1. YAO LIU
13469994157 lfyl4157@gmail.com
OBJECTIVE
Seeking a full-time position in the fields of Industrial / Manufacturing Engineering and Mechanical Engineering
EDUCATION
Texas A&M University, College Station, TX 05/2016
Master of Engineering in Industrial &System Engineering (GPA: 3.7)
Huazhong University of Science and Technology (HUST), Wuhan,China 07/2014
Bachelor of Mechanical Design Manufacturing and Automation (GPA:3.5)
HIGHLIGHTS
 Two years of experience of small machine design and applications
 Analytic, math, reasoning and logical thinking skills gained through STEM schooling
 In-depth knowledge in SPC, 5S, Kaizen, SOP, Lean Manufacturing, JIT, Quality Control and Inventory Control
 Creative thinking and executive team leadership in a team, self-motivated in a fast-paced environment
 Bilingual in English and Chinese
SKILLS
 Software skills: AutoCAD, Solidworks, UG, PLC, Simio, MySQL, Matlab, SAS, Microsoft Office, C+ +,
 Certificates: Lean Green Belt Certificate, Six Sigma Green Belt Certificate, SAS Certified Base Programmer for SAS 9
WORK EXPERIENCE
FAMSUN (Muyang Holdings), Yangzhou, Jiangsu, China
Mechanical Project Engineer
08/2016-Present
 Participated in the study of feed processing machinery design, studied the parameters of four mainframes performance,
manage the corresponding data
 As a junior project manager, joined a team with American researcher experts and chief designer of the headquarters to
study the whole project on the industrial process design,equipment, and plant layout
 Responsible for connecting with the experts in US Institute, assisting with CEO in managing the US Institute,
accompanied by American experts on visiting international and domestic projects
Engine Plant, Dongfeng Second Automobile Works Co, Shiyan, China 06/2013-09/2013
Mechanical Engineer (Intern)
 Surveyed assembly lines of car, stamping die design studio, and gear cutting production line and other work stations to
get familiar with the engine production process
 Analyzed the reasons for using different materials, workshops and working schedules
 Process optimization through elimination of time, waste, non-value adding costs,and other resources
 Coordinated with manufacturing engineers and workers to collect and analyze data, and offered proposals to improve
efficiency and accuracy
PROJECT EXPERIENCE
Material Handling System, TAMU 03/2016-05/2016
 Analyzed Baseline scenario and got results: Huge labor cost (70% of total cost); Low efficiency order picking
process (85% orders are within 20 pieces); Large variation of outbound in terms of sku (2.8% skus count for
51.6% lines and 70.3% outbound units)
 Changed the design to reduce labor cost as well as improve the efficiency of order picking process: Use
crossdock function (labor saving $603,207); Move forward picking area close to shipping dock (saving
$3,200,917); Use belt conveyor and flow racks in forward area to eliminate the unnecessary motion of the
employees
Advanced Quality Control, TAMU 10/2015-12/2015
Tools: MatLab Models: 𝑇2
Chart, PCA with X chart, CUSUM chart with PCA
 Constructed the upper control limit and lower control limit to identify product quality for a manufacturing process by
using 𝑇2
Chart, PCA with X chart, CUSUM chart with PCA
 Used phase 1 analysis to remove all unqualified data and do iterations until got a chart all training data was in control
 Analyzed the advantages and disadvantages ofthree different approaches
Maximal Covering Location Problem in Emergency Logistics, TAMU 10/2015-12/2015
 Considered Fire Emergency and Maximal Covering Location Problem and used methods to solve a real problem which
exists in College Station, TX: using a limited budget, select proper fire stations to maximize the coverage of most risky
emergency sites
 Formulated the problem in MCLP model and used LINGO to solve it with the principle of Integer Programming. Then
compared and analyzed the solutions in distinct resource conditions
The Control Room Analysis of Utility & Energy Services, TAMU 03/2015-05/2015
 Collected data based on observation,context inquiry and unstructured interviews

2.  Identified problems in terms of alarm system, ovation system, and layout
 Offered possible solutions for all the problems such as implement likelihood alarm
Simulation For A Manufacturing Production Process, TAMU 04/2015-05/2015
 Created a model by using Simio with real data to simulate a typical manufacturing production process
 Determined the efficiency of the current production line
 Identified the bottlenecks in the process and proposed ways to solve them
 Made changes to the facility layout to improve the productivity
Course Design: Machine Design, HUST 04/2013-06/2013
Topic: Two-stage Cylindrical Gear Reducer
 Based on required parameters, completed design calculation and parameter selection of the reducer
 Finished each part and assembly drawing with AutoCAD in precise 2- and 3-dimentional drawing, including
bearings, shafts and gears
 Analyzed the design of reducer and get a comprehensive report
Course Design: Automatic Machine for Making Dumplings, HUST 11/2012-01/2013
 Collected raw data of machine and calculated the basic parameters then incorporate this information into drawings
 Used AutoCAD to design the complex machine in 2- and 3- dimensional graphics and resolve problems involving
compatibility with basic design concepts
 Analyzed the final product in ANSYS software to estimate the stress and load capability
HONORS
 Scholarship for Hard-working Student, HUST (Top 5% biggest improvement on grades)
 Academic Progress Award, HUST
 Excellent Leader of Students Office and Venture Office, HUST