摘要
硅片切割的温度场分布对硅片表面加工质量具有十分重要的影响。以硅材多线切割的温度场为研究对象,在分析硅片多线切割工作原理的基础上,建立了数值分析模型,充分考虑了切割发热机理以及空气与切削液的冷却作用。采用参数化编程与生死单元技术,仿真分析了硅片切割的温度场分布情况,研究了线锯张力、硅材进给速度对硅片温度场分布的影响。仿真结果显示:硅切片的温升与线锯张力成正比关系,张力越大,温升越明显;进给速度对硅切片的温升曲线有一定的影响,但硅材在不同进给速度下的最终温度几乎相同。论文为研究硅片的切割变形机理、改善硅片表面质量等提供了一定的理论参考。
Temperature distribution can influence surface machining quality of silicon wafers, especially for large wafers. In this paper, based on the working principle of silicon wafer wire-saw slicing, an numer- ical analysis model is established. Through parametric programming and life-death unit technology, the temperature distribution of wafers during slicing has been simulatied, and the influences of wire-saw ten- sion and feeding speed on the temperature distribution has been studied. The simulation results show that: the peak value of wafers" temperature during slicing is depended on the tension of wire saw, and bigger ten- sion will cause higher temperature rise; difference feeding speeds cause different temperature variation curves, but the temperatures are close to each other when the cutting is end. The study can lay the foundation for re- search on cutting deformation mechanism and improvement on the surface quality of silicon wafer.
出处
《组合机床与自动化加工技术》
北大核心
2013年第9期32-34,38,共4页
Modular Machine Tool & Automatic Manufacturing Technique
基金
衢州市科技项目(20111052)
衢州学院基金(KZZ1102)
关键词
硅切片
多线切割
线锯张力
进给速度
温度分布
silicon wafer
wire saw
wire saw tension
feeding speed
temperature distribution
