.75-16航空輪胎結構有限元模型。通過ABAQUS/ATNDARD求解器倣真計算,得到不同充氣壓力工況下相應的載荷與變形量。根據倣真結果與輪胎測試結果對比分析錶明,建立的有限元分析模型能夠模擬該型號航空輪胎各工況條件下的力學行為,為輪胎設計提供參攷。
기우륜태변형적궤하비선성、륜태여지면접촉적비선성、륜태재료적비균균성급상효기복합재료적각향이성적특성,통과AutoCAD연건설계륜태단면적륜곽결구,이용ABAQUS유한원연건건립34×10.75-16항공륜태결구유한원모형。통과ABAQUS/ATNDARD구해기방진계산,득도불동충기압력공황하상응적재하여변형량。근거방진결과여륜태측시결과대비분석표명,건립적유한원분석모형능구모의해형호항공륜태각공황조건하적역학행위,위륜태설계제공삼고。
In considering of geometric nonlinearity of tire deformation, nonlinear of tire contact with the ground, inhomogeneity of tire material and anisotropy of rubber matrix composites, outline structure of tire cross-section was designed by software AutoCAD and 34×10.75-16 aircraft tire structure finite element model was established via ABAQUS. The corresponding load and deformation under different inflation pressure was attained after the simulation calculation of ABAQUS/ATNDARD. The simulation results were compared with experimental values. The results showed that the established finite element model could simulate the mechanical behaviors of this type of aircraft tire which provides a reference for tire performance design.
