介绍了辉光离子氮化炉的工作原理、改造方案及效果等。
Described in the paper are the working principle, technical modification solution and modification result of the grow plasma nitriding furnace.
对氮化炉用密封电机的结构、磁场特点进行了分析,并建立了磁场的数学模型。
The structure and magnetic field feature of seal motor used in nitriding furnace is analyzed, and the mathematical model for the magnetic field is set up.
设计制造了一台结构优良的氮化炉,使用结果表明,其性能稳定,节能效果优良。
A good nitriding furnace in structures was designed and made. The results show that the properties of this kind of nitriding furnace are stable and the effects of energy-saving are excellent.
通过改造现有辉光离子氮化炉及工艺试验,扩大离子氮化的氮化范围,解决离子氮化后的氧化及变形问题。
By remaking now available glow ion nitrogen furnace and technological test, the range of ion nitrogen is enlarged, the questions of oxide and being out of shape are solved.
采用金相组织分析、显微硬度测试以及普通辉光离子氮化炉等方法和设备 ,研究经不同方式预处理的氨气对离子氮化速度和氮化层组织的影响。
The structure and property of 40Cr steel ion?nitrided layer in the different nitrided atmosphere were investigated by means of Ion Microprobe, XRD, Microscope Analysis and so on.
试图将蒸汽氧化和气体氮化结合在单一的热处理炉中的尝试并没有成功。
It is failed to combine together the two process of water vapor oxidation and gas nitriding in the same furnace.
采用正交设计法,在实验室管式炉内、温条件下利用氨气分解产生的活性氮对锰粉进行氮化获得氮化锰粉。
In order to obtain MnN, manganese power has been nitrided by nitrogen decomposed from ammonia at high temperature in pipe type oven at lab.
采用正交设计法,在实验室管式炉内、温条件下利用氨气分解产生的活性氮对锰粉进行氮化获得氮化锰粉。
In order to obtain MnN, manganese power has been nitrided by nitrogen decomposed from ammonia at high temperature in pipe type oven at lab.
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