陆永浩
北京科技大学研究员
国家材料服役安全科学中心(筹) 建设项目指挥部 副指挥
地址：北京市海淀区学院路30号；邮编：100083
电话： ext 622 或
传真：
Email: lu_yonghao@mater.ustb.edu.cn,yhlu@ncms.ustb.edu.cn
办公室：土木环境楼622
教育简历：
1989年, 江苏大学，动力机械与工程系流体机械专业，学士毕业
1995年, 北京工业大学，基础科学部固体力学专业，硕士毕业
1999年, 北京航空航天大学, 材料科学与工程系材料学专业，博士毕业
工作简历：
1999 - 2001，北京科技大学，材料物理与化学系，博士后
2001 - 2002，日本东北大学, 断裂与可靠性研究所，访问
2002 - 2005，香港城市大学，应用物理与材料系/机械与管理工程系，访问
2005 - 2007，北京科技大学，材料物理与化学系，副研究员
2007 - 2008，北京科技大学“重大工程材料服役安全研究评价设施”项目建设指挥部，副研究员
2009 - 2016，国家材料服役安全科学中心(筹)建设项目指挥部, 研究员，副总工程师，工程技术部主任
2016 - 今，国家材料服役安全科学中心(筹)建设项目指挥部, 研究员，副指挥，副总工程师，副总工艺师



研究兴趣：
1. 核电高温高压水中材料的腐蚀、应力腐蚀、腐蚀疲劳行为
2. 工程材料高温服役行为及蠕变行为
3. 核电站关键材料、焊接连接件及服役安全评价
3. 工程关键材料微动损伤和微动腐蚀
4. 高温水中的流动促进腐蚀
5. 超（超）临界火电站材料及服役评价
6.核电、火电站装备寿命预测及延寿技术
7. 工程材料失效微观机理及数值模拟
编著和近期发表的论文
Edited Books：
1. Y. H. Lu: Nanostructure, Phase Configuration and Mechanical Behaviors in TiN Based Nanocomposite Superhard Thin Films, in New Research on Nanocomposites (ISBN: 978-1-60456-799-1), edited by Luis M. Krause and Jonas T. Walter, Dec. 2008, Nova Science Publishers, USA.
Recent publications:
1.L.G. Ling, T.G. Liu, Y.H. Lu. Investigation of the oxide film on 308L weld surface produced during welding process. Materials Characterization 146 (2018) 113–120.
2.L.G. Ling, T.G. Liu, Y.H. Lu, P.L. Guo. Investigation of the oxides film on 304L base metal produced during welding process without inert gas shielding. Applied Surface Science 465 (2019) 780–786.
3.J. Li, Y.H. Lu, X.H. Tu, W. Li. The effects of subsurface microstructure evolution on fretting wear resistance of nickel-based alloy. Wear 416-417 (2018) 81-88.
4.J. Li, Y.H. Lu, X.H. Tu, W. Li. The effect of subsurface degradation on tribocorrosion behaviors of Inconel 690 in 3.5% sodium chloride. Wear 414-415 (2018) 289-295.
5.W. Wang, T.G. Liu, Y.H. Lu, T. Shoji. In-situ SEM study of crack initiation and propagation behavior in a dissimilar metal welded joint. Materials Science and Engineering A 729 (2018) 331-339.
6.X.Y. Cao, P. Zhu, T.G. Liu, Y.H. Lu, T. Shoji. Thermal aging effects on mechanical and electrochemical properties of stainless steel weld overlay cladding. Surface and Coatings Technology 344 (2018) 111-120.
7.X.Y. Cao, P. Zhu, Q. Yong, T.G. Liu, Y.H. Lu, J.C. Zhao, Y. Jiang, T. Shoji. An investigation on high temperature fatigue properties of tempered nuclear-grade deposited weld metals. Journal of Nuclear Materials 499 (2018) 317-325.
8.J. Li, Y.H. Lu, L. Xin, T. Shoji. The subsurface damage mechanism of Inconel 690 during fretting wear in pure water. Tribology International 117 (2018) 152–161.
