Kaiser Matin

Staff Engineer Aero/Thermo at United Technologies Aerospace Systems, UTAS (formerly, Hamilton Sundstrand)

United Technologies Aerospace Systems (formerly, Hamilton Sundstrand) provides a broad range of high-technology products and support services to the defense, space/aerospace industries. http://utcaerospacesystems.com/ My Specialties: o Expertise in thermal management in electronics packaging for electric systems used in aerospace, space and harsh/defense environments. o Responsibility for thermal design/analysis from the circuit card component to system level (NLIs/GCUs/RAT/TRUs for JSF http://www.f35.com/ , F22, A400M, A350, Boeing 787 http://www.newairplane.com etc). o Developed aerospace decompression, overpressure and altitude analysis models o Aero/Thermal Design of aerospace electric power systems (motors/generators) o Thermal and structural design, analysis, verification and implementation of standard work. o Review qualification test plans relative to temperature variation, altitude, decompression and overpressure ( according to DO160, MIL-STD-810, ARINC or customer requirements/specs etc.) o Trained in Project Management, Risk Management, VSM & EVMS. o Team leader in technology development/maturation processes and technical management of thermal designs. o MBA courses from KGSM to sharpen business and management skills.

Principal Thermal/Mechanical Engineer at Wavecrest Labs

WaveCrest Laboratories LLC, Sterling VA (March 2003-August 2005) (purchased by Magna in 2009) Developer of advanced electric motors and controls technology. Manufacturer of Consumer Electric Vehicles www.tidalforce.com http://www.tidalforce.com and www.wavecrestlabs.com http://www.wavecrestlabs.com o Developed 3D CFD aero-thermal models for high powered electric motors ( 20~225 kW). Both steady state and transient models validated with test results that predicts thermal profiles of the windings, stator, rotor and magnets. Worked with design of explosion proof motors. Enabling a forecasted market penetration to the tune of $70 million. o Performed 3D FEA structural designs to accurately predict fundamental frequency of electric motor rotor for vibration Analysis. Also deformation of magnetic elements inside the motor and effective stresses due to high rotational speeds (5000 RPM) were determined to give the magnets optimal shape. Saved housing material and made it lighter by optimization techniques. This saved prototyping cost by $200,000. ANSYS FEA model for thermal stress analysis has been validated. Validated Thermal network models for motor up to 225 kW. Heat sink design and analysis using both natural and forced convection. Battery and (control box) power electronics thermal management using CFD models have been validated. Innovative AFPM machines with integrated cooling have been designed. Tested power module prototypes with IR thermographic cameras for model validation. Established a structural contact analysis FEA model to calculate effective stress and deformation of different components of EV/HEV chassis. Established a state of the art thermal laboratory with an approved budget of $300k. Managed, documented and coordinated all thermal development /measurement activities relative to R&D efforts. Trained people using IR FLIR camera.

Member of Technical Staff at THOMSON

THOMSON multimedia S.A. (Thomson multimedia) is one of the world's top four consumer electronics manufacturers, with leading shares in a number of important product categories, including the number one position for televisions sold in the United States, through its RCA brand (http://www.rca.com/) o Developed vacuum stress model for television tubes adopted at THOMSON technical centers in France and Poland. Used CAE optimization FEA technique and saved glass cost. Developed three dimensional frit sealing and exhaust modeling for CRT tubes of different sizes. Developed tube implosion model. Developed a mechanism simulation model for grinding wheel simulation varying the number of wheels. Developed glass forming simulation for new products development using DEFORM. Developed and automated method for surfacing using program files from three dimensional splines. o Developed a three-dimensional viscoelastic model to model panel cooling after pressing using ABAQUS. Wrote several software training manuals and imparted in-house training to personnel. Developed an automated program for I-DEAS CAD using Open I-DEAS for television panel drawing. o Investigate thermal transport and fluid flow in existing processes and then make design proposal for improvements. Direct and coordinate process data collection for validation of numerical models. Attended different technical conferences related to simulation of glass forming. Work in an international consortium to develop finite element software for thermal and material forming processes. Work as a consultant to Thomson TV glass plants in the United States and in Europe. Perform scientific and engineering analysis; thermal, structural, and forming modeling. Coordinate and consult modeling efforts with national labs PNNL (USA) and Glass Technology (Russia)

Senior Scientist SETA DARPA/MTO at System Planning Corporation (SPC)/DARPA MTO

Systems Engineering and Technical Advisor at DARPA/MTO. Provide strategy and technology support to program manager in next generation thermal management technologies and protect advancements in U.S. technological superiority over potential adversaries. Manage and support disruptive thermal management technologies that include new starts, seedlings, SBIRS and existing programs for the Microsystems Technology Office (MTO) of the Defense Advanced Research Projects Agency (DARPA). Programs suppoting: TMT, ICECool, YFAs. Perform 3D thermal/CFD analysis to support, evaluate and verify work of selected performers at various phases of technology maturation. Evaluate high-risk, high-reward thermal management projects for alignment with the strategic business objective of providing revolutionary technology development that would benefit U.S. national security. Communicate, coordinate and negotiate with stakeholders at multiple levels of both management and technical expertise. Identify and convert user requirements into specific technology research and development objectives. Participate in review panels as Subject Matter Expert (SME) for Broad Agency Announcements (BAAs) and Requests For Information (RFIs). Translate complex and abstract scientific concepts into accessible content for distribution to both technical and non-technical audiences. Develop, research and assess thermal management program ideas. Determine scientific merit, risk and potential contribution of these programs in creating asymmetric advantage for DoD warfighters. Interface with private industry, universities, and government labs in developing disruptive cooling technologies with current and future DoD requirements.

Keller Graduate School of Management of DeVry University

Texas Tech University

Texas Tech University

BUET (BSME)