学术成果 Academic Achievements
在非平衡界面动力学、界面稳定性、枝晶生长、共晶生长,扩散控制生长,热力学极值原理应用及非晶-枝晶复合材料制备方面取得了创新性研究成果,累计发表学术论文50余篇,其中本学科TOP期刊《Acta Materialia》论文17篇(第一作者11篇,通讯作者4篇)。
☆ 2016年学术论文
[1] Haimin Zhai, Yuhao Xu, Fan Zhang, Yue Ren, Haifeng Wang*, Feng Liu*. Effect of transition metal elements (Cu, Ni, Co and Fe) on the mechanical properties of Ti-based bulk metallic glass composites. Journal of Alloys and Compounds. 2016, 10.1016/j.jallcom.2016.09.280
[2] Cun Lai, Haifeng Wang*, Qian Pu, Tingting Xu, Jinsong Yang, Xi Zhang, Feng Liu*. Phase selection and re-melting-induced anomalous eutectics in undercooled Ni–38 wt% Si alloys. Journal of Materials Science, 2016, 51: 10990–11001.
[3] Wangwang Kuang, Haifeng Wang*, Jianbao Zhang, Feng Liu. Application of the thermodynamic extremal principle to diffusion-controlled phase-transformations in multi-component substitutional alloys: Modeling and applications. Acta Materialia 2016, 120: 415-425. (JCR一区, IF2015=5.058)
[4] Haimin Zhai, Haifeng Wang*, Feng Liu*. Effects of Sn addition on mechanical properties of Ti-based bulk metallic glass composites. Materials and Design 2016, 110: 782-789.
[5] Haimin Zhai, Haifeng Wang*, Feng Liu*. A strategy for designing bulk metallic glass composites with excellent work-hardening and large tensile ductility. Journal of Alloys and Compounds 2016, 685: 322-330.
[6] Wangwang Kuang, Haifeng Wang*, Feng Liu, S. L. Sobolev. Modeling of eutectic dendrite growth in undercooled binary alloys. Journal of Materials Science 2016, 51: 2141-2152.
☆ 2016年以前主要学术论文
[1] H.F. Wang*, P.K. Galenko et al. Phase-field modeling of an abrupt disappearance of solute drag in rapid solidification. Acta Materialia 2015, 90: 282-291. (JCR一区, IF2014=4.646)
[2] W.W. Kuang, K. Christian, H.F. Wang* et al. Eutectic dendrite growth in undercooled Fe83B17 alloy: Experiments and modeling. Scripta Materialia 2015, 105: 34-37. (JCR一区, IF2014=3.224)
[3] K. Wang, H.F. Wang et al. Morphological stability analysis for planar interface during rapidly directional solidification of concentrated multi-component alloys. Acta Materialia 2014, 67: 220~231. (JCR一区, IF2014=4.646)
[4] H.F. Wang*, F. Liu, G.J. Ehlen et al. Application of the maximal entropy production principle to rapid solidification: A multi-phase-field model. Acta Materialia 2013, 61: 2617~2627. (JCR一区, IF2014=4.646)
[5] K. Wang, H.F. Wang et al. Modeling dendrite growth in undercooled concentrated multi-component alloys. Acta Materialia 2013, 61: 4254~4265. (JCR一区, IF2014=4.646)
[6] K. Wang, H.F. Wang et al. Modeling rapid solidification of multi-component concentrated alloys. Acta Materialia 2013, 61: 1359~1372. (JCR一区, IF2014=4.646)
[7] H.F. Wang*, F. Liu et al. Application of the maximal entropy production principle to rapid solidification: A sharp interface model. Acta Materialia 2012, 60: 1444~1454. (JCR一区, IF2014=4.646)
[8] H.F. Wang, F. Liu et al. Modeling grain refinement for undercooled single-phase solid-solution alloy melt. Acta Materialia 2011, 59: 4787~4797. (JCR一区, IF2014=4.646)
[9] H.F. Wang, F. Liu et al. Oscillatory morphological stability for rapidly directional solidification: Effect of nonlinear liquidus and solidus. Acta Materialia 2011, 59: 5859~5867. (JCR一区, IF2014=4.646)
[10] H.F. Wang, F. Liu et al. Modeling the overall solidification kinetics for undercooled single-phase solid-solution alloys-I: Model derivation. Acta Materialia. 2010, 58: 5402~5410. (JCR一区, IF2014=4.646)
[11] H.F. Wang, F. Liu et al. Modeling the overall solidification kinetics for undercooled single-phase solid-solution alloys-II: Model application. Acta Materialia. 2010, 58: 5411~5419. (JCR一区, IF2014=4.646)
[12] H.F. Wang, F. Liu et al. Kinetics of diffusion-controlled transformations: Application of probability calculation. Acta Materialia. 2009, 57: 3072~3083. (JCR一区, IF2014=4.646)
[13] H.F. Wang, F. Liu et al. Solute trapping model incorporating diffusive interface. Acta Materialia. 2008, 56: 746~753. (JCR一区, IF2014=4.646)
[14] H.F. Wang, F. Liu et al. An extended morphological stability model for a planar interface incorporating the effect of nonlinear liquidus and solidus. Acta Materialia. 2008, 56, 2592~2601. (JCR一区, IF2014=4.646)
[15] H.F. Wang, F. Liu et al. Analysis of non-equilibrium dendrite growth in bulk undercooled alloy melt; model and application. Acta Materialia. 2007, 55: 497~506. (JCR一区, IF2014=4.646)
[16] H.F. Wang, F. Liu et al. Effect of non-linear liquidus and solidus in undercooled dendrite growth: A comparative study in Ni-0.7 at.% B and Ni-1 at.% Zr systems. Scripta Materialia. 2007, 57: 413~416. (JCR一区, IF2014=3.224)