Position:  Professor (Doctoral  supervisor)

Tel:  +86-13950416360

E-mail:  qli@fzu.edu.cn

Research Interests: Numerical simulation of materials  processing; Theory and optimation design criteria of advanced TBCs; Advanced  coatings by plasma spraying process; Acoustic emission of materials and/or  coatings damage and rupture; high-property aluminum alloys.

Education Background

Ph.D., Harbin Institute of Technology that  ranks in top 10 among all the universities and colleges all over China, 1998,  Materials Science

Master of Engineering, Harbin Institute of  Technology, 1995, Materials Science;

Bachelor of Engineering, Gansu University  of Technology, 1984, Metals Materials and Heat Treatment

Research Experience

Plasma  sprayed coatings (2004=present)

Numerical simulation of materials processing; Theory and  optimation design criteria of advanced TBCs; Advanced coatings by plasma  spraying process; Acoustic emission behavior of damage and rupture of  materials and/or coatings.

Nanostructured materials（1999-2003）

Synthesis of ultrafine WC and WC-Co powders by     integrated  mechanical and thermal activation process.

Laser  materials processing（1995-1998）

Laser surface modification, especially  cladding of metals, alloys and metals/ceramics composite coatings.

Intermetallics（1992-1995）

Micromechanisms of deformation and fracture in dual phase lamellar  TiAl-based intermetallics

Hornors and Awards

The member of Council of Chinese Materials Research Society （C-MRS） 

The member of Council of Materials Institution of Chinese  Mechanical Engineering Society (CMES)

Project

Development and application of plasma sprayed nano-structured ceramic  coating.

Plasma sprayed composite coatings and its application in the  protection of boiler tubes.

Acoustic inspection and integrity assessments of pressure vessel and  tube.

Publications

1. Numerical simulation of zirconia splat formation and cooling during  plasma spray deposition. Applied Physics A, 2016, 122(7), 1-7

2. Evolution of mechanical properties of thermal barrier coatings  subjected to thermal exposure by instrumented indentation testing. Ceramics  International, 2016,42: 10242-10250

3. Microstructure evolution and growth kinetics of thermally grown  oxides in plasma sprayed thermal barrier coatings. Progress in Natural  Science: Materials International, 2016，26：103-111

4. Mechanism of Competitive Grain Growth in 8YSZ Splats Deposited by  Plasma Spraying. Journal of Thermal Spray Technology, 2015, 24(5): 885-891

5. Modeling the impact, flattening and solidification of a molten  droplet on a solid substrate during plasma spraying. Applied  Surface Science, 2014, 317: 526–533