Prof. Weizhong Han
School of Materials Science and Engineering
Xi'an Jiaotong University
Email: wzhanxjtu@mail.xjtu.edu.cn
Professor, Associate Prof., Assistance Prof. and Postdoc Position Avaliable!
Prof. Weizhong Han
School of Materials Science and Engineering
Xi'an Jiaotong University
Email: wzhanxjtu@mail.xjtu.edu.cn
Professor, Associate Prof., Assistance Prof. and Postdoc Position Avaliable!
Professor CAMP-Nano, School of Materials Science and Engineering,
Xi'an Jiaotong University, Xi'an, Shaanxi, China, 2014.01;
Research Fellow Center for Materials at Irradiation and Mechanical Extremes,
Los Alamos National Laboratory, Los Alamos, New Mexico, USA,
2010-2013;
Research Fellow ARC Centre of Excellence for Design in Light Metals, Materials
Engineering, Monash University, Melbourne, VIC, Australia, 2008-2010;
Ph.D. Shenyang National Laboratory for Materials Science, Institute of Metal
Research, Chinese Academy of Sciences, Shenyang, Liaoning, China,
2003–2008.
B.S. Department of Physics, Shanxi Normal University, Linfeng, Shanxi, China,
1999-2003.
Science; Science Advances, Nature Communications; Materials Today; Advanced Materials; Nano Letters; Physical Review Letters; ACS Applied Materials and interfaces; Acta Materialia; Physical Review B; Applied Physics Letters; Materials Research Letters; Engineering; Scientific Reports; Scripta Materialia; Materials Chemistry and Physics; Journal of Materials Research; Materials; Advanced Engineering Materials; Journal of Nuclear Materials; Nuclear Fusion and Engineering; Journal of Alloy and Compound; Materials Characterization; Materials Science & Engineering A; Philosophical Magazine; Materials Letters; Computational Materials Science; Metallurgical and Materials Transactions A/B; Acta Metallurgica Sinica; Journal of Materials Science and Technology; Science China Technological Sciences.
科普作品:懒惰的“小螺搬运工”与金属低温失效----金属材料韧脆转变之谜,《走进前沿新材料3》,化学工业出版社,2022年。
2025
1. Jia YJ, Han WZ*, Belta phase controls hydride precipitation within alpha phase in dual-phase Zr-2.5Nb, Scripta Materialia, 256 (2025) 116419.
2024
12. Zou XW, Beyerlein IJ, Han WZ*, Hierarchical nanolayered structures-enabled record-high fracture resistant zircaloy, Acta Materialia, 279 (2024) 120300.
11. Zou XW, Han WZ*, Ma E*, Uncovering the intrisic high fracture toughness of titanium via lowered oxygen impurity content, Advanced Materials, 36 (2024) 2408286.
10. Lin XJ, Liu SM, Han WZ*, High strength and malleable lamellar-structured Mg/Mg2Sn alloy, Journal of Magnesium and Alloys, 2024.
9. Liu SM, Han WZ*, Effect of grain boundary character on intergranular hydrides precipitation in zirconium, Acta Materialia, 276 (2024) 120120.
8.Zheng HS, Zhang YH, Cheng J, Han WZ*, Tensile behaviors of rolled and annealed 90W7Ni3Fe alloy, Scripta Materialia, 251 (2024) 116226.
7. Wang P, Han WZ*, Oxygen solutes-regulated low temperature embrittlement and high temperature toughness in vanadium, Acta Materialia, 273 (2024) 119983.
6. Lin XH, Han WZ*, Achieving strength-ductility synergy in zirconium via ultra-dense twin-twin networks, Acta Materialia, 269 (2024) 119825.
5. Li BQ, Beyerlein IJ, Shinzato S, Ogata S, Han WZ*, Mechanism of solute hardening and dislocation debris-mediated ductilization in Nb-Si alloy, Journal of Materials Science & Technology, 203 (2024) 167-179.
4. Tsuru T, Lobzenko I, Ogata S, Han WZ, First-principles analysis of the effects of oxygen, vacancies, and their complexes on the screw dislocation motion in body-centered cubic Nb, Journal of Materials Research and Technology, 28 (2024) 1013-1021.
