張錦化

近期主要從事高鈦型高爐渣的資源化利用、剛玉-尖晶石微納米粉體的製備、微孔剛玉-尖晶石陶瓷、硼化物陶瓷納米粉體製備等方向的研究工作。

在國內外核心期刊上發表學術論文情況

[1] J Zhang*, S Xiong, C Ke, et al. Synthesis and Reaction Mechanism of Ti3SiC2 by Molten Salt Method from Ti-Si-Fe Alloy, Key Eng. Mater, 768(2018):159-166

[2] J. Zhang*, C. Ke, H. Wu, et al., Solubility limits, crystal structure and lattice thermal expansion of Ln2O3 (Ln=Sm, Eu, Gd) doped CeO2, J. Alloys Compd., 718 (2017) 85-91.

[3] J. Zhang*, C. Ke, H. Wu, et al., Preparation and Anisotropic Lattice Thermal Expansion of Hexagonal Cordierite, Key Eng. Mater., 726 (2017) 470-477.

[4] J. Zhang*, C. Ke, H. Wu, et al., Lattice thermal expansion and solubility limits of neodymium-doped ceria, J. Solid State Chem., 243 (2016) 57-61.

[5] J. Zhang*, C. Ke, H. Wu, et al., Anisotropic Grain Growth Mechanism of Mullite Derived from Cobalt Oxide Doped Diphasic-Gels, Rare Metal Mater Eng, 44 (2015) 323-326.

[6] H. Wu, X. Lei, J. Zhang*, et al., Lattice Thermal Expansion of the Solid Solutions (La1-xSmx)2Ce2O7, Mater. Res. Bull., 57 (2014) 320-324.

[7] J. Zhang*, H. Wu, S. Zhang, J. Yu, H. Xiao, Anisotropic grain growth in diphasic-gel-derived vanadium pentoxide doped mullite, J. Cryst. Growth, 364 (2013) 11-15.

[8] J. Zhang, H. Wu, S. Zhang, J. Yu, S.e.Hou, Preparation of mullite whiskers and their enhancement effect on ceramic matrix composites, Journal of Wuhan University of Technology-Mater. Sci. Ed., 28 (2013) 471-475.

完成及承擔科研項目

[1] 氮化物結合碳化矽耐火材料的製備及性能調控，2018-2019

[2] 鎂鋁尖晶石微粉的基本性能及套用研究，2017-2018

[3] 尖晶石微粉的固相反應法合成製備，2016-2017

[4] 燃氣輪機用稀土複合氧化物熱障塗層材料的製備及其熱膨脹機理研究，2014-2016

[5] 原位分解成孔法製備低熱膨脹堇青石多孔陶瓷及其熱膨脹機理研究 2014-2015

[6] 碳納米晶-氧化鎂/尖晶石複合粉體的機械合金化製備及表征,2011-2013,

[7]釩產品深加工技術及裝備-釩鈦矽鐵合金製備研究國家科技部十二五支撐計畫2011-2013

[1]一種梯度組成微孔剛玉-尖晶石材料及其製備方法 CN201810348826.5

[2]埃洛石納米管/納米二氧化鈦複合材料的製備方法 CN201611138625.X

[3]一種低鈉鎂鋁尖晶石微粉的製備方法 ZL201611016310.8

[4]一種超細堇青石粉體及其製備方法 ZL201510115926.X

[5]一種鎂鋁尖晶石超細粉體及其製備方法 ZL201510115942.9

[6]一種釩鈦矽鐵合金的製備方法 ZL201410132790.9

[7]一種低碳鎂碳質耐火材料及其製備方法 ZL201410132798.5