9.L. Xin, B.B. Yang, J. Li, Y.H. Lu, T. Shoji, Microstructural characteristics of Alloy 690TT subjected to fretting corrosion in high temperature water. Corrosion Science 123 (2017) 116-128.
10.L. Xin, Y.H. Lu, T. Shoji, The comparative study on nanostructured tribolayers of Alloy 690TT subjected to fretting wear under different oxygen contents. Materials Characterization 131 (2017) 157-167.
11.L. Xin, J. Li, Y.H. Lu, T. Shoji, Wear damage of Alloy 690TT in partial and gross slip fretting regimes at high temperature. Wear 390-391（2017）71-79.
12.L. Xin, Y.H. Lu, T. Shoji, The role of frequency on fretting corrosion of Alloy 690TT against 304 stainless steel in high temperature high pressure water. Materials Characterization 134 (2017) 260-273.
13.L. Xin, Y.H. L, T. Shoji, The role of material transfer in fretting wear behavior and mechanism of Alloy 690TT mated with Type 304 stainless steel Materials Characterization 130 (2017) 250-259.
14.L. Xin, H.J. Luo, J.L. Han, Y.H. Lu, T. Shoji, Damage mechanism of Alloy 690TT mated with Type 304 stainless steel during fretting wear in partial slip regime. Materials Characterization 132 (2017) 284-292.
15.L. Xin, Z.H. Wang, J. Li, Y.H. Lu, T. Shoji. Fretting wear behavior and mechanism of Inconel 690 alloy related to displacement amplitude. Tribology Transactions 60：5 (2017) 913-922.
16.J. Li, B. B. Yang, Y. H. Lu, L. Xin, Z. H. Wang, T. Shoji. The effect of normal force on fretting corrosion behavior of Inconel 690 in 3.5% sodium chloride. Materials Characterization 2017, 131:224-233.
17.J. Li, B. B. Yang, Y H Lu, L. Xin, Z. H. Wang, T. Shoji. The effects of electrochemical polarization condition and applied potential on tribocorrosion behaviors of Inconel 690 alloys in water environment. Materials& Design 2017, 119:93-103.
18.J. Li, B.B.Yang, Y.H. Lu, L. Xin, Z.H. Wang, T. Shoji. The degradation mechanism of Inconel 690TT induced by fretting wear in air. Tribology International 116 (2017) 147–154
19.W. Wang, T.G. Liu, X.Y. Cao, Y.H. Lu, T. Shoji. In-situ observation on twin boundary evolution and crack initiation behavior during tensile test on 316L austenitic stainless steel. Materials Characterization 132 (2017) 169–174.
20.W. Wang , X.Y. Cao, X.F. Ding, Y.H. Lu, T. Shoji. TEM study on oxidation mechanism of the dissimilar welds between 316 stainless steel/Inconel 182 in high temperature and high pressure water. Materials Characterization 131 (2017) 339–347.
21.X. Y. Cao, P. Zhu, T. G. Liu, Y. H. Lu, T. Shoji. Microstructure and electrochemical behavior of stainless steel weld overlay cladding exposed to post weld heat treatment. Journal of Materials Research 2017 32(4):852-862.
22.X. Y. Cao, P. Zhu, X. F. Ding, Y. H. Lu , T. Shoji. An investigation on microstructure and mechanical property of thermally aged stainless steel weld overlay cladding. Journal of Nuclear Materials 2017, 486: 172-182.
23.P. Zhu, X. Y. Cao, W. Wang, Y. H. Lu, T. Shoji. An investigation on microstructure and pitting corrosion behavior of 316L stainless steel weld joint. Journal of Materials Research 2017, 32: 3904-3911.
24.L. Xin, Z. Wang, J. Li, Y.H. Lu, T. Shoji, Microstructural characterization of subsurface caused by fretting wear of Inconel 690TT alloy, Materials Characterization 115 (2016) 32-38.
25.L. Xin, B.B. Yang, Z.H. Wang, J. Li, Y.H. Lu, T. Shoji, Microstructural evolution of subsurface on Inconel 690TT alloy subjected to fretting wear at elevated temperature, Materials & Design 104 (2016) 152-161.