3. Zhang YH, Ma E, Sun J, Han WZ*, Unveiling the intrinsic rhenium effect in tungsten, Acta Materialia, 264 (2024) 119586.
2. Lu Y, Han WZ*, Lowering the ductile-to-brittle transition temperature to -36ºC via fine-grained structures in chromium, Scripta Materialia, 239 (2024) 115813.
1. Lin XH, Beyerlein IJ*, Han WZ*, Annealing cracking in Zr and a Zr-alloy with low hydrogen concentration, Journal of Materials Science & Technology, 182 (2024) 165-175.
2023
9. Liu SM, Zhang SH, Ogata S, Yang HL, Kano S, Abe H, Han WZ*, Direct observation of vacancy-cluster-mediated hydride nucleation and the anomalous precipitation memory effect in zirconium, Small, 2023, 2300319. https://doi.org/10.1002/smll.202300319
8. 王佩,林希衡,韩卫忠*,金属表面梯度渗氧强化,《中国材料进展》,2023。
7. Bian YN, Lu Y, Zhang J, Gao B, Wang WB, Han WZ*, Interaction of irradiation defects with precipitates in CuCrZr and Cu-1Fe alloys. Acta Materialia, 253 (2023) 118964.
6. Jia YJ, Han WZ*, Mechanisms of hydride nucleation, growth, reorientation and embrittlement in zirconium: A review. Materials, 16 (2023) 2419.
5. Lu Y, Han WZ*, Pre-stored edge dislocations-enabled pseudo-toughness in chromium, Acta Materialia, 248 (2023) 118788.
4. Yin YZ, Lu Y, Zhang TP, Han WZ*, Nanoindentation avalanches and dislocation structures in HfNbTiZr high entropy alloy. Scripta Materialia, 227 (2023) 115312.
3. Wang XQ, Han WZ*, Oxygen-gradient titanium with high strength, strain hardening and toughness, Acta Materialia, 246 (2023) 118674.
2. 韩卫忠*,卢岩,张雨衡,体心立方金属韧脆转变机制研究进展,《金属学报》, 59 (2023) 335-348。
1. Zhang YH, Ma E, Sun J, Han WZ*, A unified model for ductile-to-brittle transition in body-centered cubic metals, Journal of Materials Science & Technology, 141 (2023) 193-198.
2022
11. Zhang TP, Zhang FZ, Yin X, Han WZ, Zhang CH, Chen H, Xiong BY, Yang K, Hao YX, Important explorations of the sliding tribological performances of micro/nano-structural interfaces: Cross-shaped microconcave and the nano-Nb2AlC-Sn, Engineering Failure Analysis, 142 (2022) 106738.
10. 王秀群,韩卫忠*,单智伟, ß钛合金表面渗氧强化机理研究,《电子显微学报》,41 (2022) 515-519。
9. Jia YJ, Han WZ*, Effect of external stress on hydride reorientation in zirconium, Acta Materialia, 235 (2022) 118100.
8. Ren QY, Li YH, Gao N, Han WZ, Niu YZ, Xie HX, Zhang Y, Gao F, Lu GH, Zhou HB*, Revealing the synergistic effect of invisible helium clusters in helium irradiation hardening in tungsten. Scripta Materialia, 219 (2022) 114850.
7. Zhang JW, Wang JX, Zou XW, Beyerlein IJ*, Han WZ*, Texture evolution and temperature-dependent deformation modes in ambient- and cryogenic-rolled nanolayered Zr-2.5Nb. Acta Materialia, 234 (2022) 118023.
6. 贾豫婕,林希衡,邹小伟,韩卫忠*,锆合金的研发历史、现状及发展趋势,《中国材料进展》41(5) (2022) 354-370。
5. Xie XF, Xie ZM*, Liu R, Fang QF, Liu CS, Han WZ, Wu XB*, Hierarchical microstructures enabled excellent low-temperature strength-ductility synergy in bulk pure tungsten, Acta Materialia, 228 (2022) 117765.
4. Liu CZ, Wang YP, Han WZ, Ma TF*, Ma DF, Zhang YS*, Achieving superior high-temperature strength and oxidation resistance of TiAl nanocomposite through in situ semicoherent max phase precipitation, ACS Applied Materials & Interfaces, 14(6) (2022) 8394-8403.
