个人简历
刘海顺,男,1970年生,教授,博士,硕士生导师,江苏省“333工程”培养对象,中国矿业大学首届、第二届学术委员会委员、青年学术带头人、优秀教学团队带头人。主要从事非晶及纳米晶合金结构、性能及其动力学等的研究工作,出版专著教材5部,发表SCI检索论文50余篇(第一作者15篇、通讯作者45篇)、教研论文20余篇;申请发明专利7项(授权2项);主持参与国家自然科学基金面上项目、江苏省自然科学基金、“973计划”子课题、徐州市重点研发计划、学校重大专项培育、国家自然科学基金重点项目等科研项目10余项,获中国煤炭工业科学技术奖、全国安全生产科技成果奖、全国煤炭教育优秀成果奖、江苏省青年教师讲课比赛等一等奖奖励11项;国家自然科学基金委、江苏省科技厅评审专家;指导的研究生多次获国家奖学金、创新硕士奖学金、优秀创新团队等多项荣誉称号。
一、主要经历
(一)教育/培训经历
2019/11-2019/11,浙江大学,研究生导师培训/学员
2006/07-2006/08,美国明尼苏达大学,骨干教师培训/学员
2004/09-2008/07,中国矿业大学,力学系,博士生/博士
1999/09-2001/07,陕西师范大学,物理系,硕士生/硕士
1987/09-1991/07,河南大学,物理系,本科生/学士
(二)工作经历
2015/03-2016/03,澳大利亚悉尼大学,访问学者
2010/01—现在,中国矿业大学,物理系,教授
2006/09-2007/08,南京大学,物理系,访问学者
2005/01—2009/12,中国矿业大学,物理系,副教授,副主任
2001/08—2004/12,中国矿业大学,物理系,讲师
二、近期科研项目
[1]江苏省自然科学基金面上项目激光选区熔化铁基金属玻璃的致密度与力学性能调控(BK20191338), 10万元. 2019.07 -2022.06,主持人
[2]徐州市重点研发计划铁基非晶异形磁芯选择性激光熔融的应用基础研究(KC17015), 260万元. 2017.09 -2020.08.主持人
[3]国家自然科学基金面上项目矿山支护磁性无损监测及预警的相关基础研究(51074155), 35万元. 2011.01 -2013.12.主持人
[4]江苏省自然科学基金面上项目超大塑性铁基金属玻璃韧脆转变机制研究(BK20141124), 10万元. 2014.07 -2017.06,主持人
[5]中国矿业大学重大项目培育基金基于3D打印异形非晶磁芯的煤矿支护应力监测的基础研究(2014ZDPY35), 30万元. 2014.6 -2017.5,主持人
[6]中央高校基本科研业务费学科前沿专项激光立体成型铁基大块非晶合金及其性能调控机理(2015XKZD02), 200万元. 2015.10 -2019.09,指导老师
[7] “973”计划煤炭深部开采中的动力灾害机理与防治基础研究(2010CB226805), 60万元. 2010.01-2014.12,子课题负责人
[8]江苏省自然科学基金超大塑性铁基块体金属玻璃拉应力场中断裂损伤机理(BK20150170). 20.0万元. 2015.07 – 2018.06,主要研究人员
[9]国家自然科学基金重点项目高性能铁磁性块体非晶合金的探索与结构性能研究(51631003).300.0万元, 2017.01-2021.12,主要研究人员
[10]国家自然科学基金面上项目工业原料可控吹氧制备铁基非晶合金的机理研究(51871237),66.0万元,2019.01-2022.12,主要研究人员
[11]横向项目4项等。
三、社会服务
Nat. Commun.、J non-Cryst. Solids、J Magn. Magn. Mater.、J Low Temp. Phys等期刊审稿人;国家自然科学基金委、国务院学位办、科技部、江苏省科技厅评审专家。
四、近期部分SCI论文(通讯作者)
[1]H. S. Liu*, Z. Chen, J.Y. Mo, M. Z. Wang, Y. Zhang, W. M. Yang. Brittle-to-ductile transition in monatomic Tantalum nanoporous metallic glass. Journal of Non-Crystalline Solids. 2019, 506: 6-13.(SCI一区)
[2] W. M. Yang, Q. Q. Wang, H. B. Ling, H. S. Liu*, L. Xue, Y. Z. He, Q. Li, B. L. Shen. Oxygen-driven impurities scavenging before solidification of Fe-based metallic glasses. Journal of Alloys & Compounds. 2019, 773: 401-412.(SCI一区)
[3] W. M. Yang, B. A. Sun, Y. C. Zhao, Q. Li, L. Hou, H. S. Liu*, A. Inoue. Non-repeatability of large plasticity for Fe-based bulk metallic glasses. Journal of Alloys & Compounds, 2016, 676: 209-214.(SCI一区)
[4] W. M. Yang, J. T. Huo, H. S. Liu*, J. Li, L. Song, A. Inoue. Extraordinary magnetocaloric effect of Fe-based bulk glassy rods by combining fluxing treatment and J-quenching technique. Journal of Alloys & Compounds, 2016, 684:29-33.(SCI一区)
