摘要
在ANSYS环境下,基于齿轮啮合原理,对圆柱齿轮副的实体建模、有限元建模、应力分析等问题进行了研究,并利用APDL语言在ANSYS环境中实现了一对圆柱齿轮副的实体建模、有限元建模、静接触应力分析及求解过程的参数化。基于Visual C++(VC)平台,对ANSYS进行了二次开发,设计开发了具有良好人机界面的圆柱齿轮参数化设计及分析系统。使用现有数据仿真,其结果表明,该系统具有简单易用、准确高效等特点,可极大地降低建模过程的重复性,从而有效提高设计效率。
Based on theory of gear meshing transmission, the problems related to solid modeling, finite element method (FEM) modeling and stress analysis for a pair of cylindrical gears were investigated in ANSYS. The parameterizations of solid modeling, finite element modeling, analysis and solution for a p air of cylindrical gears were realized by APDL Based on Visual C++ (VC) platform, a secondary development was performed for ANSYS. The parametric design and analysis system for cylindrical gear transmission with a friendly interface was then developed. Simulation case shows that, the system has the advantages of easy-to-use, accurate and high efficiency, etc, which can reduce the redundancies and improve the efficiency in the design and analysis process.
出处
《煤矿机械》
2015年第5期1-3,共3页
Coal Mine Machinery
基金
山东科技大学研究生创新基金(YC140314)
山东省科技发展计划项目(2013GSF11858)
国家教委博士点基金(20133718110013)
青岛民生科技计划项目(13-1-3-121-NSH)
