NAME

Si Lina

TITLE

Lecturer

SCHOOL

School of Mechanical Engineering

DEPARTMENT

MechanicalEngineering

OFFICE ADDRESS

Beijing Institute of Technology

POST CODE

100081

TELEPHONE

15001390843

E-MAIL ADDRESS

silina@bit.edu.cn

Research and Teaching Interest

I have focused extensively on understanding fundamental forces between surfaces at the nanometer and atomic/molecular length-scales, studding microscopic mechanisms of friction, wear and deformation of materials, as well as investigating the materials properties under extreme conditions.

Selected Publications and patents

1. Si Lina, Wang Xiaoli, Xie Guoxin, and Sun Na. Nano-adhesion and friction of multi-asperity contact: a molecular simulation study. Surface and Interface analysis, 2015, 47(9): 919-925.
2. Si Lina, and Wang Xiaoli. A molecular dynamics study on adhesive contact processes of surfaces with nanogrooves. Acta Physica Sinica, 2014, 63(23): 234601. (in Chinese)
3. Si Lina, and Wang Xiaoli. Nano-adhesion influenced by atomic-scale surface roughness: a molecular dynamics simulation. Applied Surface Science. 2014, 317: 710-717.
4. Si Lina, Guo Dan, Luo Jianbin, and Xie Guoxin. Mechanical Properties and Interface Characteristics of Nanoporous Low k Materials. ACS Applied Materials & Interfaces. 2014, 6(16): 13850-8.
5. Si Lina, Guo Dan, and Luo Jianbin. A molecular dynamics study of silica cluster cutting single crystalline silicon asperity. Acta Physica Sinica, 2012, 61: 168103. (in Chinese)
6. Si Lina, Guo Dan, Luo Jianbin, and Xie Guoxin. Planarization process of single crystalline silicon asperity under abrasive rolling effect studied by molecular dynamics simulation. Applied Physics A, 2012, 109: 119-126.
7. Si Lina, Guo Dan, Luo Jianbin, Lu Xinchun, and Xie Guoxin. Abrasive rolling effects on material removal and surface finish in chemical mechanical polishing analyzed by molecular dynamics simulation. Journal of Applied Physics, 2011, 109(8): 084335.
8. Si Lina, Guo Dan, Luo Jianbin, and Lu Xinchun. Monoatomic layer removal mechanism in chemical mechanical polishing process: A molecular dynamics study. Journal of Applied Physics, 2010, 107:064310.

Achievements and Awards

Second Class Prizes for Natural Science Award of State Education Ministry of China, 2014

NSK Sino-Japan Friendship Outstanding Paper Prize, 2010

Outstanding Paper Prize of Doctoral Student Forum for Modern Tribological Materials, 2009

Professional Membership/Academic Appointments

Member of Youth Working Committee for Tribology Institute of Chinese Mechanical Engineering Society, 2015