[5]Zhang Y,H. S. Liu*, Mo J, et al. Atomic-level crystallization in selective laser melting fabricated Zr-based metallic glasses. Physical Chemistry Chemical Physics, 2019, 21: 12406.(SCI一区)
[6] Z. Chen,H. S. Liu*,W. Y. Li, J.Y. Mo, M. Z. Wang, Y. Zhang,J. Y. Li,Q. Jiang, W. M. Yang,C. G. Tang. Chiral metallic glass nanolattices with combined lower density and improved auxeticity. Physical Chemistry Chemical Physics, 2019, 21: 20588.(SCI一区)
[7] W. M. Yang, Q. Q. Wang, W. Y. Li, L. Xue,H. S. Liu*, J Zhou, J. Y. Mo, B. L. Shen. A novel thermal-tuning Fe-based amorphous alloy for automatically recycled methylene blue degradation. Materials and Design. 2019, 161: 136-146.(SCI一区)
[8] Q. L. Liu,H. S. Liu*, M. Z. Wang, Y. Zhang , Z. G. Ma , Y. C. Zhao, W. M. Yang. Effects of Ni substitution for Fe on magnetic properties of Fe80-xNixP13C7(x = 0–30) glassy ribbons. Journal of Non-Crystalline Solids.2017, 463: 68-71.(SCI一区)
[9]J. Y. Mo,H. S. Liu*, Y. Zhang, M. Z. Wang, L. Zhang, B. Z. Liu, W. M. Yang. Effects of pressure on structure and mechanical property in monatomic metallic glass. Journal of Non-Crystalline Solids.2017, 464: 1-4.(SCI一区)
[10]W. M. Yang, C. Wan,H. S. Liu* , Q. Li , Q. Q. Wang, H. Li , J. Zhou ,L. Xue , B. L. Shen, I. Akihisa. Fluxing induced boron alloying in Fe-based bulk metallic glasses. Materials & Design.2017, 129: 63-68.(SCI一区)
[11] Q. L. Liu, J. Y. Mo,H. S. Liu*, et al. Effects of Cu substitution for Nb on magnetic properties of Fe-based bulk metallic glasses. Journal of Non-Crystalline Solids, 2016, 443:108-111.(SCI一区)
[12]H. S. Liu*, Q. L. Liu, H. S, W. M. Yang, Y. C. Zhao, J. T. Huo, B. L. Shen. Atomic-scale structural heterogeneity and elastic modulus for metallic glasses. Journal of Non-Crystalline Solids. 2015, 426: 137.(SCI一区)
[13] W. M. Yang,H. S. Liu*, X. D. Fan, L. Xue, C. C. Dun, B. L. Shen. Enhanced glass forming ability of Fe-based amorphous alloys with minor Cu addition. Journal of Non-Crystalline Solids. 2015, 419: 65.(SCI一区)
[14] W. M. Yang,H. S. Liu*,Q. Q. Wang, Z. N. Wei,L. Xue,C. C. Dun,Y. C. Zhao,C. T. Chang,B. L. Shen. Electronic structure of Cu100−xZrx(x = 40, 50, 60) metallic glasses. Materials & Design. 2015, 82: 126.(SCI一区)
[15] L. Xue,H. S. Liu*, L. T. Dou, W. M. Yang, C. T. Chang, A. Inoue, X. M. Wang, R. W. Li, B. L. Shen. Soft magnetic properties and microstructure of Fe84−xNb2B14Cuxnanocrystalline alloys. Materials & Design. 2014, 56: 227.(SCI一区)
[16] C. C. Dun,H. S. Liu*, L. Hou, L. Xue, L. T. Dou, W. M. Yang, Y. C. Zhao, B. L. Shen. Ductile Co–Nb–B bulk metallic glass with ultrahigh strength. Journal of Non-Crystalline Solids. 2014, 386: 121.(SCI一区)
