郭喜平


的个人主页 http://teacher.nwpu.edu.cn/guoxiping

基本信息 The basic information

郭喜平

材料学院

博士研究生毕业

工学博士

教授

材料科学与工程

综合介绍 General Introduction

郭喜平,教授,博士生导师,日本学术振兴会(JSPS)学者,全国首批新世纪优秀人才支持计划入选者(2004年),全国高等学校优秀骨干教师(2002年) 。 

工作经历 Work Experience

2015年12月--现在,西北工业大学材料学院教授、博导,研究生院副院长;

2000年12月--2015年11月:西北工业大学材料学院/凝固技术国家重点实验室教授、博导、材料系主任;

1998年12月--2000年11月:日本国富山大学工学部博士后特别研究员,日本学术振兴会(JSPS)学者;

1994年12月--1998年11月:西北工业大学材料科学与工程系/凝固技术国家重点实验室副教授、学术秘书、国家重点实验室办公室主任;

1992年5月--1994年11月:西北工业大学铸造教研室副主任、讲师

教育经历 Education Experience

1988年4月--1992年3月:西北工业大学材料科学与工程系铸造专业攻读博士学位;

1985年9月--1988年3月:西北工业大学材料科学与工程系金属材料及热处理专业攻读硕士学位;

1981年9月--1985年7月:内蒙古工学院(现内蒙古工业大学)金属材料及热处理专业读本科。

教育教学 Education And Teaching

主讲本科生课程:“材料科学与工程导论”(新生专业认知课,24学时);

                          “热处理原理和工艺”(金属材料方向专业核心课程,80学时);

主讲硕士研究生课程:“新型金属结构材料”(专业选修课,40学时);

主讲博士研究生课程:“新型有色金属”(学位选修课,40学时)。

招生信息 Admission Information

博士生招生学科及研究方向

材料学:金属材料,复合材料,材料的组织结构与性能,表面工程

材料加工工程:凝固理论,凝固技术,材料热处理

学术型硕士生招生学科及研究方向

材料学:金属材料,复合材料,材料的组织结构与性能,表面工程

材料加工工程:材料热处理,凝固技术

工程博士及专业学位硕士生招生领域及方向

材料工程

欢迎材料科学与工程、材料加工工程、材料物理、材料化学、力学、冶金工程等相关学科和专业的本科生、硕士生报考硕士或博士研究生,欢迎博士毕业生来本课题组从事博士后研究工作。

科学研究 Scientific Research

主要研究方向为:

1. 新型超高温合金及金属间化合物合金的成分设计、制备技术、组织性能优化;

2.  现代凝固理论及定向凝固技术;

3.  高温抗氧化涂层制备技术。

已主持包括8项国家自然科学基金项目、1项国家“863”计划项目、1项国防基础科研项目、1项国家重点研发计划课题等30余项国家级科研项目。发表学术论文260余篇,被SCI收录130余篇,获得省部级科学技术奖5项。

荣誉获奖 Awards Information

获得省部级奖励5项:


1. “凝固过程的分凝行为及其应用2003年度陕西省科学技术奖壹等奖


2. “高梯度定向凝固连铸理论2002年度陕西省科学技术奖贰等奖


3. 镍基高温合金单晶晶体生长界面形态与亚微观组织控制1998年教育部科学技术进步奖贰等奖。


4. 凝固过程的传输现象及其效应1998年教育部科学技术进步奖叁等奖


5.  “ACRT-B晶体生长设备1996年原航空工业总公司科学技术进步奖贰等奖。


得的教学成果奖为:

1. “双向拓展、协同融合的高素质拔尖创新人才培养模式探索”,西北工业大学优秀教学成果奖一等奖2017年;

2. 面向国防重大需求和****战略 构建多维协同创新的人才培养体系陕西省2017年高等教育教学成果奖特等奖

近5年指导的博士生中:

1人次获得陕西省优秀博士学位论文(2017年);


2人次获得西北工业大学优秀博士学位论文(20171人次,20181人次);

社会兼职 Social Appointments

国家自然科学基金委员会工程与材料科学部会评专家;

中国材料研究学会金属间化合物及非晶分会理事;

