黄崇湘 - 四川大学 - 空天科学与工程学院

个人简介

黄崇湘,教授/研究员四川大学空天科学与工程学院教授、博士生导师、副院长德国“洪堡”学者教育部“新世纪优秀人才” 个人简介黄崇湘博士2006年毕业于中国科学院金属研究所，获工学博士学位。曾先后工作于中国科学院金属研究所、德国亚琛工业大学、香港城市大学和美国北卡罗莱那州立大学等知名研究机构和大学。主要从事新概念飞行器、飞行器结构强度、复杂环境下材料的力学行为与损伤破坏研究，在Materials Today、Acta Materialia、International Journal of Plasticity 等国际期刊上发表论文百余篇，其中SCI论文90余篇，论文他引3000多次。主持/参与包括国家自然科学基金（重点/面上/青年）、国防科技创新项目、教育部新世纪优秀人才划等多个项目。教育经历 2000/09-2006/06 中国科学院金属研究所材料物理与化学博士(硕博连读) 1996/09-2000/06 沈阳工业大学焊接工艺及设备学士研究经历 2013/06-至今教授/博导四川大学空天科学与工程学院 2013/09-2014/08 访问学者美国北卡罗莱纳州立大学 2011/06-2011/08 高级研究助理香港城市大学 2010/12-2013/05 教授/博导四川大学建筑与环境学院 2008/09-2010/06 洪堡研究员德国亚琛工业大学 2006/07-2008/08 助理研究员中国科学院金属研究所研究项目 1. 国家自然科学基金（重点）：“金属材料跨尺度异构的强韧化及微结构调控” 2. 国家自然科学基金（面上）：“新型高强高韧微/纳米叠层金属材料的界面力学行为与强韧化机理” 3. 国家自然科学基金（面上）：“低层错能纳米金属的力学行为及变形动力学” 4. 国家自然科学基金（青年）：“超细晶奥氏体不锈钢的形变诱导相变强韧化机制” 5. 教育部“新世纪优秀人才支持计划”：“新型材料的力学行为” 6. 四川省青年科技基金：“新型高性能多尺度金属材料的力学特性与强韧化机理” 7. 国家重大科研仪器设备研制专项：“复杂载荷-环境下超长寿命疲劳振动加速综合实验系统研制” 荣誉和奖励 2020年：2019年Acta Materialia 期刊全球杰出审稿人 2013年：入选第十批“四川省学术和技术带头人后备人选” 2012年：入选教育部“新世纪优秀人才计划” 2011年：Elsevier出版公司Acta Materialia "Top 50 Highly Cited Articles By Chinese Mainland Authors 2006-2010" 2008年：德国“洪堡（AvH）”学者 2008年：中国科学院沈阳分院第一届青年科技人才奖

研究领域

1. 金属材料的强韧化与变形动力学 2. 微/纳米异构金属材料的制备、结构表征与力学行为 3. 飞行器热端部件材料的设计、制备与评价 4. 航空金属材料的动态力学行为、疲劳与失效分析

