»Name: Weimin ZHAO | »Working unit: China University of Petroleum | |
»Education and degree:Ph.D. | »Title:Associate Professor | |
»Major:Materials science and technology | »Supervision:Doctor and master thesis supervision | |
»E-mail:zhaowm@upc.edu.cn | ||
»Phone:86-532-86983760 | ||
»Address:66 Changjiang West Road, Qingdao city, Shandong province, PRC | ||
»Outline | ||
◎FIELD OF ACADEMIC RESEARCH (1) Hydrogen permeation and hydrogen-induced failure control of metallic structures (2) Corrosion and protection of welded structures (3) Metal welding and surface engineering In related fields, she has presided over or participated in 5 national projects, 10 provincial and ministerial projects, 3 university-level projects, and more than 20 enterprise projects. ◎EDUCATION (1) 2004 Ph.D. Materials Science and Engineering Department of Materials Process Engineering School of Materials Science and Engineering Xi’an Jiaotong University Sep.2000 – Nov.2004 a candidate for the doctoral degree. Dissertation topic: Corrosive Resistance of NiCrBSi Coating Deposited by HVOF (2) 1997 M.S. Chemical Engineering Machinery Mechanical Department University of Petroleum, China Sep.1994 – Jun.1997 a candidate for the master’s degree. Thesis topic: The Effects of RE on the Cracking Resistance of Welded Joints (3) 1993 B.S. Welding procedure & Equipment Mechanical Department University of Petroleum, China Sep.1989 – Jul.1993 a candidate for the bachelor’s degree. Thesis topic: Corrosion Protection for Pipe Welded Joints ◎WORKING EXPERIENCE (1) Apr.2012 – Apr. 2013,University of Leeds (UK), visiting scholar (2) Oct.2018 – present, Associate Professor. School of Materials Science & Engineering, China University of Petroleum (3) Jun.2005 – Oct.2018, Associate Professor. School of Mechanical & Electronic Engineering, China University of Petroleum (4) Oct.1998 – May 2005, Lecturer. School of Mechanical & Electronic Engineering, University of Petroleum, China. (5) Jul. 1994 – Sep. 1998, Tutor. Mechanical Department, University of Petroleum, China. (6) Jul. 1993 – Jun. 1994, noviciate. Mechanical Department, University of Petroleum, China ◎ACADEMIC PART-TIME JOB (1) Member of the 9th Council of Shandong and Qingdao Corrosion and Protection Society(May 2023 – Apr. 2027) (2) Qingdao oil and gas pipeline butler group expert,Qingdao Development and Reform Commission, 2022 (3) Journal refereeing for Corrosion Science, International Journal of Hydrogen Energy, Surface & Coatings Technology, Materials Letters, Corrosion, Journal of Thermal Spray Technology, Journal of Pipeline Science and Engineering, Journal of Materials Engineering and Performance, Journal of Materials Research and Technology, International Journal of Pressure Vessels and Piping, International Journal of Minerals, Metallurgy and Materials, Journal of Iron and Steel Research International, International Journal of Fatigue. ◎CURRENT TEACHING Principle and application of material forming, Corrosion electrochemistry principle ◎POSTGRADUATE AND POSTDOCTORAL SUPERVISION Current supervision: 8 MS, 1 PhD students Completed- 30 MS, 2 PhD students (1) Compatibility of Oil Casing Materials in Ultra-high Temperature H2-H2S-CO2 Coexistence Environment, Q. Li, 2023 (2) Preparation of Graphene Coating on PEM Electrolyzed Water Stainless Steel Bipolar Plate, J. Tang, 2023 (3) Study on environment compatibility of X70 pipe and its welded joints in hydrogen containing gas, Z. Sun, 2023 (4) Influence of two welding thermal cycles on microstructure and hydrogen embrittlement susceptibility of X80 pipeline steel, X. Li, 2022 (5) Influence of CO on hydrogen embrittlement control of hydrogen-mixed natural gas transmission pipeline, W. Li, 2022 (6) Microstructure optimization of aluminized layer and its effect on hydrogen permeation behavior, Q. Meng, 2022 (7) Hydrogen Damage Sensitivity of Oil Well Tubes in Associated Gas of Shale Oil, B.B. Li, 2021 (8) Effect of arc fusing on microstructure and hydrogen damage resistance of CoCrFeMnNi high entropy alloy, S. Yuan, 2021 (9) Effect of ultrasonic impact treatment on fine structure and hydrogen damage resistance of Ti6Al4V surface layer, H. Sun, 2021 (10) Study on Hydrogen Adsorption / Diffusion Mechanism and Control of X80 Steel Hydrogen Pipeline, S. Li, 2020 (11) Influence of Ultrasonic Rolling Process on Environmental Hydrogen Embrittlement of Coarse grained Heated affected Zone in X80 Welded Pipeline, J. Qiao, 2020 (12) Optimization of Ultrasonic Rolling Process and Its Effect on Surface State of X80 Steel Welded Joints, Z. Wang, 2020 (13) Effects of Welding Procedure on Residual Stress and Hydrogen Enrichment in Girth Joints of Hydrogen-containing Gas Transmission X80 Steel Pipeline, W. Jiang, 2019 (14) Design of Corrosion Resistant Surfacing Layer of Pipe Inner Wall and Research on Its Corrosion Resistance, Y. Wang, 2019 (15) Hydrogen Embrittlement Susceptibility and Critical Embrittlement Parameter of Multi-layer and Multi-pass Welded Joint in High-pressure Hydrogen-containing Gas Transmission Pipeline, W. Deng, 2018 (16) Study on Inhibition Mechanism of CO on Hydrogen Embrittlement of High-Pressure Hydrogen Transport Pipeline, T. Li, 2018 (17) Influence of Plastic Strain on Hydrogen Permeation Behavior and Hydrogen Embrittlement Susceptibility of X80 Pipeline Steel, Y. Zhao, 2018 (18) Study on Hydrogen Permeation Dynamics in Girth Joint of Pipeline Steel under High Pressure Hydrogen Gas Environment, T. Du, 2017 (19) Study on mechanical factors resulted in hydrogen enrichment in X80 spiral welded pipeline in the hydrogen environment, M. Yang, 2017 (20) Study on Hydrogen Embrittlement of X80 Pipeline Steel Welded Joints in High Pressure Coal Gas Environment, T. Zhang, 2016 (21) Influence of Coal Gas Environmental Factors on Hydrogen Permeation Behavior and Hydrogen Embrittlement Sensibility of X80 Pipeline Steel, X. Tang, 2016 (22) Study on Corrosion Fatigue Performance of Riser Welded Joints and its Optimization, X. Wang, 2016 (23) Preparation and Properties of Ni-W-P Composite Coatings by Pulsed Electrodeposition, Y. Zhou, 2015 (24) Study on Hydrogen Permeation Behavior of X80 Steel and its HAZ under Interaction of Cathodic Polarization and Stress, W. Guo, 2015 (25) Study on Hydrogen Permeation and Hydrogen Embrittlement of X80 Pipeline Steel and its HAZ Caused by Cathodic Protection, D. Zhao, 2014 (26) Study on Hydrogen Permeation Behavior of X80 Pipeline Steel Caused by Cathodic Protection and Stress, Z. He, 2014 (27) Effects of Aluminum Spray Coating on Marine Corrosion Fatigue Crack Initiation of X80 Steel, M. Wang, 2013 (28) Effects of Arc-sprayed Aluminum Coating on the Corrosion Fatigue Crack Propagation of X80 steel, R. Xin, 2012 (29) Study on Mechano-electrochemical Behavior of Arc-sprayed Aluminum Coating on HSLA Steel, H. Ai, 2012 (30) Effects of aluminum coating on the corrosion fatigue performance of X80 steel and its mechanism of action, Y. Wang, 2011 (31) Study on Performance of Protective Coatings Applied to High-pressure Pipelines on Semi-submersible Platform, X. Zhou, 2011 (32) Structure Design and Evaluation of Arc Spraying Anti-corrosion Coating for Deep-water Drilling Risers, C. Liu, 2010 ◎RESEARCH PROJECTS She has presided over or participated in 5 national projects, 8 fund projects in Shandong Province, and more than 30 projects in enterprises and institutions. The representative projects presided over are as follows: (1) Corrosion and hydrogen damage mechanism of aluminized steel under ultra-high temperature H2-H2S-CO2-H2O underground environment (ZR2022ME132), Natural Science Foundation of Shandong Province, 2023.01-2025.12 (2) Research on hydrogen enrichment and safety control of welded joints of high-pressure hydrogen transmission pipeline (ZR2017MEE005), Natural Science Foundation of Shandong Province, 2017.08-2020.06 (3) Study on hydrogen embrittlement mechanism of welded joints of ocean pipelines under cathodic protection and stress coupling (ZR2013EEL023), Natural Science Foundation of Shandong Province, 2013.12-2016.12 (4) Effect of aluminum coating on corrosion fatigue behavior of low-alloy Marine steel (BS2009HZ008), Scientific research Award Fund for young and middle-aged scientists of Shandong Province, 2009.12-2012.12 (5) Study on hydrogen embrittlement susceptibility and failure mechanism of typical pipes and welded joints for hydrogen pipeline, Sinopec Qingdao Safety Engineering Institute, 2022.9-2023.12 (6) Experimental study of ultra-high temperature corrosion behavior and control of oil casing, China National Petroleum Corporation Exploration and Development Research Institute, 2021.12-2022.12 (7) Study on the influence of CO on hydrogen embrittlement control of mixed hydrogen transport in natural gas pipeline, State pipeline Group Western pipeline Co., LTD, 2021.1-2022.3 (8) Study on hydrogen permeation kinetics of X80 spiral-seam submerged arc welded steel pipe in Xinjiang coal-to-gas pipeline project, Sinopec Petroleum Engineering Design Co., LTD, 2013.10-2014.10 ◎AWARDS (1) 1996 Outstanding scientific research achievements, China University of Petroleum, the First prize (2) 1997 the Science and Technology Progress Award, Shandong Province, the second prize (3) 1997 Excellent Experimental Technology Achievement Award from 1994 to 1996, China University of Petroleum, the Third