3. Wang XQ, Zhang YS, Han WZ*, Design of high strength and wear-resistance ß-Ti alloy via oxygen-charging, Acta Materialia, 227 (2022) 117686.
2. Li JT, Beyerlein IJ, Han WZ*, Helium irradiation-induced ultrahigh hardening in niobium, Acta Materialia, 226 (2022) 117656.
1. Xu N, Ma JH, Liu Q, Han WZ, Shan ZW, Size effect of CeO2 particle on nanoscale single-asperity sliding friction, Tribology Letters, 70 (2022) 4.
2021
11. Liu SM, Ishii A, Mi SB, Ogata S*, Li J*, Han WZ*, Dislocation-mediated hydride precipitation in zirconium, Small, 18 (2022) 2105881.
10. Zhang W, Du Y, Han WZ, Huo WT, Hu JJ, Gradient microstructure induced synergetic strengthening in strain-softening Zn alloy. Metallurgical and Materials Transactions A, 53 (2021) 12-17.
9. Zhang YH, Han WZ*, Mechanism of brittle-to-ductile transition in tungsten under small-punch testing, Acta Materialia, 220 (2021) 117332.
8. Lu Y, Zhang YH, Ma E, Han WZ*, Relative mobility of screw versus edge dislocations controls the ductile-to-brittle transition in metals, Proceedings of the National Academy of the Sciences of the United States of America, 118 (2021) e21105961182021.
7. Rashid M, Narayan RL*, Zhang DL, Han WZ*, A comparative study of microstructures and mechanical behavior of laser metal deposited and electron beam melted Ti6Al4V. Journal of Materials Engineering and Performance, 31 (2022) 542-551.
6. Zheng RY, Jian WR, Beyerlein IJ, Han WZ*, Atomic-scale hidden point-defect complexes induce ultrahigh irradiation hardening in tungsten, Nano Letters, 21 (2021) 5798-5804.
5. Jia YJ, Beyerlein IJ, Han WZ*, Precipitation characteristics and distribution of subsurface hydrides in zirconium, Acta Materialia, 216 (2021) 117146.
4. Liu SM, Han WZ*, Transmission electron microscopy characterization of dislocation loops in irradiated zirconium, Tungsten, 3 (2021) 470-481.
3. Zhang JW, Liu SM, Han WZ*, Interfaces reduce dislocation loop formation in irradiated nanolayered Zr-2.5Nb, Scripta Materialia, 200 (2021) 113902.
2. Zou XW, Zhang JW, Han WZ*, Thermal stable hierarchical 3D nanolayered Zr-2.5Nb, Journal of Materials Research, 36 (2021) 2630-2638 (Invited).
1. Li LL, Beyerlein IJ, Han WZ*, Interface-facilitated stable plasticity in ultra-fine layered FeAl/FeAl2 micro-pillar at high temperature, Journal of Materials Science & Technology, 73 (2021) 61-65.
2020
8. Liu SM, Beyerlein IJ, Han WZ*, Two-dimentional vacancy platelets as precursors for basal dislocation loops in hexagonal zirconium, Nature Communications, 11 (2020) 5766.
7. Li LL, Su YQ, Beyerlein IJ*, Han WZ*, Achieving room temperature brittle-to-ductile transition in ultra-fine layered Fe-Al alloys, Science Advances, 6 (2020) eabb6658.
6. Zhang J, Han WZ*, Oxygen solutes induced anomalous hardening, toughening and embrittlement in body-centered cubic vanadium, Acta Materialia, 196 (2020) 122-132.
5. Zhang JW, Leu B, Kumar MA, Beyerlein IJ, Han WZ*, Twin hopping in nanolayered Zr-2.5Nb, Materials Research Letters, 8 (2020) 307-313.
4. Liu SM, Li SH, Han WZ*, Revealing the dynamics of heium bubbles using in-situ techniques, JOM, 72 (2020) 2352-2362. (Invited review)
3. Li SH, Gao N, Han WZ*, In-situ study of initiation and extension of nano-thick defect-free channels in irradiated nickel, Journal of Materials Science & Technology, 58 (2020) 114-119.
