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Mechanical Design Engineering

Location:
Auburn Hills, MI
Salary:
32
Posted:
November 18, 2015

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Resume:

OBJECTIVE

To obtain an Full-time position in the field of Computer-Aided Engineering(CAD, FEA) to utilize my education while gaining knowledge and experience in a professional environment.

SUMMARY

Proficient in using HyperMesh for preparing different kinds of structures for the mesh process and Structure Finite Element Analysis with Abaqus.

Proficient in using designing software SolidWorks, Pro-E for designing complex mechanical structures.

Proficient in processing large amount of data with MATLAB and Python.

More than one year experience analysis of different structures and design, simulation of Composites.

Experienced in designing Manufacturing System.

Knowledge of Solid Mechanics and Plastic\Elastic Material properties.

Knowledge of Fatigue Analysis and Fracture Mechanics.

EDUCATION

Sep, 2013 – Aug, 2015 State University of New York at Stony Brook

MS in Mechanical Engineering GPA: 3.63

Master Thesis: Influence of Microstructure Arrangement of the Responses of Hyperelastic Rubber Composites.

Major Courses: Vibration and Control, Applied Stress Analysis, Modeling and Control of Manufacturing Systems, Mathematical Methods, Mechanics of Engineering Structures, and Elasticity.

Sep, 2009 – Jul, 2013 Northwestern Polytechnical University, Xi’an, P, R,China

BE in Major of Manufacture of Machine Design & Automatization

Major Courses: Theory of Machines and Mechanisms, Machine Design, CAD Software & Application, CAE Software & Application, and Mechanical Design.

TECHNIC SKILLS

Advanced knowledge of Mechanical Design, Manufacturing Design, Solid Mechanics, and Finite Element Analysis.

Proficient in AutoCAD, Pro-E, SolidWorks, HyperMesh, Ansys, Abaqus, MATLAB, Microsoft Office.

Familiar with C, C++, Phython, CATIA, UG and Mathematica.

English (fluent), Mandarin (fluent).

EXPERIENCE

Master thesis on influence of microstructure arrangement on the responses of hyperelastic rubber material

Created representative volume element (RVE) containing a random dispersion of cylindrical fibers to represent the whole composite.

Applied FEA to RVEs with Abaqus under different loading conditions to find out the responses of the composites.

Processed a large amount of data from Abaqus using the program created by MATLAB and created the graphs of the simulation.

Found out the influence of different microstructure arrangement on the responses of hyperelastic rubber composites.

Apr, 2014 – Aug, 2015 Composites and materials Design Lab in Stony Brook University

Worked as research assistant assisting Professor Sam Huang for modeling of structures (airplanes, wind turbine and automobiles) using SolidWorks and built FEA models using HyperMesh.

Applied Finite Element Analysis to the structures and found out the stress-strain relationship under different loading conditions. Used the FEA results to improve the structures designs.

Project of Mechanics of engineering structures

Analyzed truss, beam, plate and frame structures.

Applied structure analysis to the structures of cars, simulated car crash and analyzed structure deformation.

Used SolidWorks and HyperMesh to pre-process the model of Airbus A380. Applied the FEA to the structures of wings and obtain the stress data when bird crash occurs, improve the structural design based on FEA results.

Project of applied stress analysis: Finite Element Analysis of fracture specimen

Used Abaqus to make a model of specimen and used Absqus CAE to create a Finite Element mesh for the top half of the specimen.

Used Finite Element method to do analysis on the specimen and found out the behavior of the opening stress around the crack tip.

Research on Design and Control of Industrial Robot Which used in Tool’s Laser Making

Designed the structures and the control law of the industrial robot arm.

Used SolidWorks and AutoCAD to model the industrial robot arm.

Jun, 2012 – Aug, 2012 Harbin Dongan Engine (Group) Corporation LTD.

Intern, Dept. of Mechanical Design

Led process design in machine design group, which included planning the entire technological process, choosing processing equipment and designing the detail structures of fixtures and jigs in certain occasions.

Participated in maintenance of security module in the numerically-controlled machine tool. Primarily took part in the concept design of security module maintenance.



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