prize (4) 1998 the State Invention Award, Ministry of Science and Technology, the fourth prize (5) 1999 Excellent master's degree thesis of Shandong Province (6) 2001 the Science and Technology Progress Award, China Petroleum and Chemical Corporation, the Third prize (7) 2002 the Science and Technology Invention Award, Shandong Province, the Third prize (8) 2002 the Science and Technology Progress Award, Shandong Province machinery industry science and technology expert committee, the First prize (9) 2002 Excellent textbook, China University of Petroleum, the second prize (10) 2003 Outstanding scientific and technological Achievement Award, China University of Petroleum, the First prize (11) 2003 Outstanding scientific and technological Achievement Award, China University of Petroleum, the First prize (12) 2021 Innovation Award, China Invention Association, the First prize (13) 2022 Marine Engineering Science and Technology Award (Basic Research Category), China Ocean Engineering Consulting Association, the second prize ◎BOOK (1) W. Zhao, J. Sun. Corrosion and protection of metal structures[M]. Qingdao: China University of Petroleum Press, 2023 (2) Y. Lei, W. Zhao, T. Han, B. Han, B. Wang. Welding of metals[M]. Qingdao: China University of Petroleum Press, 2012 ◎PUBLICATION In total, 97 articles have been published in Corrosion Science, Electrochimica Acta, International Journal of Hydrogen energy, Surface & Coating Technology, Wear, Journal of Thermal Spray Technology, Acta Metallurgica Sinica, Acta Physica Sinica and other journals. List of representative articles: (1) X. Li, W. Zhao*, S. Shi, et al. Corrosion Product Film Formation Mechanism of 110H-13Cr Casing Steel in Simulated Ultra-high-temperature Gas Environment for Shale Oil Production [J]. Corrosion Science, 2024, 226:111662 (2) W. Zhao*, W. Wang, S. Li, et al. Insights into the role of CO in inhibiting hydrogen embrittlement of X80 steel weld at different hydrogen blending ratios [J]. International Journal of Hydrogen Energy, 2023, in press (3) W. Zhao*, T. Du, X. Li, et al. Effects of multiple welding thermal cycles on hydrogen permeation parameters of X80 steel [J]. Corrosion Science, 2021, 192:109797 (4) W. Zhao, M. Yang, T. Zhang, et al. Study on hydrogen enrichment in X80 steel spiral welded pipe. Corrosion science, 2018, 133: 251-260. (5) T. Zhang**, W. Zhao*, Y. Zhao, et al. Effects of surface oxide films on hydrogen permeation and susceptibility to embrittlement of X80 steel under hydrogen atmosphere. International Journal of Hydrogen Energy, 2018, 43: 3353-3365. (6) T. Zhang**, W. Zhao, T. Li, et al. Comparison of hydrogen embrittlement susceptibility of three cathodic protected subsea pipeline steels from a point of view of hydrogen permeation. Corrosion science, 2018, 131: 104-115. (7) T. Zhang**, W. Zhao*, Q. Deng, et al. Effect of microstructure inhomogeneity on hydrogen embrittlement susceptibility of X80 welding HAZ under pressurized gaseous hydrogen. International Journal of Hydrogen Energy, 2017, 42: 25102-25113. (8) W. Zhao *, T. Zhang, Z. He, et al. Determination of the Critical