Shenjie Zhou, Ph.D.

Professor of Chemical Machinery Engineering

Department of Chemical Machinery Engineering

School of Mechanical Engineering

Shandong University

Jinan 250061, P. R. China

Phone: 86-531-88396708

E-mail: zhousj@sdu.edu.cn

Research Interests

Computer Aided Engineering; Size effect of micro-electro-mechanical systems; Efficient process equipment technology.

Degrees

1997.3-2000.3, Ph.D., Tongji University

1985.9-1987.7, M.E., Shandong University of Technology

1978.9-1982.6, B.E., Shandong Institute of Technology

Appointments

2000.8-present, Professor of Chemical Machinery Engineering, School of Mechanical Engineering, Shandong University

2001-present, Ph.D. Graduate Supervisor of Chemical Machinery Engineering, School of Mechanical Engineering, Shandong University

1999.10-2000.7, Professor of Shandong University of Technology

1994.10-1999.9, Associate professor of Shandong University of Technology

1990.10-1994.9, Lecturer of Shandong University of Technology

1982.7-1990.9, Assistant of Shandong University of Technology

Academic Visits

2009.10-2010.2, Research Associate, Virginia Tech

Professional Services

Director of CSTAM, Vice Chairman of Shandong Mechanics Society, Director of Jinan Association of Special Equipment, Emergency rescue expert of Shandong Bureau of Quality and Technical Supervision, NNSFC Communication evaluation expert, National Excellent Doctoral Dissertation communication evaluation expert, Youth top-notch talent communication evaluation expert of the Central Organization Department, Member of International Association for Computational Mechanics, CMES Senior Member

Awards

Shandong province science and technology progress prize award

China State Grid Corp prize for progress in science and technology

Award of progress of science and technology of China Machinery Industry Association

Research Grants and Projects

2013.01-2016.12, Study on dynamic mechanical properties of micro-membrane biochemical sensor in liquid medium (NNSF of China, PI, No.11272186)

2006.01-2008.12, Study on the strain gradient theory of meshless method and micro- structure size effect (NNSF of China, PI, No.10572077)

Publications

1、Pull-in instability of circular plate mems: A new model based on strain gradient elasticity theory，Int Appl Mech，2012。

2、C1 natural element method for strain gradient linear elasticity and its application to microstructures，Acta Mech Sinica，2012

3、Nonlinear microbeam model based on strain gradient theory. Appl Math Model，2012,36（6）：2574-2686.

4、A size-dependent Kirchhoff micro-plate model based on strain gradient elasticity theory. Europ J Mech A-Solids，2011，30：517-524.

5、Size-dependent pull-in instability of electrostatically actuated microbeam-based MEMS. J Micromech Microeng，2011，21：027001 (6pp)

6、Application of the gradient smoothing technique to the natural neighbour Galerkin method for the couple stress elasticity. Comput Model Eng Scien，2011，73(1):77-102.

7、Pull-in instability analysis of electrostatically actuated microplate with rectangular shape. Int J precision eng manuf，2011，12(6):1085-1094.

8、Mixed Natural Neighbor Galerkin Method for 3D Couple-Stress Elasticity. Appl Mech Mat，2011，37-38: 667-670.

9、 A micron-scale Timoshenko beam model based on strain gradient elasticity theory. Europ J Mech A-Solids，2010，29：591-599.

10、The size-dependent natural frequency of Bernoulli-Euler micro-beams. Int J Eng Scien，2008，46：427-437.