Shahrizan Jamal
*** ********* ****** ***. **** Tallahassee, Florida 32304 C: 850-***-**** acuw4b@r.postjobfree.com
PROFILE: ENTRY-LEVEL MECHANICAL/INDUSTRIAL ENGINEER
Outstanding track record of innovative design changes, design controls, design improvements, and new product creation for worldwide engineering programs.
SKILLS & CAPABILITIES INCLUDE:
Entry-level Mechanical/Industrial Engineer with broad-based experience on design change, design control, product design improvements, new product design, engineering principles, and providing effective solutions to meet organizational goals.
Effective collaborator and technical leader to ensure deliverables meet product specifications.
Develop innovative designs and improvements to meet all performance, reliability, cost, and manufacturability requirements.
Expertise working with MatLab, Simulink, Autodesk Inventor, GD&T, Microsoft Office Suite, CATIA, C, Ansys, Python, InDesign, Abaqus, SolidWorks, Minitab, SAS, Makerbot (3D printing), CorelDraw, VersaLaser, and FLIR ResearchIR.
Fluent in Malay, Tamil, and English.
AREAS OF EXPERTISE INCLUDE:
Design Development Fabrication Root Cause Analysis
Technical Leadership Technical Documentation Troubleshooting
Project Management Mechanical Engineering Principles Process Optimization
Strategic Planning & Execution Continuous Improvement Technical Evaluation
Education & Professional Development
FLORIDA STATE UNIVERSITY
Master of Science (M.S.) in Industrial Engineering – August 2016 (Expected)
GPA: 3.96/4.00
IIE Certified Lean Six Sigma Green Belt - October 2015
International Trade Simulation: Supply Chain Certification - December 2015
PURDUE UNIVERSITY, West Lafayette, Indiana
Bachelor of Science (B.S.) in Aerospace Engineering – August 2013
GPA: 3.47/4.00
Dean’s List
Professional Experience
FLORIDA STATE UNIVERSITY– Tallahassee, Florida August 2014 - Present
Graduate Research Assistant High Performance Materials Institute
Under the guidance of Dr. Mei Zhang, fabricated a lightweight, compressible, conductive composite material using carbon nanotubes (CNTs) to replace the current widely used honeycomb structure material.
Improved the mechanical strength of the conductive foam via a thermoplastic polymer infiltration for space and weight critical applications.
Created a model to simulate the deformation mode of the composite foam under different loading specifications using the finite element analysis (FEA) software, Abaqus.
Utilized a 3D printed mold to create a foam with a controllable microstructure.
Studied the thermal behavior of the foam for applications as a heat spreader and heatsink in high powered devices.
Mentored interns on material characterization using various techniques such as scanning electron microscopy, dynamic mechanical analysis, thermogravimetric analysis, CO2 laser, plasma treatment, and rheometer.
PROEIGHT OFFSHORE ENGINEERING PVT LTD – Malaysia January 2014-August 2014
Test Engineer
Performed continuous dynamic and static qualification testing and created reports on newly designed mechanical seals used in large-scale oil and gas pumps. Managed 3 personnel on carry out qualification testing consisting of tests to evaluate performance in extreme conditions.
Designed smaller scale 3D models of testing equipment to evaluate the compression unit of the mechanical seals, using changes in pressure, temperature, and other conditions.
Used Geometric Dimensioning and Tolerance (GD&T) to design and fabricate adaptors to fit mechanical seals of various dimensions to the testing machine.
UNIVERSITI SAINS MALAYSIA – Malaysia September 2013-January 2014
Research Assistant
Under the guidance of Dr. Abdul Rahim, tested the mechanical properties and composition of composite panel materials. Performed tests using different components in support of research for a grant from a major automobile manufacturer.
Performed tests such as tensile strength, interlaminar shear strength, and burn off on dissimilarly processed composite materials.
PURDUE UNIVERSITY– Lafayette, Indiana August 2010 – August 2013
Undergraduate Student
Completed coursework toward a Bachelor of Science in Aerospace Engineering, including Thermodynamics, Fluid Mechanics, Control System Analysis, Industrial Organization, and Structural Analysis. Completed several hands-on research projects.
Notable Project Work Includes:
Capstone Class Project: NASA Zero Gravity Flight Experiment – designed an experiment to produce data pertinent to water management within the proton exchange membrane (PEM) fuel cells to find the ideal pressure drop.
Scaled up the dimensions of the channels while maintaining the Bond’s number constant under reduced gravity.
As part of a team, built a syringe-screw-like water injection system excreting a known volume of water into the channel for every angle of rotation.
Assisted with assembling and fitting all components, including channels, water injection system, vacuum pump, and water catch system within a constrained volume.
Computational Fluid Dynamics Project - performed CFD analysis on the NACA 2415 airfoil using Ansys Fluent at different angle of attacks; maximum coefficient of lift, maximum coefficient of lift/coefficient of drag and zero lift.
Analyzed the pressure coefficient, skin friction, wall shear stress, and velocity contours obtained.
Compared the coefficient of lift, drag, and moment about the quarter chord length to the experimental data and additional data obtained from XFLR5.