中国材料研究学会凝固科学与技术分会理事;

中国金属学会会员;

中国航空学会会员;

日本铁钢协会(ISIJ)会员;

TMS(The Minerals, Metals and Materials Society)会员 

团队信息 Team Information

目前(2018年4月),本课题组(难熔合金课题组)有教授1名,副教授1名,在读博士研究生10名,在读硕士研究生13名。拥有针对难熔合金制备的大型专用设备12台套,可进行难熔合金的熔炼、定向凝固、热处理、粉末冶金、抗氧化涂层的制备等,包括真空非自耗电弧熔炼炉、水冷铜坩埚高频感应熔炼炉(2200 ℃)、超高温定向凝固炉 (2200℃)、超高温热处理炉 (2200℃)、超高温高真空扩散渗炉 (2200℃)、热压烧结炉 (2000℃, 50 tons)、拉伸氧化炉及循环氧化炉 (1750℃)等。

学术成果 Academic Achievements

2015年至2018年4月发表的部分文章为:

Y.Q. Qiao, J.P. Kong and X.P. Guo (April 2018): Hot Corrosion Phenomena of Nb-Ti-Si Based Alloy and its Silicide Coating Induced by Different Corrosive Environments at 900 °C, Ceramics International, Vol. 44, 7978-7990.

  • L.J. Zhang and X.P. Guo (25 March 2018): Effects of Process Control Agents on the Mechanical Alloying Behavior of Nb-Ti-Si Based Alloy, Materials Transactions, Vol. 59, No. 4, 528-537.

  • P. Zhang, X.P. Guo, X.R. Ren, Z. Chen, C.J. Shen (February 2018): Development of Mo(Si,Al)2-MoB Composite Coatings to Protect TZM Alloy against Oxidation at 1400℃, Intermetallics, Vol. 93, 134-140.

  • Y. Tang and X.P. Guo (15 January 2018): Flow Softening Behavior during Hot Compression of a Nb-Si Based Ultrahigh Temperature Alloy, Journal of Alloys and Compounds, Vol. 731, 985-994 (SCI-2018FN3WC, 000415930900127; EI20174304311485).

  • Z.P. Sun, X.D. Tian, X.P. Guo, M.J. Yin, F.Y. Zhang and X.M. Zhang (December 2017): Oxidation Resistance and Mechanical Characterization of Silicide Coatings on the Nb-18Ti-14Si-9Al Alloy, International Journal of Refractory Metals & Hard Materials, Vol. 69, 18-26 (SCI-2017FK3NG, 000413391200003; EI20173104015284).

  • Y.Q. Qiao, J.P. Kong, Q. Li and X.P. Guo (October 25, 2017): Comparison of Two Kinds of Si-B-Y Co-deposition Coatings on an Nb-Ti-Si Based Alloy by Pack Cementation Method, Surface and Coatings Technology, Vol. 327, 93-100 (SCI-2017FJ5JW, 000412788800012; EI20173604108133).

  • X. Ma, X.P. Guo, M.S. Fu and H.S. Guo (October 2017): Crystallographic Characteristics of an Integrally Directionally Solidi?ed Nb-Ti-Si Based in-situ Composite, Scripta Materialia, Vol. 139, 108-113 (SCI-2017FD2ZS, 000407403900025; EI20172603845123).

  • P. Zhang, X.P. Guo, C.Y. Zhang, Q. Tao and C.J. Shen (September 2017): Deposition and Oxidation Behavior of Mo(Si,A1)2/MoB Layered Coatings on TZM Alloy, International Journal of Refractory Metals and Hard Materials, Vol. 67, 32-39 (SCI-2017FH9QY, 000411548000004; EI20172003664618)

  • Y.Q. Qiao, X.P. Guo and Y.X. Zeng (September 2017): Study of the Effects of Zr Addition on the Microstructure and Properties of Nb-Ti-Si Based Ultrahigh Temperature Alloys, Intermetallics, Vol. 88, 19-27 (SCI-2017EX8QU, 000403516100004; EI20171903644105).