Plastic-strain-induced Stress of X80 Steel through an Electrochemical Hydrogen Permeation Method. Electrochimica Acta, 2016, 214:336-344. (9) W. Zhao *, C. Wang, T. Zhang, et al. Effects of laser surface melting on erosion-corrosion of X65 steel in multi-phase jet impingement conditions. Wear, 2016,362-363: 39-52. (10) W. Zhao *, T. Zhang, Y. Zhao, et al. Hydrogen permeation and embrittlement susceptibility of X80 welded joint under high-pressure coal gas environment. Corrosion Science, 2016, 111: 84-97. (11) W. Zhao *, Y. Wang, T. Zhang, Yong Wang. Study on the mechanism of high-cycle corrosion fatigue crack initiation in X80 steel. Corrosion Science, 2012, 2012, 57:99-103. (12) W. Zhao *, R. Xin, Z. He, Y. Wang. Contribution of anodic dissolution to the corrosion fatigue crack propagation of X80 steel in 3.5 wt% NaCl solution. Corrosion Science, 2012, 63: 387–392. (13) Y. Wang, W. Zhao*, H. ai, et al. Effects of Strain on the Corrosion Behaviour of X80 Steel, Corrosion Science, 2011, 53: 2761-2766. ◎PATENTS (representative) (1) A chemical heat treatment method for improving the hydrogen resistance of γ-α duplex stainless steel, 202211156311.8 (open state) (2) A device for preparing a metal coating on the inner surface of a small diameter pipe, 202211333035.8 (open state) (3) A device and a method for studying the hydrogen permeation in metal, ZL201510202110.0 (4) Experimental apparatus for simulating corrosion in ocean tidal zone, ZL201110124481.3 (5) An erosion-corrosion experimental device for simulating spray splash zone, ZL 201510257018.4 (6) Apparatus and operating method for electrochemical testing of welded joints in thin liquid film, ZL 201510257017.X (7) Reciprocating bending corrosion fatigue testing machine, ZL 201110124491.7 ◎STANDARDS (1) GB/T 29166-2021, petroleum and natural gas industries – steel drill pipe |
»姓名:赵卫民 | »系属:材料科学与加工系 | |
»学位:博士 | »职称:副教授 | |
»专业:材料科学与工程 | »导师类别:硕导 | |
»电子邮箱:zhaowm@upc.edu.cn | ||
»联系电话:18266639639 | ||
»通讯地址:山东省青岛市黄岛区长江西路66号 | ||
»概况 | ||
◎研究方向 (1)临氢结构的氢渗透及安全控制 (2)焊接结构的腐蚀与防护 (3)材料焊接及表面工程 ◎教育经历 2000.7-2004.12:西安交通大学,材料科学与工程,工学博士。 1994.9-1997.6:石油大学,化工过程机械(焊接方向),工学硕士。 1989.9-1993.7:石油大学,焊接工艺与设备,工学学士。 ◎工作经历 2012.04-2013.04,英国利兹大学,访问学者 2005.06-至今,kaiyun体育登录网页入口(华东),副教授 1998.10-2005.05,石油大学,讲师 1994.07-1998.09,石油大学,助教 1993.07-1994.06,石油大学,见习 ◎学术兼职 山东省暨青岛市腐蚀与防护学会第九届理事会理事(2023.5-2027.4) 青岛市石油天然气管道管家组专家,青发改油气[2022]162号 中国焊接学会会员、中国腐蚀学会会员,Corrosion Science、International Journal of Hydrogen Energy、Surface & Coatings Technology、Journal of Thermal Spray Technology等期刊审稿人。 ◎主讲课程 本科生《材料成型原理及应用》、《材料成型原理》、《材料焊接性》 研究生《腐蚀电化学原理》 ◎指导研究生及博士后 累计指导硕士生38人,合作指导博士生3人。指导的研究生先后在Corrosion Science、International Journal of Hydrogen Energy、金属学报、物理学报等国内外专业期刊上发表80多篇学术论文。 ◎承担项目 (1)国家自然科学基金面上项目2项 2017.01-2020.12,光系统I与表面活性剂的组装机理及其固体表面组装调控研究(项目编号21673292),参与,已结题。 2015.01-2018.12,含杂质超临界CO2输送管线流体相行为及腐蚀机理(项目编号51471188),参与,已结题。 (2)国家863项目3项 2012 2016,深水钻井隔水管系统工程化研制(项目编号2013AA09A222),参与,已结题。 2008 2011,深水钻井隔水管系统技术研究(项目编号2008AA09A106),参与,已结题。 2008-2010,深水半潜式钻井船设计与建造关键技术(项目编号2006AA09A104),参与,已结题。 (3)山东省自然科学基金8项 2023.01-2025.12,超高温H2-H2S-CO2-H2O井下环境渗铝钢的腐蚀及氢损伤机理(项目编号ZR2022ME132),主持,在研。 