为从高钛高炉渣中分离出钙钛矿(CaTiO3),降低渣中TiO2含量,进行了利用微波辐射在渣中引发裂纹,降低炉渣强度,节约碾磨能耗的研究.由实验得知,高钛高炉渣能被微波有效加热,并在炉渣中引发微裂纹;随着微波处理时间的延长,引发的裂纹也随之扩展.为研究引发的裂纹对碾磨渣的影响,对经过微波处理的高钛高炉渣进行了耐压强度测试.测试结果表明,高钛高炉渣中引发微裂纹后,渣的耐压强度下降(经5次、5 min微波处理后,渣的强度大约降低了20%);渣的耐压强度随微波处理时间的延长和微波循环次数的增加而降低,尤其是微波循环次数对渣耐压强度的影响更为显著.
参考文献
| [1] | CHEN Yan;BAI Chen-guang.Microwave Processing of the Blast Furnace Slag Bearing High Titania[A].Na la:Institute of Research and Innovation,2002:118-119. |
| [2] | 傅念新.化学成分对高钛高炉渣钙钛矿相析出行为的影响[J].矿冶工程,1997(04):36. |
| [3] | Walkiewicz J.W.;Clark A.E. .Microwave-assisted grinding[J].IEEE Transactions on Industry Applications,1991(2):239-243. |
| [4] | Chen YAN;Noboru YOSHIKAWA;Shoji TANIGUCHI .Microwave heating behavior of blast furnace slag bearing high titanium[J].ISIJ International,2005(9):1232-1237. |
| [5] | Shackelford J F;Alexanyer W.Material Science and Engineering Handbook[M].London CRC Press,2001 |
| [6] | H.Inaba;H.Tagawa .Semi-empirical estimation of thermal expansion coefficients of perovskite-type oxides[J].日本セラミックス协会学术论文志,1998(1231):272-278. |
| [7] | CHEN Yan;Noboru Yoshikawa;Shoji Taniguchi.Grinding of Blast Furnace Slag Bearing High TiO2 Assisted by Microwave[A].Takamatsu:Institute of Research and Innovation,2004:304-306. |
| [8] | Utaka Kagawa;Hiroshi Hatta.Tailoring Ceramic Composites[M].Tokyo:Agune Press,1990 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%