2021.08- 郑州大学化工学院, 学科特聘教授
1998.05-2021.07 日本物质材料研究机构 principle researcher
2003.10-2004.03 美国Carnegie-Mellon University, 访问学者
1992.09-1995.06 中科院金属所 材料物理 博士学位
联系方式:
Tel: 19945698344
Email: pingdh@zzu.edu.cn
研究兴趣:金属材料微观组织与性能,钛合金, 镍基合金,及其它金属材料的研究。已发表科学论文约200篇,近年来在钢铁基础理论方面做出了创新性突破,特别是马氏体组织中孪晶界面处的ω-Fe亚稳相的发现和相关研究。主持和参与多项国内外国家层次的科学研究项目。
近期部分学术论文
Ø D. H. Ping, H. Chen, H. P. Xiang, Formation of θ-Fe3C cementite via θ′-Fe3C (ω-Fe3C) in Fe-C alloys. Cryst. Growth Des. 3(2021) 1683-88.
Ø D. H. Ping, et al., A transition of ω-Fe3C → ω′-Fe3C→ θ′-Fe3C in Fe-C martensite, Sci. Rep. 10(2020) 6081
Ø D. H. Ping, et al., Metastable ω′-Fe3C carbide formed during ω-Fe3C particle coarsening in binary Fe-C alloys. J. Appl. Phys. 125(2019) 175112.
Ø D. H. Ping, et al., A simple method for observing ω-Fe electron diffraction spots from <112>α-Fe directions of quenched Fe-C twinned martensite. ISIJ Int., 58(2018) 159-164.
Ø D. H. Ping, M. Ohnuma, ω-Fe particle size and distribution in high-nitrogen martensitic steels. J. Mater. Sci. 53(2018)5339–5355.
Ø D. H. Ping, et al., Lath formation mechanisms and twinning as lath martensite substructures in an ultra low-carbon iron alloy. Sci. Rep., 8(2018) 14264.
Ø D. H. Ping, Understanding Solid–Solid (FCC→ω+BCC) Transition at Atomic Scale. Acta Metall. Sin. (Engl. Lett.) 28(2015)663–670.
Ø S. Q. Wu, D. H. Ping, et al., {112}<111> twinning during ω to body-centered cubic transition. Acta Mater. 62(2014)122-128.
Ø D. H. Ping, Review on ω phase in body-centered cubic metals and alloys. Acta Metall. Sin. (Engl. Lett.) 27(2014)1-11.
Ø D. H. Ping, W. T. Geng, A popular metastable omega phase in body-centered cubic steels. Mater. Chem. Phys. 139(2013)830-835.