徐偉(東北大學教授)

學習工作經歷

學習經歷

1998-2002：中國科學技術大學固體與材料力學專業學士

2002-2005：中國科學技術大學固體與材料力學專業碩士。

2005-2009：荷蘭代爾夫特科技大學材料科學與工程專業博士（cum laude，優秀博士畢業生，4%）。

工作經歷

2009-2015：安賽羅米塔爾(ArcelorMittal，全球最大鋼鐵企業)全球研發中心研究員、高級研究員。2012年起雙聘為荷蘭Delft科技大學助理教授。一直從事先進高強鋼的計算設計和產業化開發工作，在基礎研究和工程套用中都取得了一系列成果。

主要成就

入選第四批國家“萬人計畫”-“科技創新領軍人才”
中組部千人計畫（青年）引進人才，優先資助， 2014
William Mong訪問研究學者,香港大學, 2013.
2012年度荷蘭皇家科學與社會協會青年科學家獎Martinus van Marum Prize (此獎項為荷蘭皇家科學與社會協會針對青年科學家的最高獎項，針對全部科學與工程學科每年只有一名獲獎者).
優秀博士畢業生CUM LAUDE 2009. (4% 獲獎比率).
荷蘭金屬所最佳套用價值獎,2009.

主要著作

Publications:

