期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
非球面数控磨床热误差建模分析与补偿研究 被引量:1
1
作者 胡月 李欣 刘树伟 《机械设计与制造》 北大核心 2024年第10期183-186,197,共5页
文献调研了占比(40~70)%的热误差是影响数控机床加工精度的最主要因素,探讨了研究对象非球面数控磨床的结构特征,分析了非球面数控磨床热误差存在的基本形式,提出了基于统计学理论的多元线性回归模型算法进行热误差建模的具体方案,针对... 文献调研了占比(40~70)%的热误差是影响数控机床加工精度的最主要因素,探讨了研究对象非球面数控磨床的结构特征,分析了非球面数控磨床热误差存在的基本形式,提出了基于统计学理论的多元线性回归模型算法进行热误差建模的具体方案,针对非球面数控磨床磨轮轴轴向热误差进行了多元线性回归建模,并构建了热误差补偿系统,实验表明,研究的基于多元线性回归模型算法和热误差补偿系统可以有效的实施非球面数控磨床磨轮轴轴向热误差补偿,补偿后残差方差降至4.216e-002,可以满足非球面数控磨床精密磨削需求。 展开更多
关键词 热误差 非球面数控磨床 磨轮轴 多元线性回归建模 误差补偿
下载PDF
Combined back-analysis method of ground stress based on refined geological modeling
2
作者 Liu Donghai Zheng Jiang Wang Qian 《Engineering Sciences》 EI 2012年第4期43-50,共8页
A new back-analysis method of ground stress is proposed with comprehensive consideration of influence of topography, geology and nonlinear physical mechanical properties of rock on ground stress. This method based on ... A new back-analysis method of ground stress is proposed with comprehensive consideration of influence of topography, geology and nonlinear physical mechanical properties of rock on ground stress. This method based on non-uniform rational B-spline (NURBS) technology provides the means to build a refined three-dimensional finite element model with more accurate meshing under complex terrain and geological conditions. Meanwhile, this method is a back-analysis of ground stress with combination of multivariable linear regression model and neural network (ANN) model. Firstly, the regression model is used to fit approximately boundary loads. Regarding the regressed loads as mean value, some sets of boundary loads with the same interval are constructed according to the principle of orthogonal design, to calculate the corresponding ground stress at the observation positions using finite element method. The results (boundary loads and the corresponding ground stress) are added to the samples for ANN training. And on this basis, an ANN model is established to implement higher precise back-analysis of initial ground stress. A practical application case shows that the relative error between the inversed ground stress and observed value is mostly less than 10 %, which can meet the need of engineering design and construction requirements. 展开更多
关键词 ground stress BACK-ANALYSIS combined method refined geological modeling artificial neural network(ANN) NURBS
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部