CONTACT
adcnau@r.postjobfree.com
Houston, TX
EDUCATION
Master of Science
in Mechanical Engineering
Yonsei University
Seoul, Republic of Korea,
2010
Bachelor of Science
in Mechanical Engineering
Yonsei University
Seoul, Republic of Korea,
2008
EXPERTISE
Structural Design
Design Optimization
Design of experiment
Six Sigma
Minitab
Visual DOC
Structural Design /w CAD
NX
Solidworks
CATIA
Structural Analysis /w CAE
ABAQUS
ANSYS
Dynamics Analysis /w CAE
RecurDyn
MATLAB, C++
Profesional with ten years of experience in design mechanical engineering on a variety of product design projects using CAD and CAE programs. Significant expertise in design mechanical engineering for orthopedic knee, spine and shoulder implant for medical surgery. Good understanding and work experience in design methodology; carried out a project to design an in-house CAD program exclusively for designing a specific knee plant product. By having experiences in various products such as implants, surgical instruments, experimental instruments and home appliances can design products efficiently according to product's goals.
S U M M A R Y
W O R K E X P E R I E N C E
Team Leader
TJC LIFE / Seoul, Republic of Korea / 2012-2019
Investigated through computer simulation and experiment to find out which factors are most important in the implantation process during artificial joint surgery. Through the performance study of the implant materials, searched for materials that could improve the performance compared to that of the existing implants. Through these studies the factors affecting the patient's behavior in the knee artificial joint were identified, and as a result, the company was able to produce a patient-customized implant.
• Optimal design of knee, spine, and shoulder implant with improved performance from existing products (NX)
• Analyzed existing commercial design programs such as NX, Solidworks, CATIA and Inventor to produce CAD packaging programs specialized for patient-specific implant design
• Planned and developed customized artificial jig for knee artificial joint
(NX)
• Developed implant surgery planning program
• Developed of patient-specific 3D human body model for analysis (NX)
• Designed the bone and ligament 3D model for computer simulation through reconstruction (NX)
• Conducted structural analysis progress under each condition using human model (ABAQUS)
• Conducted a national project sponsored by small and medium business administration with Seoul National University Hospital (December 2014 - November 2015)
• Produced 43 articles (first author, 13 articles) related to implant structural analysis / optimal design using human body model
• Registered 6 patents (Republic of Korea)
J A M E S J. S O N
MEDICAL DEVICE
PRODUCT DEVELOPMENT ENGINEER
Legal U.S. Permanent Resident
CONTACT
adcnau@r.postjobfree.com
Houston, TX
SKILLS
CAD
NX, Solidworks, CATIA
CAE
ABAQUS, ANSYS
MATLAB, C++
Proficient in Microsoft
Word, Excel, Power Point,
and Access
Strong analytical and
design skills
Good and thoughtful
communicator
Problem solving & results
oriented
Project Management
Documentation & Report
writing
Bilingual, English & Korean
Professional demeanor,
flexible and able to adjust
to fast paced
environments
Organized and disciplined
MEDICAL DEVICE
PRODUCT DEVELOPMENT ENGINEER
Legal U.S. Permanent Resident
J A M E S J. S O N
Research Engineer
LG ELECTRONICS / Seoul, Republic of Korea / 2010 - 2012
Created mechanism design to move ice from the freezer to the dispenser (NX, RecurDyn)
Designed ice maker in refrigerator that can make round ice (NX, RecurDyn)
Developed optimal design using structural analysis (ABAQUS)
Registered 13 related patents (USA, Republic of Korea, Europe, China, and Japan)
Researcher
YONSEI UNIVERSITY / Seoul, Republic of Korea / 2008 - 2010
Solved the equation to predict the mechanical properties of z-pinned composite materials. Tested tensile and shear experiments using the composite specimens to validate the equation.
Predicted composite material properties and strength based on solid mechanics, composite mechanics, and continuum mechanics
Predicted equations coding (MATLAB)
Designed of Z-Pinned composites with optimal properties using design of experiments (NX, ANSYS)
Predictive verification through tensile and shear experiments (ASTM)
3D product (impeller) manufacturing and optimum shape design using Z-Pinned composite material (NX, ANSYS)
E X P E R I E N C E C O N T I N U E D