Powder thermal diffusion alloying is an important surface strengthening method that can fabricate an anticorrosion coating on magnesium alloys.
The diffusion time for most diffusion alloying processes varies from tens of minutes to hours. Meanwhile, it is hard to tell whether the diffusion source has already failed or not in the end of the diffusion alloying process.
Recently, a research team led by Prof. Huang Yanliang from the Institute of Oceanology of the Chinese Academy of Sciences (IOCAS) has determined the effective time of a diffusion source that contains 10 g ZnO and 1 g NH4Cl at 400 ℃. Surprisingly, the effective time of such a diffusion source can be longer than 150 hours.
The study was published in the Journal of Materials Research and Technology.
Results showed that a looser and purer diffusion source and a better air tightness of the crucible could help to prolong the effective time of the diffusion source. A longer preheating time of the diffusion source was preferred for the fabrication of a thicker Zn-rich diffusion alloyed coating in the first diffusion alloying process.
Continuous consumption of the active phase at elevated temperatures leads to the failure of the diffusion source. Our work proved that such an inactive diffusion source could be reactivated by adding new NH4Cl powder,” said Prof. Huang.
“Clarification of the effective time of the diffusion source at elevated temperatures in this work is quite meaningful to save powder materials as well as optimize the diffusion alloying operation in related industries,” said Dr. Lu Dongzhu, first author and corresponding author of the study.
More information:
Dongzhu Lu et al, Effective Time of a Diffusion Source in a Pack Cementation Process on the AZ91D Magnesium Alloy, Journal of Materials Research and Technology (2023). DOI: 10.1016/j.jmrt.2023.04.134
Citation:
Study determines effective time of diffusion source in pack cementation of Mg alloy (2023, April 27)
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