1.研究领域:
(1)金属凝固理论与技术
(2)铝合金绿色制备与资源再生
(3)高强、高韧、高导热铝合金设计与开发
2.学习和工作经历:
2003.09-2006.06,哈尔滨工业大学,材料科学与工程学院材料加工工程,博士
2006.06-2019.10,哈尔滨工业大学,材料科学与工程学院材料工程系,讲师/副教授/博导
2019.11-至今,苏州大学,沙钢钢铁学院,金属材料工程系,教授/博导
3.研究成果:
在Acta Materialia、Journal of Materials Chemistry A、Journal of Membrane Science、Applied Physics Letters等国内外著名期刊发表SCI论文100余篇,近5年代表性论文如下:
[1]Xiao Liang, Xinzhong Li*, et al., Degradation behavior and model of hydrogen permeation for Pd/Nb30Ti35Co35/Pd composite membranes at high temperature. Journal of Membrane Science 2019 in press (top1)
[2] Xinzhong Li*, Feifei Huang, et al., Development of dual-phase V90Fe5Al5/Cu alloys for enhanced malleability and sustainable hydrogen permeability. Journal of Membrane Science 591 (2019) 117325 (top1)
[3] Kunjun Zhu, Xinzhong Li*, et al., Analysis of W/Mo alloying on hydrogen permeation performance of dual phase Nb-Ti-Ni alloys based on hydrogen chemical potentials. Journal of Membrane Science 584 (2019) 290-299. (top1)
[4] Dongmei Liu, Xinzhong Li*, et al., Development of Nb35Mo5Ti30Ni30 alloy membrane for hydrogen separation applications. Journal of Membrane Science 553 (2018) 171-179 (top1)
[5] Xinzhong Li*, Feifei Huang, et al., V-Cr-Cu dual-phase alloy membranes for hydrogen separation: an excellent combination of ductility, hydrogen permeability and embrittlement resistance. Journal of Membrane Science 524 (2017) 354-361 (top1)
[6] Xinzhong Li*, Xiao Liang, et al., Design of (Nb, Mo)40Ti30Ni30 alloy membranes for combined enhancement of hydrogen permeability and embrittlement resistance. Scientific Reports 7 (2017) 209 (Nature子刊)
[7] Dongmei Liu, Xinzhong Li, et al., Anisotropic layered Bi2Te3-In2Te3 composites: control of interface density for tuning of thermoelectric properties. Scientific Reports 7 (2017) 43611 (Nature子刊)
[8] Bingbing Chen, Xinzhong Li*, et al., Highly sulfur-tolerant Pd composite membranes with a protective layer of MoS2/g-alumina. Journal of Materials Chemistry A 5 (2017) 8892-8896. (top1)
[9] Peng Peng, Xinzhong Li, et al., On oscillatory microstructure during cellular growth of directionally solidified Sn-36at.%Ni peritectic alloy. Scientific Reports 6 (2016) 24315. (Nature子刊)
[10] Peng Peng, Xinzhong Li, et al., On migration of primary/peritectic interface during interrupted directional solidification of Sn-Ni peritectic alloy. Scientific Reports 6 (2016) 24512. (Nature子刊)
[11] Peng Peng, Xinzhong Li, et al. Detachment of secondary dendrite arm in a directionally solidified Sn-Ni peritectic alloy under deceleration growth condition. Scientific Reports 6 (2016) 27682. (Nature子刊)
[12] Xinzhong Li*, Dongmei Liu, et al., Hydrogen transportation behavior of as-cast, cold rolled and annealed Nb40Ti30Co30 alloy membranes. Journal of Membrane Science 514 (2016) 294-304. (top1)
[13] Peng Peng, Xinzhong Li, et al., Migration of liquid phase from the primary/peritectic interface in a temperature gradient, Applied Physics Letters 109, (2016) 021603 (top2)
[14] Xinzhong Li*, Dongmei Liu, et al., Changes in microstructure, ductility and hydrogen permeability of Nb-(Ti, Hf)Ni alloy membranes by the substitution of Ti by Hf. Journal of Membrane Science 484 (2015) 47-56. (top 1)
[15] Xinzhong Li*, Dongmei Liu, et al., Substantial enhancement of hydrogen permeability and embrittlement resistance of Nb30Ti25Hf10Co35 eutectic alloy membranes by directional solidification. Journal of Membrane Science 496 (2015) 165-173 (top1)
4.荣誉与奖励:
2017年,中国教育部自然科学二等奖,包晶合金凝固理论及过程控制基础,排名第1
2017年,黑龙江省技术发明一等奖,电磁冷坩埚及其熔炼和凝固关键技术,排名第2
2011年,黑龙江省自然科学二等奖,钛铝金属间化合物熔凝铸过程基础问题研究,排名第4
2008年,The 7th International Workshop of Intermetallics and Metal Materials 国际会议最佳Post奖,排名第1
2003年,第六届中国机械工程学会铸造专业“富士科”杯优秀论文金奖,排名第1
5.主要学术兼职:
(1)中国机械工程学会铸造分会特种铸造及有色合金专委会副主任
(2)中国可再生能源学会氢能专业委员会委员
(3)《特种铸造及有色合金》期刊编委
(4)国家自然科学基金委函评专家
(5)教育部学位中心评议专家
(6)Acta Materialia、Journal of Membrane Science等高影响期刊审稿人