项目名称: 超声行波式非接触直线传输机理及动力学特性研究
项目编号: No.51305138
项目类型: 青年科学基金项目
立项/批准年度: 2014
项目学科: 机械、仪表工业
项目作者: 李锦
作者单位: 华东理工大学
项目金额: 25万元
中文摘要: 超声行波式非接触传输技术适用于大面积薄型易碎器件的制造过程,具有避免器件表面划伤、无摩擦等特点。本项目研究基于超声行波驱动的太阳能级硅片非接触直线传输系统及其多场耦合动力学特性。通过建立行波声场的高精度数学模型及其高阶求解方法,分析挤压气膜中的非线性性,定量描述行波声压分布及水平传输力;对导轨-气膜-硅片进行多场耦合动力学分析,建立各个参数之间的映射关系;对驱动-传输系统进行仿真和优化设计,建立等效电学模型,并结合实验测试进行机械/电学阻抗匹配,提高系统行波传播和机电转换效率;设计面向太阳能级多晶硅片的非接触传输与实验测试平台,开发驱动控制软件及精密定位方案,测试系统各项性能指标。本研究在行波声场的数学建模和非接触传输系统的多场耦合动力学分析方面具有重要理论研究价值,研究成果将为行波非接触式传输操作提供理论指导,为高品质光伏半导体制造装备的增效和性能升级提供技术支持,具有实际应用前景。
中文关键词: 非接触传输;超声行波;动力学;多场耦合;精密定位
英文摘要: Non-contact linear transportation based on traveling wave is suitable for the manufacture of fragile wafers with large surfaces. The major advantages lie in no surface damage, lower scrap rate and friction free. In this project the mechanism of the traveling wave used in solar photovoltaic industry as well as the multi-field coupled dynamics will be studied. By modeling the acoustic field near the radiation surface and deriving high order solutions, the nonlinear behaviors will be discussed, the pressure distribution and traveling force will be calculated based on the model. According to the multi-field coupling dynamic analysis on the guide-film-wafer system, the mapping relationships between the parameters will be built. The simulations and design optimizations of driving-transfer system will be presented. To improve energy efficiency and transfer quality, the impedance matching will be calculated based on equivalent circuit and experimental measurements. We'll also design solar polycrystalline silicon wafer oriented transportation system, including drive controllers and precise positioning software. The transportation performances such as load capacity in unit area, acceleration, stability will be measured on the system. This project will present high accuracy mathematic models of traveling wave field, and is
英文关键词: noncontact transportation;acoustic traveling wave;dynamics;multi filed coupling;precision positioning