  • L.J. Zhang and X.P. Guo (March 2017): Mechanical Alloying Behavior of Nb-Ti-Si Based Alloy Made from Elemental Powders by Ball Milling Process, Rare Metals, Vol. 36, Issue 3, 174-182 (SCI-2017EN5KB, 000396043100003; EI20170803382239).

  • Y. Wang, X.P. Guo and Y.Q. Qiao (February 2017): Interactions Between Nb-Si Based Ultrahigh Temperature Alloy and Yttria Matrix Mould Shells, Materials and Design, Vol. 116, 461-471 (SCI-2017EK1ZK, 000393726600051, EI20165203178902).

  • J.J. Yan and X.P. Guo (January 2017): Effect of heat-treatment on microstructure and mechanical behavior of directionally solidified Nb-Ti-Si based alloy, Rare Metal Materials and Engineering, Vol. 46, Issue 1, 1-6 (SCI-2017EJ9ID, 000393538900001, EI20171203457266).

  • X.D. Tian, X.P. Guo, Z.P. Sun, M. Li and L.J. Wang (September 1, 2016): Effects of Y2O3/Y on Si-B co-deposition coating prepared through HAPC method on pure molybdenum, Journal of Rare Earths, Vol. 34, Issue 9, 952-957 (SCI-2016DW1CV, 000383381400015; EI20164302949716).

  • X. Li, X.P. Guo and Y.Q. Qiao (July 2016): Friction and Wear Behaviors of Nb-Ti-Si-Cr Based Ultrahigh Temperature Alloy and its Zr-Y Jointly Modified Silicide Coatings, Transactions of Nonferrous Metals Society of China, Vol. 26, No. 7, 1892-1901 (SCI-2016DT7VV, 000381697200020; EI20164302935876).

  • Z.P. Sun, J.M. Guo, C. Zhang, X.P. Guo ang X.D. Tian (July 2016): Effect of Ti and Al Interaction on Microstructures and Mechanical Properties of the Nb-Ti-Si-Al Alloys, Rare Metal Materials and Engineering, Vol. 45, No. 7, 1678-1682 (SCI-2016DS8XR, 000381066800008; EI20163302717075).

  • Y. Tang and X.P. Guo (15 April 2016): High Temperature Deformation Behavior of an Optimized Nb–Si Based Ultrahigh Temperature Alloy, Scripta Materialia, Vol. 116, 16-20 (SCI-2016DH1QP, 000372560300004; EI20161002064360).

  • T. Yang, X.P. Guo and Y.C. Luo (April 2016): Microstructural Evolution of Mechanically Alloyed Mo-Si-B-Zr-Y Powders, International Journal of Refractory Metals and Hard Materials, Vol. 56, 35-43 (SCI-2016DF2QA, 000371187700005; EI20155201728348).

  • S. Zhang and X.P. Guo (1 March 2016): Alloying Effects on the Microstructure and Properties of Nb-Si Based Ultrahigh Temperature Alloys, Intermetallics, Vol. 70, 33-44 (SCI-2016DC1C1, 000368954000006; EI20155101705530).

  • X. Ma, X.P. Guo, M.S. Fu and Y.Q. Qiao (1 March 2016): Precipitation and Martensitic Transformation of Fcc-Ti in Nb-Ti-Si Based Alloys, Intermetallics, Vol. 70, 17-23 (SCI-2016DC1C1, 000368954000003; EI20160301815338).

  • S. Zhang and X.P. Guo (1 October 2015): Microstructure, mechanical properties and oxidation resistance of Nb silicide based ultrahigh temperature alloys with Hf addition, Materials Science and Engineering A, Vol. 645, 88-98 (SCI-2015CR8DS, 000361581900011; EI20153301175066).

  • X. Li, X.P. Guo and Y.Q. Qiao (October 2015): Research on Oxidation Resistant ZrSi2–NbSi2 Bilayer Coatings for an Nb–Ti–Si–Cr Based Ultrahigh Temperature Alloy, Oxidation of Metals, Vol. 84, Numbers 3/4, 447-462 (SCI-2015CQ8VG, 000360887100014; EI20153701263168).