Xu, X., S. van der Zwaag, and W. Xu,A novel multi-pass dual-indenter scratch test to unravel abrasion damage formation in construction steels.Wear, 2015.322-323: p. 51-60.
Xu, X., S. van der Zwaag, and W. Xu,Prediction of the abrasion resistance of construction steels on the basis of the subsurface deformation layer in a multi-pass dual-indenter scratch test.Wear, 2015.338-339: p. 47-53.
Silva, E.P.D., et al.,Isothermal transformations in advanced high strength steels below martensite start temperature.Materials Science and Technology, 2015.31(7): p. 808-816.
Lu, Q., et al.,The impact of intended service temperature on the optimal composition of Laves and M<inf>23</inf>C<inf>6</inf> precipitate strengthened ferritic creep resistant steels.Computational Materials Science, 2015.107: p. 110-115.
He, B.B., W. Xu, and M.X. Huang,Effect of ausforming temperature and strain on the bainitic transformation kinetics of a low carbon boron steel.Philosophical Magazine, 2015.95(11): p. 1150-1163.
Farahani, H., W. Xu, and S. van der Zwaag,Prediction and Validation of the Austenite Phase Fraction upon Intercritical Annealing of Medium Mn Steels.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 2015.46(11): p. 4978-4985.
De Knijf, D., et al.,In situ austenite–martensite interface mobility study during annealing.Acta Materialia, 2015.90: p. 161-168.
Pinto Da Silva, E., et al.,Phase transformations during the decomposition of austenite below M s in a low-carbon steel.Materials Characterization, 2014.95: p. 85-93.
Lu, Q., W. Xu, and S.V.D. Zwaag,Designing new corrosion resistant ferritic heat resistant steel based on optimal solid solution strengthening and minimisation of undesirable microstructural components.Computational Materials Science, 2014.84: p. 198-205.
Lu, Q., W. Xu, and S. van der Zwaag,A material genomic design of advanced high performance, noncorroding steels for ambient and high temperature applications, inMaterials Science Forum. 2014. p. 1201-1206.
Lu, Q., W. Xu, and S. van der Zwaag,A material genomic design of advanced high performance, noncorroding steels for ambient and high temperature applications, inAdvanced Materials Research. 2014. p. 1201-1206.
Lu, Q., W. Xu, and S. van der Zwaag,The Computational Design of W and Co-Containing Creep-Resistant Steels with Barely Coarsening Laves Phase and M23C6as the Strengthening Precipitates.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 2014.45(13): p. 6067-6074.
Lu, Q., W. Xu, and S. Van Der Zwaag,A strain-based computational design of creep-resistant steels.Acta Materialia, 2014.64: p. 133-143.
Lu, Q., W. Xu, and S. Van Der Zwaag,The design of a compositionally robust martensitic creep-resistant steel with an optimized combination of precipitation hardening and solid-solution strengthening for high-temperature use.Acta Materialia, 2014.77: p. 310-323.
He, B.B., W. Xu, and M.X. Huang,Increase of martensite start temperature after small deformation of austenite.Materials Science and Engineering: A, 2014.609: p. 141-146.
Dilner, D., et al.,Process-time optimization of vacuum degassing using a genetic alloy design approach.Materials, 2014.7(12): p. 7997-8011.
da Silva, E.P., et al.,Combined martensite and bainite formation from austenite decomposition in HSLA steel, inAdvanced Materials Research. 2014. p. 682-687.
Chen, H., et al.,Predicting the Austenite Fraction After Intercritical Annealing in Lean Steels as a Function of the Initial Microstructure.Metallurgical and Materials Transactions A, 2014.45(4): p. 1675-1679.
Xu, X., et al.,Design of low hardness abrasion resistant steels.Wear, 2013.301(1-2): p. 89-93.
Lu, Q., W. Xu, and S. Van Der Zwaag,Computational design of precipitation strengthened austenitic heat-resistant steels.Philosophical Magazine, 2013.93(25): p. 3391-3412.
Xu, W., et al.,The structure of a general materials genome approach to the design of new steel grades for specific properties.Computer Method in Materials Science, 2012.13(1): p. 382-394.
Chen, H., et al.,Application of the stagnant stage concept for monitoring Mn partitioning at the austenite-ferrite interface in the intercritical region for Fe-Mn-C alloys.Philosophical Magazine Letters, 2012.92(10): p. 547-555.
Xu, W. and S. Van Der Zwaag,Property and cost optimisation of novel UHS stainless steels via a genetic alloy design approach.ISIJ International, 2011.51(6): p. 1005-1010.
Rivera-Diaz-Del-Castillo, P.E.J. and W. Xu,Heat treatment and composition optimization of nanoprecipitation hardened alloys.Materials and Manufacturing Processes, 2011.26(3): p. 375-381.
Xu, W., et al.,A new ultrahigh-strength stainless steel strengthened by various coexisting nanoprecipitates.Acta Materialia, 2010.58(11): p. 4067-4075.
Xu, W., et al.,Genetic design and characterization of novel ultra-high-strength stainless steels strengthened by Ni3Ti intermetallic nanoprecipitates.Acta Materialia, 2010.58(10): p. 3582-3593.
Rivera-Díaz-del-Castillo, P.E.J., W. Xu, and S. Van Der Zwaag,Genetic alloy design of ultra high strength stainless steels: From thermodynamics to quantum mechanics, inMaterials Science Forum. 2010. p. 3473-3478.
Xu, W., P.E.J. Rivera-Diaz-Del-Castillo, and S. Van Der Zwaag,Computational design of UHS maraging stainless steels incorporating composition as well as austenitisation and ageing temperatures as optimisation parameters.Philosophical Magazine, 2009.89(20): p. 1647-1661.
Xu, W., P.E.J.R.D.D. Castillo, and S.V.D. Zwaag,The composition and temperature effects on the ultra high strength stainless steel design.International Journal of Modern Physics B, 2009.23(6-7): p. 1060-1065.
Xu, W., P.E.J.R.D.d. Castillo, and S.v.d. Zwaag,A combined optimization of alloy composition and aging temperature in designing new UHS precipitation hardenable stainless steels.Computational Materials Science, 2009.45(2): p. 467-473.
Xu, W., P.E.J. Rivera-Díaz-del-Castillo, and S. van der Zwaag,Designing nanoprecipitation strengthened UHS stainless steels combining genetic algorithms and thermodynamics.Computational Materials Science, 2008.44(2): p. 678-689.
Xu, W., P.E.J. Rivera-Diaz-Del-Castillo, and S. Van Der Zwaag,Genetic alloy design based on thermodynamics and kinetics.Philosophical Magazine, 2008.88(12): p. 1825-1833.
Xu, W., et al.,Modelling and characterization of chi-phase grain boundary precipitation during aging of Fe-Cr-Ni-Mo stainless steel.Materials Science and Engineering A, 2007.467(1-2): p. 24-32.
Xu, W., et al.,Modelling Chi-phase precipitation in high molybdenum stainless steels, inAdvanced Materials Research. 2007. p. 531-536.
Xu, W., P.E.J. Rivera-Díaz-Del-Castillo, and S. Van Der Zwaag,Ferrite/pearlite band prevention in dual phase and TRIP steels: Model development.ISIJ International, 2005.45(3): p. 380-387.
Rivera-Díaz-Del-Castillo, P.E.J., et al.,Theory for diffusional transformation kinetics: Multicomponent and multiphase systems.Scripta Materialia, 2005.53(9): p. 1089-1094.
Huang, W., W. Xu, and Y. Xia,Effect of strain rate on the mechanical behaviors of SiC fiber.Journal of Materials Science, 2005.40(2): p. 465-468.