1. Alex Han
750 W Baseline Rd, Tempe, AZ, 85283 ● 213-275-6916 ● Hshaopen@asu.edu ● https://www.linkedin.com/in/shaopeng-han-54375588
Master of Mechanical Engineering
Design & Manufacturing
A motivated young with an aptitude for creative problem solving. Devote to design, testing and development of mechanical
design and manufacture field. Will adapt quickly to achieve company’s goal and realize self-fulfill in constantly learning.
SUMMARY
4+ years’ experience on CAD design and draft; 300 hours hands on skills though milling, grinder, 3D printing, CNC mill
DFMEA, BOM, GD&T, DVP&R.
Strong background in robotics GUI developing, PLC controlling and calculation.
Good knowledge of analyzing the statics, dynamics and vibration.
Good standing of thermodynamics, thermal cycle, heat transfer or cooling process
Outstanding in Teamwork, project execution, self-motivated and independent work.
SKILLS & ORGANIZATIONS
SOLIDWORKS ● PTC CREO ● AutoCAD ● NX | ANSYS● MATLAB, ABAQUS | ADT ● JAVA ● C++
Adobe Illustrator ● Photoshop ● MS office | English & Chinese Bilingual | ASME ● SAE ● ASHARE
EDUCATION
Master of Science in Mechanical Engineering | Arizona State University, Tempe AZ, 2017 GPA: 3.50
Bachelor of Science in Mechanical Engineering | Florida Institute of Technology, Melbourne FL, 2015 GPA: 3.33
Bachelor of Science in Mechatronic Engineering | Shanghai Dianji University, Shanghai, China, 2015 GPA: 3.33
Coursework: CAD/CAE, Finite element Analysis, Digital control, Dynamic control, Robotics, Thermodynamics, HVAC
EXPERIENCE HIGHLIGHTS
Work Experience
Research Assistant | Florida Institute of Technology | Driving Simulator design and development | AUG 14 - APR 15
Set up entire driving simulator system; Data generated between pupil concertation and driver’s safety in case of accident
Model driving simulator seats; safety factor analysis; set-up the alarm system when driver drops the concentration.
Compare fidelity & validity between the modular design simulator and mini-simulator; connect the result to real vehicle.
Research Assistant | Arizona State University | Active methods reducing drag in automotive industry | AUG 15 - MAY 16
Find applicable bio-inspired method to reduce drag force further to drop energy consumption in automotive area.
Design the wing of falcon draft; prototype manufacturing; layout in AUTO-CAD; laser cut in Acrylic board.
DFMEA; DVP&R; GD&T; Wind tunnel test; Consider the potential application in vehicle, like body shape, spoiler, etc.
Simulate the result in comparison of angle, MPH, Drag; get linear relevant results and present to publics.
CFD simulates vehicle shape; Get result which heating air reduce coefficient of drag and achieve 1.1% drag reduction.
Project
Formula SAE Suspension Engineer | Florida Institute of Technology | Motorsports-FSAE | May 2013- MAY 2014
Independently designed the steering system like steeling column, universal joints, steering rack, tie rod, etc.
Designed specific stoppings on steering column and rack; yielded better cornering capacity and saved 30% corner effort.
Conducted FEA analysis for suspension parts under different loading conditions, including lateral force and bumping.
Manufactured suspension parts in workshop using lathes, mills, drills, and grinders.
Mechanical Design & Draft | Arizona State University | Lawn-mover design | JAN 16 - JUN 16
Design a lawn- mover including braking system, cutting deck, steering system, and transmission in a real considerate
materials, dimension, and function.
Learn and utilize CE/DM features include machining, surfacing, part library, well CAD organization, etc
Refer to different types and functions of bolts and design tractor’s exterior; BOM and report generation.