[17] M.Z. Wang,H. S. Liu*, J.Y Li, Q Jiang, W. M. Yang, C.G. Tang. Thermal-pressure treatment for tuning the atomic structure of metallic glass Cu-Zr. Journal of Non-Crystalline Solids. 2020, 535: 119770.(SCI一区)
[18] W. M. Yang, M.Z. Wang, J.Y Li, Q Jiang,H. S. Liu*, C.G. Tang. The effect of slit direction and distribution on mechanical properties of a monatomic Tantalum metallic glass. Journal of Non-Crystalline Solids. 2020. 535: 119963.(SCI一区)
[19] W. M. Yang,H. S. Liu*, A. Inoue, K. Jiang, J. T. Huo, H. B. Ling, Q. Li, B. L. Shen. Mechanical properties and structural features of novel Fe-based bulk metallic glasses with unprecedented plasticity. Scientific Reports. 2014, 4: 6233.
[20] W. M. Yang, W.Y. Li, Q Jiang, J.T. Huo, Y. C. Zhao, H. S. Liu*. Low‑Frequency Dynamics and Its Correlation of Nanoscale Structures in Amorphous Solids. Journal of Low Temperature Physics. 2020, 198: 158-196.
[21] M. Z. Wang,H. S. Liu*, J. Y. Mo, Y. Zhang, Z. Chen, C. H. Yin, W. M. Yang. Thermal-pressure effects on energy state of metallic glass Cu50Zr50. Computational Materials Science. 2018, 155: 493-498.
[22] J.Y. Mo,H. S. Liu*, Z. Chen, Y. Z. He, W. M. Yang, B. L. Shen. Estimation of the glass-forming ability of metallic glasses with monolayer two-dimensional model. Computational Materials Science. 2020, 172: 109353.
[23] K. K. Geng, W. M. Yang, J. Y. Mo, H. S. Liu*, F. Wei, Z. G. Ma, Y. C. Zhao, I. Akihisa. Plastic Deformation Mechanism of Ductile Fe50Ni30P13C7 Metallic Glass. Metals and Materials International, 2019, 25(2): 487-498.
[24] C. Wan, W. M. Yang, Liu,H. S. Liu*, M. Q. Zuo, Q. Li, Z. G. Ma, Y. C. Zhao, I. Akihisa. Ductile Fe-based bulk metallic glasses at room temperature. Materials Science and Technology. 2018, 34(6):751-756.
[25] Y. Zhang,H. S. Liu*, J. Y. Mo, M. Z. Wang, Z. Chen, Y. Z. He, W. M. Yang, C. G. Tang. Atomic-scale structural evolution in selective laser melting of Cu50Zr50metallic glass.Computational Materials Science. 2018, 150: 62-69.
[26] L. Hou, J. Y. Mo, Q. L. Liu,H. S. Liu*, W. M. Yang. Electronic specific heats for amorphous and crystallized alloys. Springerplus, 2016, (5):699.
[27] L. Hou,H. S. Liu*, Q. L. Liu, C. C. Dun, W. M. Yang, J. T. Huo, L. M. Dou. Effects of Crystallization on Boson Peak of ZrCuNiAlTi Bulk Metallic Glass. Journal of Low Temperature Physics. 2015, 178: 11.
[28] L. Hou, W. M. Yang,H. S. Liu*, J. T. Huo, Y. Jiao, Q. L. Liu. Effects of Annealing on the Specific Heat and Boson Peak for FeCoBSiNb Bulk Metallic Glass. Journal of Low Temperature Physics. 2015, 179: 343.