  • S. Zhang and X.P. Guo (1 September 2015): Microstructural Characteristics of Nb-Si Based Ultrahigh Temperature Alloys with B and Hf Additions, Intermetallics, Vol. 64, 51-58 (SCI-2015CK9JQ, 000356556800008; EI20152100860997).

  • Z.P. Sun, X.P. Guo, X.D. Tian and L. Zhou (September 2015): Microhardness and Macrohardness of as-cast Nb-Ti-Si-B Alloys, Rare Metal Materials and Engineering, Vol. 44, Issue 9, 2148-2151 (SCI-2015CT2DP, 000362612500014; EI20154301444505).

  • P. Zhang and X.P. Guo (July 2015): Preparation and Oxidation Resistance of Silicide/aluminide composite coatings on an Nb-Ti-Si based alloy, Surface & Coatings Technology, Vol. 274, 18-25 (SCI-2015CK3KT, 000356115700003; EI20151800813223).

  • Z.P. Sun, X.P. Guo and B.H. Guo (July 2015): Effect of B and Ti on the Directionally Solidified Microstructure of the Nb-Si alloys, International Journal of Refractory Metals and Hard Materials, Vol. 51, 243-249 (SCI-2015CL1ZV, 000356744300035; EI20151800802534).

  • S. Zhang and X.P. Guo (June 2015): Effects of Cr and Hf Additions on the Microstructure and Properties of Nb Silicide Based Ultrahigh Temperature Alloys, Materials Science and Engineering A, Vol. 638, 121-131 (SCI-2015CL1WK, 000356735400016; EI20152000845882).

  • X. Li, X.P. Guo and Y.Q. Qiao (April 2015): Structure and Oxidation Behavior of Zr-Y Modified Silicide Coatings Prepared on an Nb-Ti-Si-Cr Based Ultrahigh Temperature Alloy, Oxidation of Metals, Vol. 83, Numbers 3/4, 253-271 (SCI-2015CC9CA, 000350663900005; EI20145100348484).

  • Y.Q. Qiao, Z. Shen and X.P. Guo (April 2015): Co-deposition of Si and B to form oxidation-resistant coatings on an Nb-Ti-Si based ultrahigh temperature alloy by pack cementation technique, Corrosion Science, Vol. 93, 126-137 (SCI-2015CC9RA, 000350707100015; EI20150400454425).

  • P. Zhang and X.P. Guo (February 2015): Improvement in oxidation resistance of silicide coating on an Nb-Ti-Si based ultrahigh temperature alloy by second aluminizing treatment, Corrosion Science, Vol. 91, 101-107 (SCI-2015AZ5MJ, 000348264700011; EI20145000326462).

  • Y.Q. Qiao, X.P. Guo and X. Li (February 2015): Hot corrosion behavior of silicide coating on an Nb-Ti-Si based ultrahigh temperature alloy, Corrosion Science, Vol. 91, 75-85 (SCI-2015AZ5MJ, 000348264700008; EI20145000326459).

  • S. Zhang and X.P. Guo (February 2015): Effects of B addition on the microstructure and properties of Nb silicide based ultrahigh temperature alloys, Intermetallics, Vol. 57, 83-92 (SCI-2015AW9AD; 000346549300011; EI20144700231086, 20150200405649).

  • B.H. Guo and X.P. Guo (January 2015): Microstructure of Nb-Ti-Cr-Si based ultrahigh temperature alloy processed by integrally directional solidification, Materials Science and Technology, Vol. 31, Issue 2, 231-236 (SCI-2015AZ6FN, 000348314600016; EI20145200365545).

  • L.J. Zhang and X.P. Guo (2015): Influence of Rotating Speed on Mechanical Alloying Behavior of the Elemental Powder Blends of Nb-Ti-Si Based Alloy during Ball Milling Process, Materials Science Forum, Vol. 816, 310-315 (EI20151800812270).

  • X.D. Tian, X.P. Guo, Z.P. Sun, J.L. Qu and L.J. Wang (2015): Structure of B-modified MoSi2 Coating on C103 Alloy Prepared Through Glow Plasma Deposition and HAPC Combined Method, Materials Science Forum, Vol. 816, 249-254 (EI20151800812259).