Contact Information:China,Beijing30 Xue Yuan Road
Department of Material Science and Engineering
University of Science and Technology Beijing(USTB)
Postgraduate
Phone:+86-13261485886Email:gxuzhaowei@163.com
Education:
University of Science and Technology Beijing(USTB) , Beijing , China
M.S., Material Science(Superalloys direction),July 2012Microstructure evolution under long time aging for wrought nickel-base superalloys;Creep and creep damage of modified In718 alloy.Advisor : Prof . Dong JianxinGPA:3.5
Guang Xi University(GXU) , Nanning , China
B.S., Material Science and engineering(for metal and alloys), July 2008
GPA:3.01
Research Interests:
Creep and creep behavior for high-temperature steel or superalloys or related alloys.
The connection between creep behavior and elements;
The microstructure evolution in regard with elements and creep factors;The connection between microstructure and creep behavior;The estimation of creep life based on Ɵ project.
Microstructure and property behavior under the interaction with creep and fatigue
Academic Projects:
Optimization of GH4169 Turbine Disc Hot Die Forging Technique;
The microstructure damage and life estimation of nickel-based superalloys used in turbine disc for aero engine(especially focus on long time aging and creep behavior).
Skills:
SoftwaresDeform;Ansys;Matlab;
Thermo-calc;
MS Office 2010;Adobe Photoshop;
Corel VideoStudio Pro X4.
Equipments
Scanning electron microscope;
Field Emission Scanning Electron Microscope;Creep Electrical Equipment;
High Temperature Furnace for aging;Fatigue Electrical Equipment.Others
fluent oral English;basic japanise;
Strong logical and analytical approach to problem solving;
Detail-oriented, team-spirited, responsible and motivated.
Honors and Awards:
First-class scholarship of USTB;
Outstanding graduation design of GXU;Top ten career planners of GXU.
Year 2012 and 2013Year 2012Year 2011
Publications:
Research on Optimization of GH4169 Turbine Disc Hot Die Forging Technique Based on DEFORM-3D and Orthogonal Experimental Method;
Analyse and evaluation on microstructure and property stability for three main nickel-based superalloys under long time aging with high temperature.
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