個人簡介
教學情況
先後承擔《陶瓷工藝原理》、《結構陶瓷》、《
無機材料物理性能》、《功能複合材料》、《自然資源、材料與環境》等課程的講授。
研究領域
主要研究方向為陶瓷材料,複合材料,超導材料,礦產資源及固體廢棄物綜合利用等。主持承擔
國家自然科學基金、國家“863”計畫、
中國博士後科學基金等多項項目,通過省部級科技成果鑑定9項;獲河南省科技進步二等獎1項、三等獎1項;授權及申請國家發明專利8項;撰寫學術著作5部。在國內外期刊上發表學術論文60餘篇。
主要在研項目
1、國家自然科學基金(40872102):煤矸石有害元素在燒結磚製備過程中的遷移行為及環境效應,42萬元,2009-2011。
2、國家“863”計畫項目(2008AA06Z109):利用
煤系高嶺土製備功能性阻隔粘土材料,84萬元,2008-2010。
代表性論文
1. H. L. Xu, Y. Feng, Z. Xu, et al. Investigation on MgB2 wires doped by ZrH2.Journal of Superconductivity and Novel Magnetism, 2007, 20 (3)255-259.
2. H L Xu, Y Feng, G Yan, et al. Investigation of MgB2/Fe wires with different diameters. Superconductor Science and Technology, 19 (11) (2006) 1169-1172.
3. H L Xu, Y Feng, Y Zhao, et al. Effects of polycarbosilane doping on superconductivity and microstructure of MgB2. Superconductor Science and Technology, 2006, 19 (1)68–71.
4. H. L. Xu, Y. Feng, Y. Zhao, et al. Investigation on MgB2 superconductor doped by nano-Al powder. Physica C, 2006, (449)53-56.
5. H. L. Xu, Y. Feng, Z. Xu, et al. Effects of TiB2 doping on the critical current density of MgB2 Wires. Physica C, 443 (2006) 5-8.
6. H. L. Xu, Y. Feng, Z. Xu, et al. Effects of ZrH2 doping and sintering temperature on the critical current density of MgB2 wire. Physica C, 2005, (426-431) 1244-1248.
7. H. L. Xu, Y. Feng, Z. Xu, et al. Effect of Sintering Temperature on Properties of MgB2 Wire Sheathed by Low Carbon Steel Tube. Physica C, 2005, (419) 94-100.
8. XU Hong-Liang, FENG Yong, XU Zheng, et al. Enhancement of critical current density in graphite doped MgB2 wires. Chinese Physics Letters, 21 (12) (2004) 2511-2513.
9. Hongliang Xu, Hailong Wang, Hongxia Lu, et al. Preparation of SiCw/3Y-ZrO2/Al2O3 Composites. Key Engineering Materials, 368-372(2008)775-777.
10. Hongliang Xu, Meng Wang, Qinfu Liu, et al. Preparation and Stability of Kaolinite-Potassium Acetate Intercalation Complex. Presented at the 14th International Clay Conference (Castellaneta Marina, Italy, 2009)
11. Hongliang Xu, Meng Wang, Hongxia Lu, et al. Fabrication and characterization of floor tiles from coal gangue and coal fly ash. Presented at the 14th International Clay Conference(Castellaneta Marina, Italy, 2009)