CURRICULUM VITAE

HUANG HUAIWEI (黄怀纬)

Birth Date: January 14, 1979

Ph.D., Associate Professor,

Department of Engineering Mechanics,

South China University of Technology (SCUT),

Guangzhou, Guangdong, 510640, PR China

Email: cthwhuang@scut.edu.cn

BRIEF INTRODUCTION

In recent years, researches have been granted by National Natural Science Foundation of China, State Key Laboratory, fundamental research funds for the Central Universities of China, Guangzhou city science and technology project, Guangdong Province Natural Science Fund, China postdoctoral science fund, and so on.

Over 26 academic papers were published, including those in Applied Mathematical Modelling, Composites Part B-Engineering, Composite Structures, European Journal of Mechanics A-solids, International Journal of Mechanical Sciences, International Journal of Non-linear Mechanics, Thin-Walled Structures, Journal of Sound and Vibration, International Journal of Structural Stability and Dynamics, and so on.

Coauthor of the academic book“Composite Materials in Engineering Structures”,officially published by the American Nova Science Pressin 2010.

EDUCATION AND WORK EXPERIENCES

2009.7-2011.8: Postdoctoral fellow, Scientific research, Department of Civil Engineering, South China University of Technology, Guangzhou, China.

2004.9-2009.7: Postgraduate, Doctor, Solid Mechanics, South China University of Technology, Guangzhou, China.

1997.9-2001.7: Undergraduate, Bachelor, Polymer Science, South China University of Technology, Guangzhou, China.

RESEARCH INTERESTS

• Mechanics of composite structures, stability of thin-walled components, buckling of beams, plates and shells;

• Mechanics of polymer materials, charactering ductile performances of polymer materials;

• Numerical simulation on mechanical behaviors of engineering structures.

TEACHING COURSES

Theoretical Mechanics, Mechanics of Composites, Theory of Plates and Shells, Structural Stability, Structural Optimization.

AWARDS

2012: The paper "Huang HW et al. composite structures, 2011, 93 (11): 2945-2952. " was titled as the selection for the excellent academic thesis of science and technology innovation of Guangdong province.

2010: The PhD thesis "Research on buckling behavior of functionally graded materialcylindrical shells” was awarded as the annual outstanding doctoraldissertation of South China University of Technology.

Research Projects

2016.04.01-2018.03.31: Study on the mechanism of buckling propagation of submarine oil and gas pipeline. Supported byGuangzhou Science and Technology Plan Project (Grant No. 201607010282).

Principal Investigator: Dr. HUANG HUAIWEI

Status: on-going

2016.01.01-2017.12.31: Nonlinear dynamic stability theory of functionally graded cylindrical shells. Supported byState Key Laboratory of Strength and Vibration of Mechanical Structures (Grant No. SV2016-KF-08).

Principal Investigator: Dr. HUANG HUAIWEI

Status: on-going

2015.01.01- 2017.12.31: Elastoplastic constitutive relation of functionally graded materials and the elastoplastic buckling theory of cylindrical shells. Supported by National Natural Science Foundation of China (Grant No.11402093).

Principal Investigator: Dr. HUANG HUAIWEI

Status: on-going

2012.10.01-2014.09.30: Nonlinear dynamic buckling of functionally graded cylindrical shells based on energy method. Supported by Guangdong Provincial Natural Science Foundation of China (Grant No. S2012040007894).

Principal Investigator: Dr. HUANG HUAIWEI

Status: completed

2010.03.01-2011.09.30: Dynamic buckling behavior of functionally graded cylindrical shells subjected to axial impact loading. Supported byChina Postdoctoral Science Foundation (Grant No. 20100470912).

Principal Investigator: Dr. HUANG HUAIWEI

Status: completed

Book Chapter

Huang HW, Han Q. Buckling behaviors of elastic functionally graded cylindrical shells. Composite Materials in Engineering Structures[M]. Nova Science Publishers, Inc. 2010. (ISBN: 978-1-61761-144-5)

Published Papers

1. Xu GH, Huang HW*, Zhang YQ. Vibration of Elastic Functionally Graded Thick Rings. Shock and Vibration. 2017, 2017(2):1-7..

2. Huang HW*, Zhang YQ, Han Q. Stability of hydrostatic-pressured FGM thick rings with material nonlinearity. Applied Mathematical Modelling. 2017,45(5): 55-64.

3. Huang HW*, Han Q. Stability of pressure-loaded functionally graded cylindrical shells with inelastic material properties. Thin-Walled Structures, 2015,92(7):21–28.

4. Zhang YQ, Huang HW*, Han Q. Buckling of elastoplastic functionally graded cylindrical shells under combined compression and pressure. Composites Part B-Engineering, 2015,69(2):120-126.

5. Huang HW*, Han Q. Elastoplastic buckling of axially loaded functionally graded material cylindrical shells. Composite Structures, 2014,117(11): 135-142.

6. Huang HW*, Han Q, Wei DM. Buckling of FGM cylindrical shells subjected to pure bending load. Composite Structures, 2011 ,93 (11): 2945-2952.

7. Huang HW, Han Q*. Nonlinear dynamic buckling of functionally graded cylindrical shells subjected to time-dependent axial loads. Composite Structures, 2010, 92(2) 593-598.

8. Huang HW, Han Q*. Nonlinear buckling and postbuckling of heated functionally graded cylindrical shells under combined axial compression and radial pressure. International Journal of Non-linear Mechanics 2009, 44(2): 209-218.

9. Huang HW, Han Q*. Nonlinear elastic buckling and postbuckling of axially compressed functionally graded cylindrical shells. International Journal of Mechanical Sciences 2009, 51(7): 500-507.

10. Huang HW, Han Q*. Buckling of imperfect functionally graded cylindrical shells under axial compression. European Journal of Mechanics A/Solids 2008, 27(6): 1026-1036.