MUSTAFA HAFEEZ MIR
682-***-**** Email: adi30u@r.postjobfree.com
https://www.linkedin.com/in/mustafahmir1997/
SUMMARY:
Ambitious student with passion for parametric modeling, finite element analysis, autonomous vehicle systems, control systems, and upcoming manufacturing processes such as stereolithography
Experienced in 3D designing of parts and assemblies in a handful of modeling software. Apt in modal, thermal, structural analysis. Keen to develop learned skill by working with hands on projects
Instituted fundamentals of Mechanical Engineering with FE certification EDUCATION:
Bachelor of Science (BS) – Mechanical Engineering GPA: 3.34 Anticipated: Spring 2021 University of Texas at Arlington Relevant Coursework:
Unmanned Vehicle Systems, Introduction to Automatic Control, Mechanical Vibrations, Introduction to Manufacturing Engineering, Dynamic Systems Modeling and Simulation, Dynamics, Thermodynamics, Fluid Mechanics, Heat Transfer, Structure and Mechanical behavior of Materials
CERTIFICATIONS:
NCEES Fundamentals of Engineering FE in Mechanical Engineering EIT – September 2020 Confirmation: https://account.ncees.org/rn/2053641-1339948-456a375
Dassault Systèmes Certified SOLIDWORKS Associate CSWA– July 2019 WORK EXPERIENCE:
Lab Assistant, University of Texas at Arlington June 2019 – Present Computer Aided Design Lab, Mechanical and Aerospace Engineering
Administered opening and closing of the computer aided design laboratory at MAE department
Introduced freshman students to designing software such as CATIA and PTC Creo in person as well as virtually
Ensured proper entry and exit of students in card-access only CAD lab during lectures, experiments, and otherwise
Oversaw license renewal of critical computer software and hardware upgrades in the lab Student Laboratory Assistant, Office of Information Technology
Lead the operations of six student computer laboratories across campus.
Documented laboratory usage by student classification, software use, and time in laboratory
Guided students in basics of Autodesk products such as Revit, AutoCAD, and Sketchup
Replenished plotter paper, printer paper, and ink cartridges for all laboratories daily Product Quality Intern, Honda Motor Company, Lahore Pakistan Dec 2018 – Jan 2019
Undertook Mechanical drawings on SOLIDWORKS for Honda car parts such as sidemirror, door handle assemblies
Conducted FEA/FEM testing on ANSYS of localized parts such as pedals, windscreen, and headlights
Examined localized manufacturing processes such as die casting, point welding, automated CNC lathe machine
Operated brake testing machine for several Honda motorbikes and ATVs TECHNICAL SKILLS:
FEA, FMEA, Stereolithography, GD&T, Project Management
Software: SOLIDWORKS, MATLAB, PTC CREO, ANSYS, AutoCAD, Inventor, LabVIEW, PuTTY, MS Office
Hardware: Heat gun, Universal Testing Machine, CNC Lathe Machine, 3D Scanner
Operating System: Windows, MacOS, Linux/Unix
Programming Languages: C++, C, JavaScript, HTML, CSS ACADEMIC PROJECTS:
Gear Box Design, (Mechanical Design I & II, Solid Mechanics)
Tasked with design of a gearbox that included essential components such as keys, shafts, and gear/pinion
Preliminary analysis included a force and moment analysis, as well as a compound gear train combination analysis
Managed and divided project in terms of required specifications for gear design, shaft design, and key design
Submitted a report on results and final SOLIDWORKS design of working product Capstone Senior Design I, (Solid Mechanics, Mechanical Design)
Measured raw weight and dimensions for OEM LiPo battery mount and analyzed uncertainty
Conducted static deflection analysis using concepts of beam theory and extrapolated computations on MATLAB
Designed equivalent parts after material selection process and compared strain results from FEM model with theoretical
Supervised 3D printing of final iteration design and mating to vehicle frame Computer Aided Engineering, (Circuit Design, Heat Transfer, Thermodynamics)
Designed a circuit card assembly on PTC Creo including estimations for wedge locks, ICs, and CPU
Utilized ANSYS Steady State Thermal to determine CCA hotspot temperatures for variances in conduction cooling
Determined percentage reduction in heat dissipations for estimated and maximum thickness of material per component
Recommended best estimate for material thickness to use and a rerun of the analysis after thermal data from duty cycle