近期论文

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1. F.J. Guo, Y.F. Guo, M.S. Wang, W. Wei, Q. He, Q.Y. Wang, R.R. Jin, C.X. Huang*: The critical grain size for optimal strength–ductility synergy in CrCoNi medium entropy alloy, Scripta Materialia, 218:114808, 2022. 2. M.S. Wang, Y.F. Wang, Q. He, W. Wei, F.J. Guo, W.L. Su, C.X. Huang*: Strong and ductile pure titanium, Materials Science and Engineering A, 833: 142534, 2022. 3. Y.F. Wang, Y.G. Wei, Z.F. Zhao, H. Long, Z.Y. Lin, F.J. Guo, Q. He, C.X. Huang*, Y.T. Zhu: Activating dispersed strain bands in tensioned nanostructure layer for high ductility: The effects of microstructure inhomogeneity. International Journal of Plasticity, 149:103159, 2022. 4. Y.F. Wang, Y.G. Wei, Z.F. Zhao, Z.Y. Lin, F.J. Guo, Q. Chen, C.X. Huang*, Y.T. Zhu: Mechanical response of the constrained nanostructured layer in heterogeneous laminate. Scripta Materialia, 207:114310, 2022. 5. W. Wei, J.C. Xiao, C.F. Wang, Q. Cheng, F.J. Guo, Q. He, M.S. Wang, S.Z. Jiang, C.X. Huang*: Hierachical microstructure and enhanced mechanical properties of SLN-fabricated GH5188 Co-superalloy, Materials Science and Engineering A, 831: 142276, 2022. 6. Q. He, W. Wei, M.S. Wang, F.J. Guo, Y. Zhai, Y.F. Wang, C.X. Huang*: Gradient microstructure design in stainless steel: a strategy for uniting strength-ductility synergy and corrosion resistance. Nanomaterials, 11:2356, 2021. 7. Y.F. Wang, Y.T. Zhu, X.L. Wu, Y.G. Wei, C.X. Huang*: Inter-zone constraint modifies the stress-strain response of the constituent layer in gradient structure, Science China Materials, 64(12): 3114-3123, 2021. 8. Q. Chen, Y.F. Wang, W. Wei, F.J. Guo, Q. He, M.S. Wang, C.X. Huang*: Superior strength-ductility synergy achieved by synergistic strengthening and strain delocalization in a gradient-structured high-manganese steel. Materials Science and Engineering A, 825: 141853, 2021. 9. H. Ran, R.R. Jin, Y.F. Wang, M.S. Wang, Q. He, F.J. Guo, Y. Wen, C.X. Huang*: Optimizing the strength and ductility of Cu-Al alloy by an ideal grain structure, Materials Science and Engineering A, 807: 140906, 2021. 10. Y.F. Wang, C.X. Huang*, Z.K. Li, X.T. Fang, W.S. Wang, Q. He, F.J. Guo, Y.T. Zhu: Shear band stability and uniform elongation of gradient structured materials: Role of lateral constraint, Extreme Mechanics Letters, 37: 100686, 2020. 11. Y.F. Wang, C.X. Huang*, Y.S. Li, F.J. Guo, Q. He, M.S. Wang, X.L. Wu, R.O. Scattergood, Y.T. Zhu: Dense dispersed shear bands in gradient-structured Ni. International Journal of Plasticity, 124:186-198, 2020. 12. Y.F. Wang, C.X. Huang*, X.T. Fang, H.W. Höppel, M. Göken, Y.T. Zhu: Hetero-deformation induced (HDI) hardening does not increase linearly with strain gradient. Scripta Materialia, 174:19-23, 2020. 13. G.J. Guo, Y.F. Wang, M.S. Wang, Q. He, H. Ran, C.X. Huang*, Y.T. Zhu: Hetero-deformation induced strengthening and toughening of pure iron with inverse and multi-gradient structures, Materials Science and Engineering A, 782: 139256, 2020. 14. Q. He, Y.F. Wang, M.S. Wang, F.J. Guo, Y. Wen, C.X. Huang*: Improving strength-ductility synergy in 301 stainless steel by combing gradient structure and TRIP effect, Materials Science and Engineering A, 780: 139146, 2020. 15. Y.F. Wang, M.S. Wang, X.T. Fang, F.J. Guo, H.Q. Liu, R.O. Scattergood, C.X. Huang*, Y.T. Zhu: Extra strengthening in a coarse/ultrafine grained laminate: Role of gradient interfaces. International Journal of Plasticity, 123:196-207, 2019. 16. Y.F. Wang, C.X. Huang*, Q. He, F.J. Guo, M.S. Wang, L.Y. Song, Y.T. Zhu: Heterostructure induced dispersive shear bands in heterostructured Cu. Scripta Materialia, 170: 76-80, 2019. 17. Y.F. Wang, F.J. Guo, Q. He, L.Y. Song, M.S. Wang, A.H. Huang, Y.S. Li, C.X. Huang*: Synergetic deformation-induced extraordinary softening and hardening in gradient copper. Materials Science and Engineering A, 752: 217-222, 2019. 18. A.H. Huang, Y.F. Wang, M.S. Wang, L.Y. Song, Y.S. Li, L. Gao, C.X. Huang*, Y.T. Zhu: Optimizing the strength, ductility and electrical conductivity of a Cu-Cr-Zr alloy by rotary swaging and aging treatment. Materials Science and Engineering A, 746: 211-216, 2019. 19. C.X. Huang*, Y.F. Wang, X.L. Ma, S. Yin, H.W. Hoeppel, M, Goeken, X.L. Wu, H.J. Gao, Y.T. Zhu: Interface affected zone for optimal strength and ductility in heterogeneous laminate. Materials Today, 21:713-719, 2018. 20. Y.F. Wang, M.X. Yang, X.L. Ma, M.S. Wang, K. Yin, A.H. Huang, C.X. Huang*: Improved back stress and synergetic strain hardening in coarse-grain/nanostructured laminates. Materials Science and Engineering A, 727: 113-118, 2018. 21. Y.F. Wang, C.X. Huang*, M.S. Wang, Y.S. Li, Y.T. Zhu: Quantifying the synergetic strengthening in gradient material. Scripta Materialia, 150: 22-25, 2018. 