Rasool Morovatiyan
*.*.***********@*****.*** 617-***-**** Carlsbad, CA 92009
(Authorized to work in the US without sponsorship) SUMMARY
A team-spirited challenge-driven individual with strong foundations in biomedical applications & technical support. 5+ years of industry R&D experience in substantiating designs through creating models, analysis, prototyping, & testing. Organized team player who collaborates effectively with all disciplines to provide robust designs. Lead multidisciplinary projects with a proven history of problem solving. In-depth knowledge of numerical analysis for fluid dynamics (CFD) & solid mechanics (FEA). Received 5 awards (UMass Gold Medal). 2 design invention disclosures. EDUCATION
Doctor of Philosophy, Mechanical Engineering, GPA: 4.00 University of Massachusetts Lowell (Feb. 2020) Master of Science, Mechanical Engineering Sharif University of Technology (Sep. 2013) Bachelor of Science, Mechanical Engineering Yazd University (Sep. 2011) SKILLS
Software: SolidWorks, ANSYS, Abaqus, LS-Dyna, MATLAB, Python, AutoCAD, Minitab, LabVIEW, Adobe Illustrator, MS-Office Manufacturing: Polymer Extrusion, CNC Machining, 3D printing, Laser Cutting, Microfluidic, Photolithography Characterization: Scanning Electron Microscopy (SEM), Energy Dispersive Spectroscopy, AFM, Optical Profilometer, Microscope EXPERIENCES
Biomedical Engineer Analystika (Medical) Consulting (Jan. 2020 - Present)
• Provided technical customer support to translate their requirements into meaningful designs using computer-aided engineering (CAD, CFD, FEA)
• Simulated hemodynamics of intracranial aneurysm as a neurovascular disorder using CFD models. Studied flow-diverting stents.
• Assisted in enhancing cancer biomarker detection using SERS-based immunoassays in microfluidic chips by machine learning algorithms. Mechanical Research Assistant ECRL Lab, University of Massachusetts Lowell (Jan. 2017 - Dec. 2019) Medical Devices - Supervising, Design, and Innovation
• Supervised & trained multi-users in the lab; Led multidisciplinary research in collaboration with Chemistry & Physics scientists.
• Innovated a material synthesis device to fabricate paper-templated metallic nanostructures for use in medical devices & sensors. Controlled flow conditions & employed characterization (SEM, EDS). The invention was disclosed, & patent is under process by UMass.
• Prototyped a fluid delivery system to cool down pressure sensors, preventing heat damage. Studied drug delivery systems.
• Developed pressure-driven gas delivery systems to supply air & multiple gases for the first time at ECRL Lab. Studied lung ventilators.
• Skilled in manufacturing tools & materials (plastic, polymer, metals), verification and validation (V&V), bill of material (BOM). Numerical Analysis and Mechanical Lab
• Drove initiatives in product design from concept to production & final launch; Built & set up a brand-new research lab with documentation.
• Successfully created 3D CAD design solutions from concept to detailed designs (part, assembly, drawing, GD&T, ASME Y14.5, ISO) for two chemical chambers with optical access, high-speed camera, injector fixtures, test stands, etc. with LabVIEW instrumentation.
• Held effective communication with vendors to source off-the-shelf components to develop research activities.
• Predicted the detailed behaviors of laminar/turbulent reactive flows (RANS & LES), injection, a multi-shell thermodynamics model, heat transfer, and non-/premixed flames using CFD simulations in ANSYS, Converge, MATLAB, and hand calculations.
• Received 2020 UMass Dean’s Graduate Gold Medal for the greatest achievements and services, and 4 grants over $1.2 million. CAE Engineer, R&D Mega Motor (Automotive Manufacturer) (Sep. 2011 - Sep. 2016) Leading, Design, and Numerical Analysis
• Led an R&D team to conduct research, perform simulations, achieve goals timely, and meet deadlines in a highly regulated industry.
• Provided technical presentations, report, & articles for R&D teams and suppliers to translate the design requirements.
• Assisted Quality Assurance (QA) and Regulatory Affairs departments by providing detailed analysis on efficacy of components from suppliers and trouble-shooting to improve manufacturing phase & customers’ satisfaction.
• Designed and reviewed drawings and overall designs to meet the program plan requirements (schedule, budget, deliverable, suppliers).
• Successfully upgraded a customized engine with new designs & products to meet new stringent emission & safety standards. I developed high-fidelity numerical models (CAD design, CFD, structural-thermal FEA) to predict fluid flow and stress distribution.