Xitao Wang

【 Education Background】

In 1995, entered the University of Science and Technology Beijing to study Metal Materials and Heat treatment, and received bachelor's degree in 1989, master's degree in 1991, and doctor's degree in 1995, respectively.

【Work Experience】

In 1995, worked in the State Key Laboratory of New Metal Materials, University of Science and Technology Beijing as a lecturer and associate researcher. During 1997-1999, he was seconded to the Ministry of Science and Technology and served as the director of the Office of the Expert Committee in the field of New Materials of the 863 Program. 2000-2001 Visiting Scholar at Chalmers University of Technology, Sweden, 2001-2005 Senior Research Fellow at the Swedish Metal Institute. He has been a professor and doctoral supervisor of University of Science and Technology Beijing since 2005. During this period, he served as Deputy Director of the State Key Laboratory of New Metal Materials from October 2006 to June 2007, Director of the Science and Technology Department of the University of Science and Technology Beijing from July 2007 to May 2013, and Executive Deputy Director and chief scientist of the Collaborative Innovation Center of Steel Generic Technology from June 2013 to June 2015.

【Individual Resume】

Long time engaged in the research of special steel, high-strength steel and electronic packaging materials, and is a new century talent of the Ministry of Education. It has undertaken a number of key projects of the National 863 Program, key and surface projects of the National Natural Science Foundation, and projects of the National Major International Cooperation Program, etc., and has made outstanding achievements in the localization of key materials of nuclear power equipment and the service safety evaluation of nuclear power materials. In-depth work has been carried out in the development of new materials such as heat-resistant steel and super stainless steel, and the research on diamond composite materials with high thermal conductivity is at the world advanced level. He has been a member of the overall expert group of high-quality special steel of the Ministry of Science and Technology, a member of the nuclear power Standardization Committee of the power industry, a vice chairman of the nuclear energy Professional Committee of China Energy Research Society, and the current vice chairman of the Instrument Functional Materials Society. Published more than 200 academic papers, more than 5,000 citations, H factor 37. It has won 3 provincial and ministerial awards and more than 10 authorized invention patents.

【Research Orientation】

1. Advanced stainless steel

2. Advanced energy steel

3. Superalloys and heat-resistant alloys

4. High thermal conductivity electronic packaging materials

 【Achievements】

【Research Projects】

1. AP1000 Main pipeline material and forming key technology development, 863 project, 2012-2015

2. Research on interface design and preparation technology of a new generation of high thermal conductivity composite materials, National and International Science and Technology Cooperation Project, 2014-2017

3. Development of stainless steel bar materials for Marine building structures, 863 Project, 2015-2018

4. Multi-scale microstructure control during solidification and hot working of super Austenitic stainless Steel, National Natural Science Key Foundation, 2019-2022

【 Academic Papers】

1. Hot deformation behaviors and dynamic softening mechanisms of 7Mo super-austenitic stainless steel with high stacking fault energy,Journal of Materials Research and Technology,Vol. 23, 1738-1752, (2023).

2. Manipulating in-situ discrete carbide interlayer to achieve high thermal conductivity in Cu-B/diamond composite, Materials Today Communications, Vol. 34, 105357, (2023).

3. A σ phase-γ phase orientation relationship observed in solidification of the 7Mo super-austenitic stainless steel, Journal of Materials Research and Technology,Vol. 21, 1248-1255, (2022).

4. Realizing ultrahigh thermal conductivity in bimodal-diamond/Al composites via interface engineering, Materials Today Physics, Vol. 28, 100901, (2022).

5. Solidification and segregation characteristics of Ni-based superalloy C700R-1 for ultra-supercritical steam turbine rotor, Journal of Alloys and Compounds, Vol. 912, 165107, (2022).

【 Patents】

Heat treatment process to eliminate σ phase in super austenitic stainless steel containing RE element (2021) and more than 10 invention patents

【 Rewards】

3 Provincial and ministerial level second prize