2017.08-2020.06,高压临氢管线焊接接头的氢富集研究及安全控制(项目编号ZR2017MEE005),主持,已结题。 2014.12-2017.12,碳捕集与封存中含杂质超临界CO2输送管线腐蚀电化学机理(项目编号2014ZRE28105),参与,已结题。 2014.12-2017.12,脂肽表面活性剂与光合膜蛋白的作用机制及光电应用研究(项目编号2014ZRE28035),参与,已结题。 2013.12-2016.12,海洋管线焊接接头在阴极保护和应力耦合作用下的氢脆机制研究(项目编号ZR2013EEL023),主持,已结题。 2010.12 2013.12,低铬油气管材CO2腐蚀过程的原位电化学研究(项目编号ZR2010EM034),参与,已结题。 2006 2008,合金钢轧辊激光熔凝超细化及裂纹敏感性研究(项目编号Y2006F64),参与,已结题。 2006 2008,有机缓蚀剂缓蚀机理的理论研究(项目编号Y2006B352),参与,已结题。 (4)山东省中青年科学家科研奖励基金1项 2012.12,铝喷涂层对低合金海洋用钢腐蚀疲劳行为的影响(项目编号BS2009HZ008),主持,已结题。 (5)山东省科技攻关项目1项 2008 2009,海洋结构物高速电弧喷涂防护关键技术研究(项目编号2007GG30004008),参与,已结题。 (6)kaiyun体育登录网页入口项目3项 2014-2016,高压煤制气输送管线的氢致失效及安全性预测,校自主创新项目科技专项(项目编号14CX05020A),主持,已结题。 2010.12 2012.12,铝喷涂层对HSLA钢腐蚀疲劳行为的影响机理研究,中央高校基本科研业务费专项资金资助(项目编号10CX04029A),主持,已结题。 2005.09 2007.09,绿色缓蚀剂的缓蚀机理研究,校级博士基金课题(项目编号Y050309),主持,已结题。 (7)主持各类企事业项目20余项 代表性的项目: 2023.1-,氢环境慢拉伸试验分析,中国石油集团工程材料研究院有限公司,在研 2022.9-2023.12,氢气管道典型管材及焊接接头氢脆敏感性及失效机理研究,中石化安全工程研究院有限公司,在研。 2022.10-2023.10.30,天然气管道加氢输送关键技术(掺氢环境下慢应变速率拉伸试验及氢渗透测试),中国石油天然气管道科学研究院有限公司,在研。 2021.12-2022.12,油套管超高温腐蚀行为及控制测试评价实验,中国石油天然气股份有限公司勘探开发研究院,已结题。 2021.1-2022.3,CO对天然气管道混氢输送氢脆控制影响研究,中石油西北联合管道有限责任公司,已结题。 2020.12-2021.06,氢气环境渗透及慢应变速率拉伸试验,中国石油天然气集团公司管材研究所,已结题。 2013.10-2014.10,新疆煤制气外输管道工程X80螺旋缝埋弧焊钢管的氢渗透动力学研究,中石化石油工程设计有限公司,已结题。 ◎获奖情况 (1)教学奖励: kaiyun体育登录网页入口(华东)优秀教学成果一等奖“基于分类培养理念下的材料专业研究生创新与实践教育综合改革”,排名8/9,2018年。 kaiyun体育登录网页入口(华东)优秀教学成果一等奖“构建多层次培养体系,提升材料成型及控制工程专业员工工程创新能力”,排名7/9,2017年。 (2)科研奖励: 2021年度海洋工程科学技术二等奖(基础研究类)“含杂质超临界CO2环境海洋油气管材腐蚀机理及防控技术”,6/9,2022年6月。 中国发明协会发明创业奖创新奖一等奖“海洋装备增材修复及腐蚀检测关键技术与成套装备研发应用”,2/6, 2021年。 山东省科学技术发明奖三等奖“瓷釉涂层管道接头耐蚀性的研究”,6/9,2002年。 山东省优秀硕士学位论文“稀土元素对焊接接头抗裂性影响的研究”,作者,1999年。 国家发明奖四等奖“用综合冶金治理代替石油管道焊后内补口焊接新技术的研究”,排名4/5,1998年。 ◎荣誉称号 2011.09,kaiyun体育登录网页入口(华东)优秀教师。 ◎著作 (1) 赵卫民,孙建波.金属结构的腐蚀与防护,青岛,kaiyun体育登录网页入口出版社,2023. (2) 赵卫民,董立先,许敬年. 金属熔化焊接实验教程,青岛,kaiyun体育登录网页入口,胶印,2016. (3) 雷毅,赵卫民,韩涛,韩彬,王炳英. 金属焊接,青岛,kaiyun体育登录网页入口出版社,2012. (4) 吴开源,王勇,赵卫民. 金属结构的腐蚀与防护,东营,石油大学出版社,2000. ◎论文 总结科研成果,本人及所带研究生在“Corrosion Science”、“Electrochimica Acta”、“Surface & Coating Technology”、“Wear”、“Journal of Thermal Spray Technology”、“金属学报”、“物理学报”等中外文期刊上发表学术论文80余篇,其中SCI检索41篇,EI检索50篇。代表性的文章: (1) Xiaoshuang Li, Weimin Zhao*, Shengkai Shi, Ming Wang, Jianing Li, Xuexu Xu, Jianbo Sun. Corrosion Product Film Formation Mechanism of 110H-13Cr Casing Steel in Simulated Ultra-high-temperature Gas Environment for Shale Oil Production [J]. Corrosion Science, 2024, 226:111662 (2) Weimin Zhao*, Wenchen Wang, Shouying Li, Xiaoshuang Li, Chong Sun, Jianbo Sun, Wenchun Jiang. Insights into the role of CO in inhibiting hydrogen embrittlement of X80 steel weld at different hydrogen blending ratios [J]. International Journal of Hydrogen Energy, 2023, in press (3) 赵卫民*,唐静,李小双,夏琪良,王文臣,李丹. 氮碳共渗及渗氮处理下 2205 双相不锈钢的组织转变[J]. 材料热处理学报,2023, 22(2): 148-155 (4) Weimin Zhao*, Tianhai Du, Xiaoshuang Li, Haomei Sun, Beibei Li, Shuai Yuan. Effects of multiple welding thermal cycles on hydrogen permeation parameters of X80 steel [J]. Corrosion Science, 2021, 192:109797 [SCI一区] (5) 李守英, 赵卫民*, 乔建华, 王勇. CO与H在应变Fe(110)表面的竞争吸附. 物理学报, 2019, 68: 217103-1–217103-7. [国家级期刊] (6) 张体明, 赵卫民*, 蒋伟, 王永霖, 杨敏. X80钢焊接残余应力耦合接头组织不均匀下的氢扩散数值模拟. 