26.L. Xin, B.B. Yang, Z.H. Wang, J. Li, Y.H. Lu, T. Shoji, Effect of normal force on fretting wear behavior and mechanism of Alloy 690TT in high temperature water, Wear 115 (2016) 32-38.
27.Z. H. Wang, Y. H. Lu, H. Y. Zhang and T.Shoji. Effect of cold rolling on the fretting wears behavior and mechanism in Inconel 690 alloy. Tribology Transactions 2016, 5: 923-931.
28.Z. H. Wang, Y. H. Lu, J. Li, T.Shoji. Effect of pH value on the fretting wear behavior of Inconel 690 alloy. Tribology International 2016, 95:162-169.
29.J. Li, M. Ma, Y. H. Lu, L. Xin. Evolution of wear damage in Inconel 600 alloy due to fretting against Type 304 stainless steel. Wear 2016, 346-347: 15-21.
30.Z. R. Chen, Y. H. Lu, X F Ding, T. Shoji. Microstructural and hardness investigations on a dissimilar metal weld between low alloy steel and Alloy 82 weld metal. Materials Characterization 2016, 121:166-174.
31.J. Li, H. Y. Zhang, Y. H. Lu, L. Xin. Effect of grains size and hardness on fretting wear behavior of Inconel 600 alloys. Tribology International 2015, 304:215-222.
32.W. Wang, Y.H. Lu, X.F. Ding, T. Shoji. Microstructures and microhardness at fusion boundary of 316 stainless steel/Inconel 182 dissimilar welding. Materials Characterization 107 (2015) 255–261.
33.X. Y. Cao, X. F. Ding, Y. H. Lu, P. Zhu, T. Shoji. Influences of Cr content and PWHT on microstructure and oxidation behavior of stainless steel weld overlay cladding materials in high temperature water. Journal of Nuclear Materials 2015, 467: 32-41
34.Z. R. Chen, Y. H. Lu. TEM observation of martensite layer at the weld interface of an A508III to Inconel 82 dissimilar metal weld joint. Metallurgical and Materials Transactions A 2015, 46(12): 5494-5498.
35.H. Y. Zhang, Y. H. Lu, M. Ma, J. Li. Effect of precipitated carbides on the fretting wear behavior of Inconel 600. Wear 2014, 315: 58-67.
36.Y. H. Lu, Z. R. Chen, X. F. Zhu, T. Shoji. SCC behaviors of austenitic stainless steel Z3CN20-09M in high temperature water. Material Science and Technology 2014, 30(15): 1944-1950.
37.Y. H. Lu, X, F. Zhu. Effect of phase boundary on nucleation and propagation of microcrack in nuclear grade Z3CN20-09M stainless steel. Materials Science and Technology 2014, 30(8): 967-972.
38.J. Li, Y. H. Lu. Effects of displacement amplitude on fretting wear behaviors and mechanism of Inconel 600 alloy. Wear 2013, 304：223-230.
39.Y. H. Lu, J. P. Wang, and Y. G. Shen: Effect of oxidation temperature on microstructure, mechanical behaviors and surface morphology of nanocomposite Ti-Cx-Ny thin films. Applied Surface Science 257 (2011), pp. 2769-2774. SCI, IF: 1.895.
40.Q. H. Luo, Y. H. Lu, Y. Z. Lou, Y. B. Wang, D. L. Yu: Structure, electrical conductivity and Hall Effect of amorphous Al-C-N thin films. Thin Solid Films 518 (2010), pp.7038-7043. SCI, IF: 1.91.
41.Y. H. Lu, J.P. Wang, Y. G. Shen: Effect of N content on phase configuration, nanostructure and mechanical behaviors in Ti–Cx–Ny thin films. Applied Surface Science 255 (2009), pp.7858-7863. SCI, IF: 1.895.