[29] L. T. Dou,H. S. Liu*, L. Hou, W. M. Yang, L. Xue, Y. C. Zhao, C. T. Chang, B. L. Shen. Effects of Cu substitution for Fe on the glass-forming ability and soft magnetic properties for Fe-based bulk metallic glasses. Journal of Magnetism and Magnetic Materials. 2014, 358-359: 23.
[30] W. M. Yang,H. S. Liu*, X. J. Liu, G. X. Chen, C. C. Dun, Y. C. Zhao, Q. K. Man, C. T. Chang, B. L. Shen, A. Inoue, R. W. Li, J. Z. Jiang. Correlation of atomic packing with the boson peak in amorphous alloys. Journal of Applied Physics. 2014, 116: 123512.
[31] W. M. Yang, J. W. Li,H. S. Liu*, C. C. Dun, H. L. Zhang, J. T. Huo, L. Xue, Y. C. Zhao, B. L. Shen, L. M. Dou and A. Inoue. Origin of abnormal glass transition behavior in metallic glasses. Intermetallics. 2014, 49: 52.
[32] W. M. Yang, Y. C. Zhao, M. Li, G. Z. Zhao, C. C. Dun, L. Xue, L. T. Dou,H. S. Liu*. Correlation between fractal dimension and strength of brittle bulk metallic glasses. Materials Science and Technology. 2014. 447.
五、第一作者部分论文
[1]H. S. Liu, C. L. Zhang, Z. D. Han, H. C. Xuan, D. H. Wang*, Y. W. Du. The Effect of Co doping on the magnetic entropy changes in Ni44−xCoxMn45Sn11alloys. J Alloys Compds. 2009, 467: 27-30.(SCI一区)
[2]Haishun Liu*, Chunhao Yin, Xiexing Miao, Zhida Han, Dunhui Wang, Youwei Du. Permeability spectra study of Fe73.5Si13.5B9Cu1Nb3-XAlX(x=0,0.1,0.2,0.4, 0.8, and 1.6). J Alloys Compds. 2008, 466(1-2): 246-249.(SCI一区)
[3]H. S. Liu*, G. C. Jing, L. Xie, L. Hou, L. M. Dou, C. G. Lv. Variation of microseismic signal with energy: a case study of Zhangxiaolou coal mine. Journal of Mining and Safety Engineering. 2018, 30: 316.
[4]Haishun Liu*, Weiming Yang, Chaochao Dun, Yucheng Zhao, Linmin Dou. Unusual grain growth during annealing process: from amorphous to nanocrystalline. OptoelectronAdv Mat. 2012, 6(1-2): 95-98.
[5]H. S. Liu*, C. H. Yin, L. Zhang, X. B. Mao, X. X. Miao, A. H. Lu. Improvement of magnetic residual stress measurement based on Fourier transform. Mater Sci Technl. 2009, 25(6): 743-746.
[6]Haishun Liu*, LinXue,Chaochao Dun, YuxiangLiu,WeimingYang,LinmingDou, LintaoDou. Effects of high Fe substitution for Mn on phase transition and magnetic properties of YFexMn12-xcompounds. J Mag Mag Mater. 2012, 324(6) : 1230-1233.
[7]Haishun LIU*,Xiexing MIAO, Peng WANG, Wankui BU, Min YANG. More accurate calculations of the magnetic entropy changes. J Mag Mag Mater. 2009, 321(10): 3221-3224.
[8]Haishun Liu*,Yu Wu,Guoying Zhang,Chunhao Yin,Youwei Du. Variation of permeability of Nb-poor Finemet under different field amplitudes. J Mag Mag Mater. 2008, 320 (10): 1705-1711.
[9]H. S. Liu*, C. H. Yin, X. X. Miao, Z. D. Han, D. H. Wang, Y. W. Du. Soft magnetic properties and microstructure of novel Nb poor Finemet type alloys. Mater Sci Technl. 2008, (24) 1: 45-48.
