摘要
光学微透镜阵列在光学系统中的应用广泛,需求量大,而玻璃模压成形技术是最高效的微透镜阵列量产加工方法,具有精度高,一致性好,生产成本低等特点,有重要的应用研究价值。本文介绍了光学微透镜阵列的设计原理,模具制造技术,模压成形技术及相应检测技术;重点介绍了微透镜阵列模压成形试验与有限元仿真研究的最新进展;最后对微透镜模压成形发展前景进行了展望,包括微透镜阵列模压材料,模具表面镀层技术及超声复合加工技术在微透镜阵列模压成形中的应用等。
The optical microlens array is widely used in the optical system with high demand. The glass molding technology is the most efficient methods of mass production and processing of microlens array with characteristics of high precision,good consistency and low production cost,which has important application and research value. In this paper,the design principle of optical microlens array,as well as mold manufacturing technology,glass molding technology and the corresponding detection technology is introduced. The latest development of microlens array molding test and FEM simulation are mainly discussed. The development of microlens molding,including the material for microlens array molding,the mold surface coating technology,and the application of ultrasonic composite processing technology in the microlens array molding is prospected at the end of this paper.
作者
周天丰
解加庆
梁志强
刘欣
刘晓华
王西彬
ZHOU Tian-feng XIE Jia-qing LIANG Zhi-qiang LIU Xin LIU Xiao-hua WANG Xi-bin(Key Laboratory of Fundamental Science for Advanced Machining, School of Mechanical Engineering , Beijing Institute of Technology , Beifing 100081, China)
出处
《中国光学》
EI
CAS
CSCD
2017年第5期603-618,共16页
Chinese Optics
基金
国家重点基础研究发展计划(973计划)资助项目(No.2015CB059900)
国家自然科学基金资助项目(No.51375050)
霍英东教育基金青年教师基金资助项目(No.151052)
关键词
微透镜阵列
玻璃模压成形
低熔点光学玻璃
有限元仿真
表面镀层技术
microlens array
glass molding
low-melting optical glass
finite element simulation
surface coatingtechnology