基本介紹
- 中文名:王正東
- 國籍:澳大利亞
- 民族:漢
- 出生日期:1950年2月
- 畢業院校:美國國家標準與技術研究院
- 職業:教授、博士生導師
- 主要成就:石油化工臨氫裝置的損傷分析
- 代表作品:《微機電系統研究及微小型化學機械的控制問題》
人物經歷,主要獎項,研究方向,主要論著,
人物經歷
1978年2月入上海化工學院(現名華東理工大學)化機系,1979年9月轉入上海交通大學材料科學與工程系。獲工學學士(1982),工學碩士(1986),工學博士(1990)學位。1987年,華東理工大學講師;1990年,華東理工大學副教授;1993-1994年,比利時列日大學博士後;1994-1996年美國國家標準與技術研究院客座研究員;1996年-,華東理工大學教授。
主要獎項
多向應力下材料蠕變損傷與蠕變斷裂的研究,國家教委科技進步三等獎,1993.
在役重要壓力容器壽命預測技術研究,國家機械工業科技進步一等獎,2001;
安徽省科學技術一等獎,2002;
化工設備預測性維修規劃關鍵技術的研究,江蘇省科技進步一等獎,2003;
中國石油和化學工業協會科技進步二等獎,2003。
研究方向
石油化工臨氫裝置的損傷分析、安全評估及延壽技術的研究,高溫結構完整性評價的工程方法,材料微觀結構與力學行為的計算機模擬,在役工業裝置的再製造工程的研究,微小型化工機械的先進制造技術(特種焊接技術),微機電系統研究及微小型化學機械的控制問題。
主要論著
[1] Life Extension of Hydrogenation Reactor with Safety Operation. Proceedings of the International Conference of Restoration, Recycling and Rejuvenation Technology for Engineering and Architecture Application, Cesena, Italy, July 7-11, 2004; Eds. G.G. Sih, L. Nobile. Aracne Editrice, Rome, Italy, 265-271.
[2] Estimation of Round-off Errors in Finite Element Solution Using a Condition Number. Proceedings of the International Conference on Influence of Traditional Mathematics and Mechanics on Modern Science and Technology, Messini, Greece, May 24-28, 2004, Eds. G.C.Sih, C.P. Spyropoulos, Eptalofos S.A., Athens, Greece, 273-277.
[3] Prediction of Furnace Tube Life Based on Damage Accumulation in Unstable Operation. Proceeding of the Sixth International Conference for Mesomechanics, Patras, Greece, May 31-June 4, 2004. Eds. G.C.Sih, Th.B.Kermanidis, Sp.G.Pantelakis, Saradidis Publications, ISBN 960-88104-0-X, 456-464.
[4] C* estimation for cracks in mismatched welds and finite element validation, International Journal of Fracture 2004; 126(3): 267-280.
[5] Isochronous stress-strain curves of low alloy steel cross-weld-specimen at high temperature, Acta Metallurgica Sinica (English letter), 2004; 17(4): 612-617.
[6] Damage Analysis on Creep-Fatigue Interaction of 10CrMo910 Steel, Proc. Of 4th Japan-China Bilateral Symposium on High Temp. Strength of Materials, Tsukuba, Japan, June 11-13, 2001, 101-104.
[7] A damage model of life prediction under creep-fatigue interaction, ACTA METALLUGICA SINICA 1999; 12(1):28-32.
[8] A DCPD technique for localized creep damage in notched bar, ACTA METALLURGICA SINICA 1998;11(6):456-462.
[9] Optimum design of a ceramic tensile creep specimen using finite element method, J. Res. Natl. Inst. Stand. Tech. 1997; 102(1):15-28.
[10] Effects of test conditions on fatigue crack propagation of PVC ESSAI 304, Proc. Of Int. Conf. On Advanced Polymer Composite, Beijing, China June 3-5, 1997.
[11] Fatigue life prediction of PZT using continuum damage mechanics and finite element methods. Fracture Mechanics in Ceramics, Vol. 12, Plenum Press, 1996.
[12] Demonstration of a multimedia conferencing tool for mechanical engineers using a Collaborative Object-Oriented Tool Kit named Scoot. 1995 ASME PVP Conference, Honolulu, USA, July 1995.
[13] Simulation procedures for prediction of hydrogen induced disbonding in hydrogenation pressure vessels, 1994 ASME PVP Conf., Vol. 288, Minneapolis, USA, July 19-23, 1994, pp. 341-344.
[14] Analysis of localized damage in creep rupture. Proc. ICPVT 7, Dusseldorf, Germany, May 1992, pp.790-801.
[15] A damage mechanics approach to the prediction of creep crack growth. Int. J. of Pres. Ves. & Piping 1991; 48(3):305-319.
