光子学报, 2010, 39 (11): 2020, 网络出版: 2010-12-07
微小非球面玻璃透镜超精密模压成型数值模拟
Numerical Simulation of Ultraprecision Glass Molding for Micro Aspherical Glass Lens
玻璃模压成型 微小非球面玻璃透镜 广义麦克斯韦模型 有限元分析 Glass molding press Micro aspherical glass lens Generalized Maxwell model Finite Element Analysis(FEA)
摘要
利用非线性有限元软件MSC.Marc,建立了微小非球面玻璃透镜超精密模压的有限元模型,并进行了微小非球面玻璃透镜模压数值模拟分析.通过对比模拟出的不同加工参量下的成型透镜和模具的残余应力分布结果,得出最优的超精密模压成型的模压速率和模压温度范围,并解释了模压速率和模压温度影响微小非球面玻璃透镜成型质量的原因.模拟可以对实际的大批量生产微小非球面玻璃透镜提供有力的帮助.
Abstract
Finite element model of ultraprecision glass molding press for micro aspherical glass lenses is built by the nonlinear finite element software MSC.Marc. Numerical simulation analysis is carried out. Compared to residual stress of formed lens and mould distribution under the different processing parameters, the optimal molding velocity and the range of molding temperature of ultraprecision glass molding press are obtained. The research results are helpful for the mass production of micro aspherical glass lenses.
尹韶辉, 王玉方, 朱科军, 霍建杰, 陈逢军, 余剑武, 王宇. 微小非球面玻璃透镜超精密模压成型数值模拟[J]. 光子学报, 2010, 39(11): 2020. YIN Shaohui, WANG Yufang, ZHU Junke, HUO Jianjie, CHEN Fengjun, YU Tianwu, WANG Yu. Numerical Simulation of Ultraprecision Glass Molding for Micro Aspherical Glass Lens[J]. ACTA PHOTONICA SINICA, 2010, 39(11): 2020.
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