[10]Haishun Liu*, Chaochao Dun, Linmin Dou, Weiming Yang. Theoretical analysis of magnetic sensor output voltage. J Mag Mag Mater. 2011, 323(12): 1667-1670.
六、部分教学论文
[1]刘海顺*,王欣.研究性学习中课题的产生、扩展与选择.学科教育, 2002(1):29-31.(教育类核心,人大复印资料复印)
[2]刘海顺*,杨卫明.基于Monte-Carlo和Visual Basic的牛顿环实验模拟.物理教师, 2015, 36(2): 95-97(核心)
[3]刘海顺*,殷春浩,缪协兴.在普通力学课程中开展研究性学习的探索.力学与实践, 2006, 28(1):74-76.(核心)
[4]侯龙,刘海顺*,刘庆玲.基于红外光通信的功放设计.实验室研究与探索. 2015, 34 (11): 63-65.(核心)
[5]侯龙,刘海顺*,刘庆玲,张义.基于STC12c5a60s2单片机的3D显示屏设计.微型机与应用. 2015, 35: 91-93.
[6]焦杨,张雷,刘海顺.电学基础课程双语教学的实践与思考.物理通报. 2011, 40(5):20-22.
[7]李端明,刘海顺*,王怀军,胡苗苗.电子双缝衍射的计算机模拟.大学物理,2008, 27 (11): 53-55.(核心)
[8]李端明,刘海顺*,王怀军,胡苗苗.巨磁电阻效应及其应用.物理教学,2008,30(3):5-7.(核心)
[9]胡苗苗,刘海顺*,李端明,王怀军.纳米磁性材料应用.物理教师,2009, 30(1):39-40.(核心)
七、专著教材
[1]刘海顺,卢爱红,杨卫明,胡苗苗.非晶纳米晶合金及其软磁性能研究.中国矿业大学出版社, 2009.11,专著;
[2]卢爱红,张连英,刘海顺,茅献彪.应力波诱发冲击矿压的动力学机理研究.中国矿业大学出版社, 2011.8,专著;
[3]吴玉喜,郭治天,刘海顺,王月花,陈涤缨.普通物理习题研讨教程.中国矿业大学出版社, 2009.5,教材.
八、部分发明专利
[1]刘海顺,杨卫明,陈哲,张月,莫金勇,王明梓.一种柔性块体金属玻璃的制备方法.国家发明专利,授权日期: 2019.12, ZL201810517266.1 (授权).
[2]刘海顺,杨卫明,侯龙.金属玻璃磁芯的制备方法.国家发明专利,授权日期: 2015.09, CN201310646292.1 (授权).
[3]刘海顺,杨卫明,窦林名.一种制备优异软磁性能纳米晶合金的退火方法.授权日期: 2013.01, CNZL 201010288806.7(授权).
[4]刘海顺,侯龙,杨卫明.新型无方向性压磁应力计探头.申请日期: 2014.7.6,申请号: 201410314103.5, (公开).
[5]刘海顺,杨卫明,侯龙.一种四探头铁基金属玻璃磁测应力的磁芯传感器.申请日期: 2014.9.1,申请号: 201410439206.4, (公开).
[6]刘海顺,杨卫明,薛琳.一种提高铁基非晶合金形成能力的制备工艺.申请日期: 2014.9.16,申请号: 201410469941.X(授权).
[7]杨卫明,刘海顺,陈培见,赵玉成.一种哑铃状铁基块体金属玻璃试样的制备方法,申请日期:2016.10.08,申请号:ZL201610871540.6(授权).
[8]杨卫明,刘海顺,莫金勇,侯龙,赵玉成.高强铁基合金的制备方法及高强铁基合金截齿,申请日期:2017.09.20,申请号:ZL201510739781.0(授权).
[9]杨卫明,刘海顺,赵玉成,沈宝龙.工业原料吹氧法制造铁基非晶合金,申请日期:2016.12.05,申请号:ZL201611102110.4(授权).
[10]杨卫明,刘海顺,莫金勇.高强铁基合金的制备方法及高强铁基合金截齿.申请日期: 2015.11.04,申请号: 201510739781.0(授权).
