Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
7915746 | Cryogenics | 2018 | 10 Pages |
Abstract
We present a high-temperature furnace that can work continuously in an 18/20â¯T cold bore magnet. A specially designed liquid nitrogen (LN2) jacket is between the high-temperature parts of the furnace and the liquid helium in the magnet Dewar. With LN2 serving as the cooling medium, the calculated value of radiation received by the liquid helium (LHe) is as low as 0.004â¯W. The furnace can be put into LHe Dewar directly. Together with the magnet, the furnace can provide experimental conditions of a strong static magnetic field and temperatures up to 940â¯Â°C. A cobalt oxide synthesis in solution was carried out at 200â¯Â°C with and without a 15â¯T magnetic field for 8â¯h. Differences in material structure with the applied field were observed in transmission electron micrographs of the products. A Co film sample was treated at 900â¯Â°C with and without a 6.8â¯T magnetic field for 30â¯min. The scanning electron micrographs of the treated samples show that magnetic field had a clear effect on the heat treatment process. These two applications confirmed the performance of the furnace both in high magnetic field and at high temperature.
Keywords
Related Topics
Physical Sciences and Engineering
Materials Science
Electronic, Optical and Magnetic Materials
Authors
Ze Wang, Yubin Hou, Qiyuan Feng, Hongliang Dong, Qingyou Lu,