2. Zheng RY, Han WZ*, Comparative study of radiation defects in ion irradiated bulk and thin-foil tungsten. Acta Materialia, 186 (2020) 162-171.
1. Yang PJ, Han WZ*, Enhanced oxidation resistance in refractory niobium by surface Ti+/Si+ implantation. Corrosion Science, 163 (2020) 108297.
2019
1. Yang PJ, Li QJ, Han WZ*, Li J, Ma E*. Designing solid solution hardening to retain uniform ductility while quadrupling yield strength. Acta Materialia, 179 (2019) 107-118.
2. Wang M, Beyerlein IJ, Zhang J, Han WZ*. Bi-metal interface-mediated defects distribution in neon ion bombarded Cu/Ag nanocomposites, Scripta Materialia, 171 (2019) 1-5.
3. Zhang JW, Beyerlein IJ, Han WZ*, Hierarchical 3D nanolayered duplex-phase Zr with high strength, strain hardening and ductility, Physical Review Letters, 122 (2019) 255501.
4. 刘思冕,韩卫忠*, 金属材料界面与辐照缺陷交互作用机理。《物理学报》,青年专题评述,68 (2019) 137901.
5. Li SH, Li JT, Han WZ*, Radiation-induced helium bubbles in metals. Materials, 12 (2019) 1036. (Invited Review)
6. Liu SM, Li SH, Han WZ*, Effect of ordered helium bubbles on deformation and fracture behavior of alpha-Zr. Journal of Materials Science & Technology, 35 (2019) 1466-1472.
7. Yang PJ, Li QJ, Tsuru T, Ogata S, Zhang JW, Sheng HW, Shan ZW, Sha G, Han WZ*, Li J*, Ma E*, Mechanism of hardening and damage initiation in oxygen embrittlement of body-centred-cubic niobium. Acta Materialia, 168 (2019) 331-342.
8.Li SH, Zhang J, Han WZ*, Helium bubbles enhance strength and ductility in small-volume Al-4Cu alloys. Scripta Materialia, 165 (2019) 112-116.
9. Wang YB, Yang PJ, Sun X, Zhang HL, Han WZ*, Fracture along deformation twin boundary in small-volume Fe40Mn40Co10Cr10 high entropy alloy. Advanced Engineering Materials, 21 (2019) 1801266.
10.Hu ZW, Wang M, Guo CW, Shan ZW, Li J, Han WZ*, Graphene-coated tungsten nanowires deliver unprecedented modulus and strength. Materials Research Letters, 7 (2019) 47-52.
2018
1. Wang M, Beyerlein IJ, Zhang J, Han WZ*, Defect-interface interactions in irradiated Cu/Ag nanocomposites. Acta Materialia, 160 (2018) 211-223.
2. Ren L, Xiao WL, Han WZ, Ma CL, Zhou L, Influence of duplex ageing on secondary alpha precipitates and mechanical properties of the near belta-Ti alloy Ti-55531. Materials Characterization, 144 (2018) 1-8.
3. Yang Y, Kushima A, Han WZ, Xin HL, Li J, Liquid-like, self-healing aluminum oxide during deformation at room temperature Nano Letters, 18 (2018) 2492-2497.
4. Han WZ*, Ding MS, Shan ZW, Cracking behavior of helium-irradiated small-volume copper. Scripta Materialia, 147 (2018) 1-5.
2017
1. Li SH, Han WZ*, Shan ZW, Deformation of small-volume Al-4Cu alloy under electron beam irradiation. Acta Materialia, 141 (2017) 183-192.
2. Han WZ*, Ding MS, Narayana RL, Shan ZW, In situ study of deformation twinning and detwinning in helium irradiated small-volume copper. Advanced Engineering Materials, 19 (2017) 1700357. (VIP paper).
3. Han WZ*, Zhang J, Ding MS, Lv L, Wang WH, Wu GH, Shan ZW, Li J. Helium nanobubbles enhance superelasticity and retard shear localization in small-volume shape memory alloy. Nano Letters, 17 (2017) 3725-3730.
4. Wan L, Ishii A, Du JP, Han WZ, Mei QS, Ogata S. Atomistic modeling study of a strain-free stress driven grain boundary migration mechanism. Scripta Materialia, 134 (2017) 52-56.