22. J.G. Li, Y.L. Li, C.X. Huang, T. Suo, Q.M. Wei: On adiabatic shear localization in nanostructured face-centered cubic alloys with different stacking fault energies. Acta Materialia, 141: 163-182, 2017. 23. X.W. Qiu, W.J. Wu, C.G. Liu, Y.P. Zhang, C.X. Huang*: Corrosion performance of Al2CrFeCoxCuNiTi elements equimolar alloy coatings in acid liquids, Journal of alloys and Compounds, 7088:353-357, 2017. 24. W.Q. Cao, C.X. Huang*, C. Wang, H. Dong, Y.Q. Weng: Dynamic reverse phase transformation induced high-strain-rate superplasticity in low carbon low alloy steels with commercial potential, Scientific Reports, 7: 9199, 2017. 25. W.Q. Cao, M.D. Zhang, C.X. Huang*, S.Y. Xiao, H. Dong, Y.Q. Weng: Ultrahigh Charpy impact toughness (~450J) achieved in high strength ferrite/martensite laminated steels, Scientific Reports, 7: 41459, 2017. 26. X.L. Ma, C.X. Huang*, J. Moering, M. Ruppert, H.W. Hoppel, M. Goken, J. Narayan, Y.T. Zhu: Mechanical properties of copper/bronze laminates: Role of interfaces. Acta Materialia, 116: 43-52, 2016. 27. J.G. Li, T. Suo, C.X. Huang*, Y.L. Li, H.T. Wang, J.B. Liu: Adiabatic shear localization on nanostructured face centered cubic metals under uniaxial compression. Materials and Design, 105: 262-267, 2016. 28. J. An, Y.F. Wang, Q.Y. Wang, W.Q. Cao, C.X. Huang*: The effect of reducing specimen thickness on the mechanical behavior of cryo-rolled ultrafine-grained copper, Materials Science and Engineering A, 651:1-7, 2016. 29. X.W. Qiu, C.X. Huang*, W.J. Wu, C.G. Liu, Y.P. Zhang: Structure and properties of AlCrFeNiCuTi six principal elements equimolar alloy, Journal of alloys and Compounds, 658:1-5, 2016. 30. X.L. Ma, C.X. Huang*, W.Z. Xu, H. Zhou, X.L. Wu, Y.T. Zhu: Strain hardening and ductility in a coarse-grain/nanostructure laminate material, Scripta Materialia, 103:57-60, 2015. 31. C.X. Huang*, W.P. Hu, Q.Y. Wang, C. Wang, G. Yang, Y.T. Zhu: An ideal ultrafine-grained structure for high strength and high ductility. Materials Research Letters, 3(2): 88-94, 2015. 32. C.X. Huang*, W.P. Hu, Q.Y. Wang: Strain-rate sensitivity, activation volume and mobile dislocations exhaustion rate in nanocrystalline Cu-11.1at%Al alloy with low stacking fault energy. Materials Science and Engineering A, 611:274-279, 2014. 33. C. Wang, W.Q. Cao, J, Shi, C.X. Huang*, H. Dong: Deformation microstructures and strengthening mechanisms of ultrafine grained duplex medium-Mn steel. Materials Science and Engineering A, 562:89-95, 2013. 34. C.X. Huang*, W. Hu, G. Yang, Z.F. Zhang, S.D. Wu, Q.Y. Wang, G. Gottstein: The effect of stacking fault energy on equilibrium grain size and tensile properties of nanostructured copper and copper-aluminum alloys processed by equal channel angular pressing. Materials Science and Engineering A 556:638-647, 2012. 35. M.X. Yang, G. Yang, Z.D. Liu, C. Wang, C.X. Huang*: Significant enhancement of strength in a lamellar-type nanostructured maraging steel subjected to equal-channel angular pressing for 12 passes. Materials Science and Engineering A, 550:429-433, 2012. 36. C.X. Huang*, G. Yang, C. Wang, Z.F. Zhang, and S.D. Wu: Mechanical behaviors of ultrafine-grained austenitic stainless steel produced by equal channel angular pressing. Metallurgical Materials Transaction A, 42(7): 2061-2071, 2011. 37. G. Yang, C.X. Huang*, C. Wang, L.Y. Zhang, C. Hu, Z.F. Zhang, S.D. Wu: Enhancement of mechanical properties of heat-resistant martensitic steel processed by equal channel angular pressing. Materials Science and Engineering A, 515(1-2): 199-206, 2009. 38. C.X. Huang*, G. Yang, Y.L. Gao, S.D. Wu, Z.F. Zhang: Influence of processing temperature on the microstructures and tensile properties of 304L stainless steel by ECAP. Materials Science and Engineering A, 485(1-2): 643-650, 2008. 39. C.X. Huang, S.D. Wu, G.Y. Li, S.X. Li: Influences of cyclic deformation and subsequent aging treatment on the tensile properties of Cu processed by equal channel angular pressing. Materials Science and Engineering A, 483-484(IS): 433-436, 2008. 40. C.X. Huang*, G. Yang, Y.L. Gao, S.D. Wu, S.X. Li: Investigation on the nucleation mechanism of deformation-induced martensite in an austenitic stainless steel under severe plastic deformation. Journal Materials Research, 22(3): 724-729, 2007. 41. C.X. Huang*, G. Yang, B. Deng, S.D. Wu, S.X. Li, Z.F. Zhang: Formation mechanism of nanostructures in austenitic stainless steel during equal channel angular pressing. Philosophical Magazine, 87(31): 4949-4971, 2007. 42. C.X. Huang, K. Wang, S.D. Wu, Z.F. Zhang, G.Y. Li, S.X. Li: Deformation twinning in polycrystalline copper at room temperature and low strain rate. Acta Materialia, 54(3): 655-665, 2006.