金属学报, 2019, 55: 258–266. [国家级期刊] (7) Weimin Zhao, Min Yang, Timing Zhang, Qiushi Deng, Wei Jiang, Wenchun Jiang. Study on hydrogen enrichment in X80 steel spiral welded pipe. Corrosion science, 2018, 133: 251-260. [SCI一区] (8) Timing Zhang**, Weimin Zhao*, Yujiao Zhao, Kai Ouyang, Qiushi Deng, Yonglin Wang, Wei Jiang. Effects of surface oxide films on hydrogen permeation and susceptibility to embrittlement of X80 steel under hydrogen atmosphere. International Journal of Hydrogen Energy, 2018, 43: 3353-3365. [SCI二区] (9) Timing Zhang**, Weimin Zhao, Tingting Li, Yujiao Zhao, Qiushi Deng, Yong Wang, Wenchun Jiang**. Comparison of hydrogen embrittlement susceptibility of three cathodic protected subsea pipeline steels from a point of view of hydrogen permeation. Corrosion science, 2018, 131: 104-115. [SCI一区] (10) Timing Zhang**, Weimin Zhao*, Qiushi Deng, Wei Jiang, Yonglin Wang, Yong Wang, Wenchun Jiang***. Effect of microstructure inhomogeneity on hydrogen embrittlement susceptibility of X80 welding HAZ under pressurized gaseous hydrogen. International Journal of Hydrogen Energy, 2017, 42: 25102-25113. [SCI二区] (11) 李守英,王勇,赵卫民*.单轴应变对H在a-Fe中占位及扩散的影响.物理学报,2017, 66(18): 187101-1 - 187101-6. [国家级期刊] (12) Zhao Weimin*, Zhang Timing, He Zhirong, Sun Jianbo, Wang Yong. Determination of the Critical Plastic-strain-induced Stress of X80 Steel through an Electrochemical Hydrogen Permeation Method. Electrochimica Acta, 2016, 214:336-344. [SCI一区] (13) Zhao Weimin*, Wang Chun, Zhang Timing, Han Bin, Anne Neville. Effects of laser surface melting on erosion-corrosion of X65 steel in multi-phase jet impingement conditions. Wear, 2016,362-363: 39-52. [SCI三区] (14) Zhao Weimin*, Zhang Timing, Zhao Yujiao, Sun Jianbo, Wang Yong. Hydrogen permeation and embrittlement susceptibility of X80 welded joint under high-pressure coal gas environment. Corrosion Science, 2016, 111: 84-97. [SCI一区] (15) 赵卫民*, 张体明. 易燃易爆气体泄漏报警系统的设计与实现. 实验室研究与探索, 2016, 35(10): 60-63 (16) 张体明, 王勇, 赵卫民*, 唐秀艳, 杜天海, 杨敏. 高压煤制气环境下X80钢及热影响区的氢渗透参数研究. 金属学报, 2015, 51(9): 1101-1110. [国家级期刊] (17) Weimin Zhao, Yongxing Wang, Timing Zhang, Yong Wang. Study on the mechanism of high-cycle corrosion fatigue crack initiation in X80 steel. Corrosion Science, 2012, 2012, 57:99-103. [SCI一区] (18) Weimin Zhao, Ruofei Xin, Zhirong He, Yong Wang. Contribution of anodic dissolution to the corrosion fatigue crack propagation of X80 steel in 3.5 wt% NaCl solution. Corrosion Science, 2012, 63: 387–392.[SCI一区] (19) Yongxing Wang, Weimin Zhao*, Hua ai, Xiaoguang Zhou, Timing Zhang, Effects of Strain on the Corrosion Behaviour of X80 Steel, Corrosion Science, 2011, 53: 2761-2766. [SCI一区] ◎专利 授权国家发明专利5项: (1) 赵卫民,张体明,赵大朋,王勇,孙建波. 一种研究金属氢渗透行为的装置及方法,2018.1.16,中国,ZL201510202110.0 (2) 赵卫民,王勇,韩彬,韩涛,董立先,孙建波. 海洋潮差区腐蚀模拟实验装置,2017.10.27,中国,ZL201110124481.3 (3) 赵卫民,张体明,王勇,孙建波. 一种模拟浪花飞溅区的冲蚀-腐蚀实验装置,2017.9.26,中国,ZL 201510257018.4 (4) 赵卫民,张体明,王勇,孙建波. 焊接接头在薄液膜中的电化学测试装置及其操作方法,2017.7.14,中国,ZL 201510257017.X (5) 赵卫民,王勇,孙建波,刘存,王永兴,张体明,信若飞. 往复弯曲腐蚀疲劳试验机,2016.5.11,中国,ZL 201110124491.7 ◎标准 李方坡,方伟,葛明君,等。参编 GB/T 29166-2021 石油天然气工业 钢质钻杆,14/17, 2021 |