5. Li SH, Han WZ*, Li J, Ma E, Shan ZW. Small-volume aluminum alloys with native oxide shell deliver unprecedented strength and toughness. Acta Materialia, 126 (2017) 202-209.
2016
1. Ding MS, Tian L, Han WZ*, Li J, Ma E, Shan ZW*. Nanobubble fragmentation and bubble-free-channel shear localization in helium irradiated submicron-sized copper. Physical Review Letters, 117 (2016) 215501.
2. Xu N, Han WZ, Wang YC, Li J, Shan ZW. Nanoscratching of copper surface by CeO2. Acta Materialia, 124 (2017) 343-350.
3. Yu WS, Shen SP, Liu YL, Han WZ. Nonhysteretic superelasticity and strain hardening in copper bicrystal with a symmetric incoherent twin boundary. Acta Materialia, 124 (2017) 30-36.
4. Ding MS, Du JP, Wan L, Ogata S, Tian L, Ma E, Han WZ*, Li J*, Shan ZW. Radiation-induced helium nanobubbles enhance ductility in submicron-sized single-crystalline copper. Nano Letters, 16 (2016) 4118-4124.
2015
1. Ding MS, Han WZ, Li J, Ma E, Shan ZW. In situ study of the mechanical properties of airborne haze particle. Science China Technological Sciences, 58 (2015) 2046.
2. Wan L, Han WZ, Chen K. Bi-crystallographic lattic structure directs grain boundary motion under shear stress. Scientific Reports, 5 (2015) 13441.
3. Han WZ*, Huang L*, Ogata S, Kimizuka H, Yang ZC, Weinberger C, Li QJ, Liu BY, Zhang XY**, Li J, Ma E, Shan ZW**,From "smaller is stronger" to "size-independent strength plateau": towards measuring the ideal strength of iron. Advanced Materials, 27 (2015) 3385.
2014
1. Han WZ, Mara NA, Wang YQ, Misra A, Demkowicz MJ. He implantation of bulk Cu-Nb nanocomposites fabricated by accumulated roll bonding. Journal of Nuclear Materials 452 (2014) 57.
2. Cobb J, Vachhani S, Dickerson RM, Dickerson PO, Han WZ, Mara NA, Carpenter JS, Schneider J. Layer stability and material properties of friction stir welded Cu-Nb nanolamellar composites plates. Materials Research Letters 2 (2014) 227.
3. Han WZ, Cerreta EK, Mara NA, Beyerlein IJ, Carpenter JS, Zheng SJ, Trujillo CP, Dickerson PO, Misra A. Deformation and Failure of shocked Cu-Nb nanolaminates. Acta Materialia 63 (2014) 150.
2010-2013
1. Han WZ, Demkowicz MJ, Mara NA, Fu EG, Sinha S, Rollett AD, Wang YQ, Carpenter JS, Beyerlein IJ, Misra A. Design of irradiation tolerant materials via interface engineering.Advanced Materials 25 (2013) 6975.
2. Han WZ, Fu EG, Demkowicz MJ, Wang YQ, Misra A. Irradiation damage of single crystal, coarse-grained, and nanograined copper under helium bombardment at 450C. Journal of Material Research 28 (2013) 2763.(Invited feature paper+Journal cover).
3. Fu EG, Fang Y, Zhuo MJ, Zheng SJ, Bi ZX, Wang YQ, Tang M, Ding X, Han WZ, Luo HM, Misra A, Nastasi M. Acta Materialia 64 (2013) 100.
4. Zheng SJ, Beyerlein IJ, Carpenter JS, Kang K, Han WZ, Mara NA. High strength and thermal stabile bulk nanolayered Cu-Nb composites due to twin-induced interface. Nature Communications 4 (2013) 1696.
5. Beyerlein IJ, Mara NA, Carpenter JS, Zheng SJ, Han WZ, Zhang RF, Kang KW, Germann TC, Nizolek T, Pollock TM, Wang J. Structure-Property-Functionality of Bi-metal Interfaces. Journal of Metals 64 (2012) 1192.
