通过溅射工艺参数及增加热处理等工艺初步解决了以上存在的薄膜制备工艺与IC工艺之间的兼容性问题。
These compatible problems oft hin film with IC technology were resolved through sputtering parameters modification and heating treatment addition.
通过对热处理后的连续玄武岩纤维进行结构分析,初步得出随热处理温度的升高有利于提高连续玄武岩纤维力学性能的结论。
This paper analyses the structure of CBF after heat treatment and the initial results show that an increase in temperature of heat treatment will beneficial to mechanical properties of CBF.
进一步对YBCO纳米薄膜的热处理工艺、薄膜形貌和微观组织结构进行了初步研究。
The YBCO thin films were prepared by dipping method on buffer layers. The heat treatment condition and crystal structure of the YBCO nanometer films were discussed.
生长工艺和热处理条件对晶纤结构和超导特性的影响也作了初步分析。
The influence of growth technology and post growth heat treatment condition on the structure and the superconducting properties is also discussed.
对其进行加热处理和有机溶剂(氯仿)处理,发现其抗菌活性消失,初步认定其拮抗物质为蛋白质。
The antagonistic activity of the proteins were lost after were treated by heat and CHCl3. This showed that the antifungal material must be protein.
对其进行加热处理和有机溶剂(氯仿)处理,发现其抗菌活性消失,初步认定其拮抗物质为蛋白质。
The antagonistic activity of the proteins were lost after were treated by heat and CHCl3. This showed that the antifungal material must be protein.
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