开发CVD ZrN涂层的实验设计方法

W. Russell
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引用次数: 4

摘要

采用实验设计法(DOE)对硬质合金基体上的CVD ZrN涂层进行了研究。DOE通过设计和分析的统计方法,将从一组实验中获得的信息最大化。以(A)压力、(B)温度、(C) h2 / zrcl4和(D) n2 / zrcl4为变量,设计了包含20个实验的全因子矩阵。压力范围为100至300 torr,温度范围为900至1050℃,h2 / zrcl4范围为20至60,n2 / zrcl4范围为5至25。对沉积速率的响应与基于系统热力学建模的理论预测进行了比较。采用正态概率分布来确定对沉积速率有显著影响的变量。它们分别是(B)温度和(C) h2 / zrcl4。软件生成的(B)和(C)的相互作用图清楚地显示了这种效应。这些结果与热力学分析一致,与TiN涂层的结果相似。其他反应,如颜色,表面形态,质地,附着力和摩擦的报道。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental design approach to development of a CVD ZrN coating
A design of experiments (DOE) approach has been used for the study of CVD ZrN coatings on cemented carbide substrates. DOE maximizes information gained from a set of experiments through statistical methods of design and analysis. A full factorial matrix of twenty experiments was designed using the variables (A) pressure, (B) temperature, (C) H 2 /ZrCl 4 and (D) N 2 /ZrCl 4 . Pressure ranged from 100 to 300 torr, temperature from 900 to 1050 °C, H 2 /ZrCl 4 from 20 to 60 and N 2 /ZrCl 4 from 5 to 25. The response for deposition rate is compared with theoretical prediction based on thermodynamic modeling of the system. A normal probability distribution was used to identify the variables that had a significant effect on deposition rate. These were found to be (B) temperature and (C) H 2 /ZrCl 4 . Interaction plots for (B) and (C) generated by the software clearly show this effect. These results are in agreement with the thermodynamic analysis and are similar to results for TiN coating. Other responses such as color, surface morphology, texture, adhesion and friction are reported.
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