6. Han WZ, Demkowicz MJ, Fu EG, Wang YQ, Misra A. Effect of grain boundary characters on sink efficiency. Acta Materialia 60 (2012) 6341.
7. Zheng SJ, Beyerlein IJ, Wang J, Carpenter JS, Han WZ, Mara NA. Deformation twinning mechanism from bi-metal interfaces as revealed by in-situ straining in the TEM. Acta Materialia60 (2012) 5858.
8. An Q, Ravelo R, Germann TC, Han WZ, Luo SN, Tonks DL, Goddard WA. Shock compression and spallation of single crystal tantalum.Shock Compression of Condensed Matter-2011, PTS 1 AND 2.
9. An Q, Han WZ, Luo SN, Germann TC, Tonks DL, Goddard III WA. Left-right loading dependence of shock response of (111)//(112) Cu bicrystals: deformation and spallation. Journal of Applied Physics, 111 (2012) 053525.
10. Han WZ, Huang L, An Q, Chen HT, Luo SN. Crystallization of nanodroplet prefers close-packed planes regardless of substrate. Journal of Crystal Growth, 345 (2012) 34.
11. An Q, Luo SN, Goddard III WA, Han WZ, Arman B, Johnson WL. Synthesis of single-component metallic glasses by thermal spray of nanodroplets on amorphous substrates. Applied Physics Letters 100 (2012) 041909.
12. Han WZ, An Q, Luo SN, Germann TC, Tonks DL, Goddard III WA. Deformation and spallation of shocked Cu bicrystals with Σ3 coherent and symmetric incoherent grain boundaries. Physical Review B, 85 (2012) 024107.
13.Huang L, Han WZ, An Q, Goddard III WA, Luo SN. Shock-induced consolidation and spallation of Cu nanopowders. Journal of Applied Physics 111 (2012) 013508.
14. Han WZ, Carpenter JS, Wang J, Beyerlein IJ, Mara NA. Atomic-level study of twin nucleation from fcc/bcc interfaces in nanolamellar composites. Applied Physics Letters 100 (2012) 011911. (also see Virtual Journal of Nanoscale Science & Technololy, Jan 23, 2012) .
15. Han WZ, Misra A, Mara NA, Germann TC, Baldwin JK, Shimada T, Luo SN. Role of interfaces in shock induced plasticity in Cu/Nb nanolaminates. Philosophical Magazine 91 (2011) 4172.
16. Han WZ, Chen Y, Vinogradov A, Hutchinson CR. Dynamic Precipitation During Cyclic Deformation of an Underaged Al-Cu Alloy. Materials Science & Engineering A. 528 (2011) 7410.
17. Han WZ, Vinogradov A, Hutchinson CR. On the reversibility of dislocation slip during cyclic deformation of Al alloys containing shear-resistant particles. Acta Materialia 59 (2011) 3720. (Invited talk at ICSMA 16)
18. Wu SD, An XH, Han WZ, Qu S, Zhang ZF. Microstructure evolution and mechanical properties of fcc metallic materials subjected to equal channel angular pressing. Acta Metallurgica Sinica 46 (2010) 257.
19. Tian YZ, Han WZ, Yang HJ, Li SX, Wu SD, Zhang ZF. Shear banding observations in Cu-16wt% Ag alloy subjected to one-pass equal channel angular pressing. Scripta Materialia 62 (2010) 183.
20. Han WZ, Li SX, Wu SD, Zhang ZF. Deformation mechanisms of single crystals and bicrystals subjected to equal-channel angular pressing----Review. Materials Science Forum 633-634 (2010) 511. (Invited)
2006-2009
1. Han WZ, Yang HJ, An XH, Yang RQ, Li SX, Wu SD, Zhang ZF. Evolution of initial grain boundaries and shear bands in Cu bicrystals during one-pass equal channel angular pressing.Acta Materialia 57 (2009) 1132.
2. Han WZ, Cheng GM, Li SX, Wu SD, Zhang ZF. Deformation induced microtwins and stacking faults in aluminum single crystal. Physical Review Letters 101 (2008) 115505.