九、部分获奖
[1]刘海顺.中国矿业大学优秀教学团队带头人. 2018.12
[2]杨卫明,刘海顺,赵玉成.徐州市自然科学优秀学术论文一等奖. 2016.9
[3]刘海顺.江苏省333工程第三层次培养对象. 2013.9
[4]刘海顺.中国矿业大学青年学术带头人. 2011.7
[5]刘海顺,殷春浩,缪协兴.在普通力学课程中开展研究性学习的实践.全国煤炭教育优秀成果一等奖. 2010.10
[6]刘海顺.江苏省物理教师讲课比赛一等奖. 2009.
[7]刘海顺,沈晓鹏,焦杨,郭昌清.大学生实践创新中创新能力的培养.中国矿业大学教学成果二等奖. 2010.11
[8]石礼伟,刘海顺,段益峰,仇亮,唐军.打造优秀基础物理教学团队,构建“寓教于乐、寓教于研”的创新人才培养模式.中国矿业大学教学成果二等奖. 2014.11
[9]李建新,刘海顺,绍轩,韩荣军,马晓东,李书民,姜红兵.义煤常村矿采掘相互作用及Z型煤柱区域防冲研究.河南煤矿安全生产科技进步奖. 2012.5
[10]赵从国,罗武贤,窦林名,陈兴和,刘海顺,储扣宝,宗小平,王琳,贺刚,庞庄煤矿张小楼井深部采区冲击矿压监测防治技术研究,徐州市科技进步二等奖, 2012.12
[11]武予鲁,窦林名,翟源涛,田富军,牛森营,许胜铭,宋录生,刘军,徐学峰,李建新,崔晓辉,张银亮,陆菜平,刘海顺,牟宗龙.跃进煤矿底板型冲击规律及控制研究.全国安全生产科技成果一等奖. 2011.
[12]乔国厚,窦林名,宋录生,李国旗,刘军,刘亚敏,蔡武,姜红兵,韩荣军,巩思园,王亚超,刘海顺,张国华,陈广强,李振雷.煤矿冲击矿压微震时空监测预警技术研究.河南省工业与信息化科技成果一等奖,2014.
[13]武予鲁,窦林名,翟源涛,田富军,牛森营,许胜铭,宋录生,刘军,徐学峰,李建新,崔晓辉,张银亮,陆菜平,刘海顺,牟宗龙.跃进煤矿底板型冲击规律及控制研究.河南省工业与信息化科技成果一等奖,2010.
[14]焦杨,于建勇,刘海顺,渠立成.全自动型伏安特性测绘仪.中国矿业大学自制实验仪器设备奖,三等奖,2011.
[15]杨绿刚,周福宝,白兰永,苏建国,刘应科,张斌,王晓明,徐玉增,张书坤,王战胜,李金海,张其朋,刘海顺,张云峰,高宗飞.沿空巷道喷涂隔风的复合浆体材料、制备系统及应用研究.中国煤炭工业科学技术一等奖2009.
[16]刘海顺.中国矿业优秀教学一等奖. 2009.
[17]刘海顺.江苏省物理教师讲课比赛一等奖. 2009.
[18]刘海顺,沈晓鹏,焦杨,郭昌清.中国矿业大学教学成果二等奖. 2010.
十、研究生培养
培养硕士研究生12名,联合培养博士生1名。
杨卫明博士发表SCI论文26篇,获国家奖学金、特等奖学金、优秀研究生等荣誉称号,获江苏省优秀博士论文,主持国家自然科学基金及江苏省自然科学基金等项目8项,直接破格副教授;
敦超超硕士获美国维克森林大学博士学位,发表SCI论文20余篇;
薛琳、侯龙、莫金勇硕士分别发表SCI论文10余篇,获创新硕士、优秀硕士毕业生等称号,免试入读博士学位;
豆林涛、刘庆玲、张月、王明梓等硕士发表SCI论文6篇以上,获国家奖学金、创新硕士、优秀硕士毕业生等荣誉;
陈哲、江琦、李婧妍、杨登峰硕士在读,均有SCI论文发表。
此外,课题组还有马严、万超、耿康康、李文宇、孙新发等力学专业博士与硕士研究生。
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