基本信息
姓名:商昭
出生日期:1986年5月
职称:副教授/硕士研究生导师
邮箱:shangzhao@xaut.edu.cn
教育经历
2004/09–2008/07,西北工业大学,77779193永利集团,材料科学与工程,本科
2008/09–2009/08,西北工业大学,77779193永利集团,材料学,硕士
2009/09–2015/03,西北工业大学,77779193永利集团,材料加工工程,博士(硕博连读)
工作经历
2015/04–至今,永利集团,77779193永利集团,讲师/副教授
研究方向
(1)新型高温结构材料
(2)金属基复合材料
(3)定向凝固理论和技术
公司产品
(1)目前主讲《材料机械设备设计基础》本科生课程
(2)指导硕士研究生1名,协助指导5名,其中3人已毕业并继续攻读博士学位
科研项目
(1)国家自然科学基金青年项目,51704232,24万,主持
(2)长寿命高温材料国家重点实验室开放课题,DTCC28EE190226,20万,主持
(3)陕西省自然科学基础研究计划,2016JQ5018,4万,主持
(4)陕西省教育厅专项科学研究计划,16JK1538,2万,主持
(5)凝固技术国家重点实验室开放课题,SKLSP201626,6万,主持
科研成果
目前已经在Materials Science and Engineering A、Intermetallics、Journal of Materials Research and Technology、Materials Characterization等国际期刊发表第一作者论文十余篇。代表性论文如下:
(1)Z. Shang, Q.W. Zhang, J. Shen, H.Q. Bai, X.W. Dong, W.F. Bai, L.S. Zhong, G. Liu, Y.H. Xu. Effects of Nb/Ti additions and heat treatment on the microstructure evolution and hardness of as-cast and directionally solidified NiAl–Cr(Mo) alloy. Journal of Materials Research and Technology. 2021, 10: 905–915.
(2)Z. Shang, X.P. Wei, D.Z. Song, J.T. Zou, S.H. Liang, G. Liu, L.P. Nie, X.F. Gong. Microstructure and mechanical properties of a new nickel-based single crystal superalloy. Journal of Materials Research and Technology. 2020, 9(5): 11641–11649.
(3)Z. Shang, H.Q. Bai, L.S. Zhong, Q.W. Zhang, Y.H. Xu. In situ preparation of micro-nano tantalum carbide ceramic. JOM. 2020, 72(8): 2974–2982.
(4)Z. Shang, Q.W. Zhang, J. Shen, H.Q. Bai, H.L. Liang, L.S. Zhong, Y.H. Xu. Effects of V addition on the solidification microstructures and room temperature compression properties of NiAl-Cr(Mo) hypereutectic alloy. Vacuum. 2020, 179: 109507.
(5)Z.Shang, J. Shen, G. Liu, Y.H Xu. Investigations on the solidification microstructures and room temperature compression properties of Nb-doped NiAl-32Cr-6Mo hypereutectic alloy. Materials Science & Engineering A. 2018, 723: 89–96.
(6)Z.Shang, J. Shen, G. Liu, Y.H Xu. Microstructure evolution of directionally solidified NiAl-28Cr-6Mo eutectic alloy under different withdrawal rates. Materials Science and Technology. 2018, 34(25): 1839–1846.
(7)Z. Shang, J. Shen, L. Wang, Y.J. Du, Y.L Xiong, H.Z. Fu.Effect ofmicrostructure morphology on the high temperature tensile properties and deformation in directionally solidified NiAl-Cr(Mo) eutectic alloy. Materials Characterization. 2015, 109: 152–159.
(8)Z. Shang, J. Shen, L. Wang, Y.J. Du, Y.L Xiong, H.Z. Fu. Investigations on the microstructure and room temperature fracture toughness of directionally solidified NiAl-Cr(Mo) eutectic alloy. Intermetallics. 2015, 57: 25–33.
(9)Z. Shang, J. Shen, J.F. Zhang, L. Wang, L.S. Wang, H.Z. Fu.Effect of microstructures on the room temperature fracture toughness of NiAl-32Cr-6Mo hypereutectic alloy directionally solidified at different withdrawal rates. Materials Science&Engineering A. 2014, 611(31): 306–312.
(10)Z. Shang, J. Shen, J.F. Zhang, L. Wang, L. Qin, H.Z. Fu. Effects of withdrawal rate and temperature gradient on the microstructure evolution in directionally solidified NiAl-36Cr-6Mo hypereutectic alloy. JOM. 2014, 66(9): 1877–1885.
(11)Z. Shang, J. Shen, J.F. Zhang, L. Wang, H.Z. Fu.Effect of withdrawal rate on the microstructure of directionally solidified NiAl-Cr(Mo) hypereutectic alloy.Intermetallics. 2012, 22(3): 99–105.
(12)Z. Shang, J. Shen, J.F. Zhang, L. Wang, H.Z. Fu.Perfect cellular eutectic growth in directionally solidified NiAl-Cr(Mo) hypereutectic alloy.Journal of Crystal Growth.2012, 354(1): 152–156.