3. Han WZ, Li SX, Wu SD, Zhang ZF. Origin of deformation twinning from grain boundary in copper. Applied Physics Letters 92 (2008) 221909. (also see Virtual Journal of Nanoscale Science & Technology, Jun 16, 2008)
4. Han WZ, Li SX, Huang CX, Wu SD, Zhang ZF. Orientation design for enhancing deformation twinning in Cu single crystal subjected to equal channel angular pressing. Advanced Engineering Materials 10 (2008) 1110.
5. An XH, Han WZ, Huang CX, Zhang P, Yang G, Wu SD, Zhang ZF. High strength and utilizable ductility of bulk ultrafine-grained Cu-Al alloys. Applied Physics Letters 92 (2008) 201915.
6. Han WZ, Zhang ZF, Wu SD, Li SX. Combined effects of crystallographic orientation, stacking fault energy and grain size on deformation twinning in FCC crystals. Philosophical Magazine 88 (2008) 3011.
7. Han WZ, Zhang ZF, Wu SD, Li SX. Investigation on the geometrical aspect of deformation during equal-channel angular pressing by in-situ physical modeling experiments. Materials Science & Engineering A 476 (2008) 224.
8. Han WZ, Wu SD, Li SX, Wang YD. Intermediate annealing of pure Cu during cyclic equal channel angular pressing. Materials Science & Engineering A 483-484 (2008) 430.
9. Han WZ, Zhang ZF, Wu SD, Li SX. Influences of crystallographic orientations on deformation mechanism and grain refinement of Al single crystals subjected to one-pass equal-channel angular pressing. Acta Materialia 55 (2007) 5889.
10. Han WZ, Zhang ZF, Wu SD, Li SX. Nature of shear flow lines in equal-channel angular-pressed metals and alloys. Philosophical Magazine Letters 87 (2007) 735.
11. Han WZ, Zhang ZF, Wu SD, Li SX, Wang YD. Anisotropic compressive properties of iron subjected to single-pass equal-channel angular pressing. Philosophical Magazine Letters 86 (2006) 435.
12. Jia N, Wang YD, Wu SD, Han WZ, Wang YN, Deng JN, Liaw PK. Anomalous hardening in copper due to the growth of deformation-induced micro-twins after annealing. Scripta Materialia 54 (2006) 1247.
授权发明专利和软件著作权:
1. 一种力学性能优良的微纳尺度材料及其制备方法, 发明专利号:201610398281.X,韩卫忠, 李世豪, 单智伟。
2. 一种金属复合材料及其制备方法, 发明专利号:201510382540.5, 韩卫忠, 丁明帅,单智伟。
3. 一种力学性能优良的金属材料及其制备方法,发明专利号:201710171127.3, 韩卫忠,仰坪炯,张杰文。
4. 一种厘米级大晶粒纯锆的制备方法,发明专利号:201811362194.4,韩卫忠,刘思冕。
5. 一种金属材料表面处理方法,发明专利号:201810717759.X,韩卫忠,仰坪炯。
6. 一种铁铝合金的重熔方法,发明专利号:201910652097.7,韩卫忠,李璐璐。
7. 一种去除样品表面离子损伤的方法,发明专利号:201910325233.1,韩卫忠,郑若瑶,李璐璐。
8. 材料实验数据采集管理平台V1.0, 登记号:2020SR0590485, 范传伟,韩卫忠。
9. 材料实验数据采集管理移动客户端软件V1.0, 登记号:2020SR0590493, 范传伟,韩卫忠。
10.一种多级三维纳米层状锆合金及其制备方法,201910405665.3,韩卫忠,张杰文。
11.一种提高铌合金表面抗氧化能力的方法,201910559375.4,韩卫忠,仰坪炯。
12. 一种力学性能优良的钒合金材料及其制备方法,2019113688224,韩卫忠,张健。
13. Surface treatment method of metallic materials, LY1199-PAT693, Weizhong Han, Pingjiong Yang, US Patent。
14. 一种阻止锆合金热机械加工开裂的热处理方法,202110627439.7,韩卫忠,林希衡。
15. 一种含超高密度孪晶的密排六方金属材料的制备方法,202211516964.2, 韩卫忠,林希衡。
CAMP-Nano, School of Materials Science and Engineering, Xi'an Jiaotong University
28 West Xianning Road, Xi'an, Shaanxi 710049, P. R. China