铜镀层工艺参数优化的正交实验研究

Orthogonal Experimental Research on Optimization of Process Parameters of Copper Electroplating

电镀加工技术是非传统的加工工艺,镀层性质的好坏依赖于电解质的组成、pH、温度、电流密度等因素。基于稳健性设计理论和变量分析,利用L_9正交表实验,研究了pH和温度对镀层性质的影响。分析了pH和温度对重量、厚度和粗糙度的影响,得出了电镀加工参数的最优值,优化的工艺条件为:pH=1、温度≤40℃。优化后的电镀铜层晶粒均匀致密,表面平整,质量较佳。通过XRD图谱和高解析光学显微镜分析表面形貌证明了优化的可靠性。该设计为电沉积加工技术的深度研究提供了指导作用。

Electroplating processing technology is an unconventional processing technology.The properties of the coating depend on the composition of the electrolyte,pH,temperature,current density and other factors.Based on the robust design theory and variable analysis,the effects of pH and temperature on the properties of the coating were investigated with L9 orthogonal experiments.The effects of pH and temperature on weight,thickness and roughness were analyzed,and the optimum values of electroplating processing parameters were obtained.The optimized process conditions were as follows:pH=1,temperature≤40°C.The optimized electroplated copper layer was uniform with dense crystal grains,and the surface was flat with good quality.The reliability of the optimization was demonstrated by XRD pattern and high resolution optical microscopy analysis of the surface topography.This design can provide guidance for in-depth research in electrodeposition processing techniques.