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Software: ANSYS, Abaqus, Nastran, Hypermesh, Solidworks, ProE, AutoC

Location:
Arlington, VA
Posted:
July 17, 2015

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Resume:

Teng Long

**** * **** **. *** ***N, Arlington, Virginia 22202 • 202-***-**** •Email: acqswr@r.postjobfree.com

OBJECTIVE

Seeking an internship or full-time job in Design, Manufacturing or Finite Element Analysis Areas. Available from Dec. 2015

EDUCATION

12/2015 Mechanical Engineering (M.S.), The George Washington University, Washington DC GPA: 3.49

07/2013 Mechanical Engineering (B.S.), Beijing University of Civil Engineering and Architecture, Beijing GPA: 3.80

TECHNICAL SKILLS&LANGUAGES

• 3D CAD Modeling: Proficiency in SolidWorks and Pro/E.

• Finite Element Analysis Stimulation: Proficiency in HyperMesh co-simulation with ANSYS, ABAQUS and NASTRAN

• Program Languages: Matlab, Fortran, Python, C and JAVA

• Languages: Fluent in English, Native Speaker of Mandarin Chinese

• Interest: Basketball, Running and Body building

EXPERIENCE

BEIJING JIAOTONG UNIVERSITY Beijing

Analyzing the Wheel, Rail, Rubber Pad and Sleeper Contact May 2015-July 2015

• Created the 3D model of wheel, rail, Rubber Pad and Sleeper using SolidWorks.

• Finished the pre-processing including meshing with 8-node hexahedron solid element, selecting the node sets, giving the material properties (for example: Rail the E=120000Mpa and μ=0.368) to components in HyperMesh.

• Applied the boundary conditions by ANSYS including with giving the 7.5 ton force on each high speed train wheel and the 1.7E8N/M elastic support on the sleeper the 7.5 ton force on each high speed train wheel and then to solve the Finite Element problem to get the stress, strain and displacement of the Wheel, Rail, Rubber Pad and Sleeper affected by Bogie.

THE GEORGE WASHINGTON UNIVERSITY Washington DC

Analyzing the Fiber- Reinforced Composite Material Box Structure March 2015-Apirl 2015

• Found the engineering property in each layer and computed the Stress and Strain for each layer.

• Computed the Stress and Strain for each layer.

• Used the failure theory (Maximum Stress Criterion) to get failure mode (fiber-fracture) and calculate max load (35.5Mpa).

• Determinated the buckling force(18.5E4N/M) at each side and Calculated the Vibration Frequency(280.7 Hz) at the bottom.

THE GEORGE WASHINGTON UNIVERSITY Washington DC

Analyzing the Common Bike Fork When Used to Jump by a BMX Player October 2013 – December 2013

• Measured the parameters from a real alloy frame bike to draw the 3D model in SolidWorks.

• Simplified the structure and analysis the structure to get the data about maximum stress as well as the life cycles in the critical points, the deflection and the buckling by hand calculation and ANSYS.

• Compared the result of the calculation and ANSYS and explain the differences.

• Transforming all the situations and equations into a program to create a software to finally enhance Computation efficiency.

THE GEORGE WASHINGTON UNIVERSITY Washington DC

Developing a Line-following and Maze Escaping Robot February 2014 – March 2014

• Designed and selected the electrical parts (microprocessor, sensor& motor) and modeled the mechanical parts in SolidWorks.

• Coded in the microprocessor based on the Algorithms to escape the maze in different situations.



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