42.Y. H. Lu, J.P. Wang, Y. G. Shen: Effect of N content on phase configuration, nanostructure and mechanical behaviors in Ti–Cx–Ny thin films. Applied Surface Science 255 (2009), pp.7858-7863. SCI, IF: 1.895.
43.X. J. Hu, Y. H. Lu, Y. G. Shen: The grain size distribution in nanocomposite films. Solid State Communications, 149 (23-24) (2009) 903. SCI,IF:1.91.
44.K. Chu, Y. H. Lu, Y.G. Shen: Structural and mechanical properties of titanium and titanium diboride monolayers and Ti/TiB2 multilayers. Thin Solid Films, 516 (16) (2008) 5313. SCI, IF:1.91.
45.Y. H. Lu, and Y. G. Shen: Nanostructure transition: from solid solution Ti(N,C) to nanocomposite nc-Ti(N,C)/a-(C, CNx) . Applied Physics Letter, 90（2007）221913, SCI, IF:3.845.
46.Y. H. Lu, Y. G. Shen, J. P. Wang, Z. F. Zhou, K. Y. Li: Effects of B content and wear parameters on dry sliding wear behaviors of nanocomposite Ti-B-N thin films. Wear, 2007, 262, 1372.; SCI, IF 1.404.
47.Y. H. Lu, Y. G. Shen, K. Y. Li: Nanostructured two-phase nc-TiN/a-(TiB2, BN) nanocomposite thin films. Applied Surface Science 253(3) (2006) 1631; SCI, IF 1.263.
48.Y. H. Lu, Z.-J. Liu, Y.G. Shen: Investigation of nanostructure evolution and twinning of nanocrystallites in Ti-Bx-Ny nanocomposite thin films deposited by magnetron sputtering at low temperature by means of HRTEM and Monte Carlo simulation. Acta mater. 54(11) (2006)2897; SCI; IF 3.430.
49.Y. H. Lu, Q. J. Peng, K. Sato and T. Shoji: An ATEM study of oxidation behavior of SCC crack tips in stainless steel 304L in high temperature oxygenated water. Journal of Nuclear Materials347 (2005) 52; SCI, IF 1.414.
50.Y. H. Lu, S. Liang, L. J. Qiao and W. Y. Chu: AFM study of Martensitic Transformation and Nucleation, Propagation of Crack in CuNiAl Shape Memory Alloy. Intermetallics 10(8) (2002) 823; SCI IF 1.557.
51.Y. H. Lu, J. P. Wang and Y. G. Zhang: Stress analysis of differently oriented crack tip in fully lamellar TiAl based alloys. Journal of Materials Science Letter 20(21) (2001) 1999; SCI, IF 0.711.
52.Y. H. Lu, L. J. Qiao and W. Y. Chu: TEM Observation of Martensitic Reverse Transformation Ahead of A Crack tip Upon Loading in CuNiAl Shape Memory Alloys. Journal of Materials Science Letter 20(15) (2001) 1397; SCI, IF 0.711.
53.Y. H. Lu, Y. G. Zhang, L. J. Qiao, Y. B. Wang, C. Q. Chen and W. Y. Chu: The Fracture Mechanism of Fully Lamellar g-TiAl Alloys Through In-situ SEM Observation. Intermetallics 8(2000) 1443; SCI, IF 1.557.
54.Y. H. Lu, Y. G. Zhang, L. J. Qiao, Y. B. Wang, C. Q. Chen and W. Y. Chu: In-situ TEM Study of Fracture Mechanism of Polysynthetically Twinned (PST) Crystals of TiAl Alloy. Materials Science and Engineering A 289 (2000) 91; SCI, IF 1.347.
55.Y. H. Lu, Y. G. Zhang, C. Q. Chen: Crack Paths of PST Crystals of Binary Ti-49at.%Al Alloy.Scripta Materialia 39(9) (1999) 1243; SCI, IF 2.228.
56.Y. H. Lu, Z. Q. Xing etal: Effect of Heat Treatment Temperature on Tensile Properties of A Fe-28Al-5Cr-0.3B-0.003Mg. Scripta Materialia 33(4) (1995) 609; SCI, IF 2.228.