Mason Morgan is seeking an engineering position utilizing his materials engineering education and industry experience. He holds a B.S. in Materials Engineering from Cal Poly with a 3.41 GPA. His experience includes work as a Manufacturing and Materials Engineer at Clean Energy Systems where he conducted materials testing and characterization. As an intern at Aerojet Rocketdyne, he performed characterization of alloys using microscopy techniques. His technical skills include operating microscopy equipment, mechanical testing, and CAD/CAM software.
Simulation with Nonlinear Structural MaterialsDesign World
When the stress in a structure becomes sufficiently large, many materials display nonlinear behavior. Some materials may exhibit a nonlinear stress-strain response even at very low stress. Material models including elastoplastic, viscoplastic, creep, and hyperelastic require expressions more sophisticated than the linear Hooke’s law. This webinar presented applications of nonlinear materials modeling in COMSOL Multiphysics and demonstrated how user-defined materials can be incorporated into a simulation. The webinar concluded with a 15-minute Q&A session.
Watch the webinar to learn:
• which nonlinear material models are predefined in COMSOL
• how to simulate nonlinear material behavior
• how to combine different sources of material nonlinearity
Speaker: Mateusz Stec, Technical Product Manager, Fatigue, COMSOL
Bio: Mateusz works as the Technical Product Manager for the Fatigue Module. He studied Aerospace Engineering at the University of Michigan and Vehicle Engineering at the Royal Institute of Technology. In 2008, he completed his PhD in Solid Mechanics at the Royal Institute of Technology. Before joining COMSOL, he worked at SKF’s European Research Centre as a researcher and project leader.
Emerging Hazards: Renewables and Microgrids, U.S. Department of Energy, Energ...AEI / Affiliated Engineers
AEI / Affiliated Engineers presents the Energy Systems Integration Facility, a 182,500 square foot building that provides laboratory and research space for 200 scientists and staff working on promising clean energy technologies and testing their interaction with each other and the grid. Specific areas of research include:
• Smart grids, power electronics.
• Solar: interconnection, parabolic solar concentrators, building integration, and system optimization.
• Buildings: sensors and controls, systems integration, modeling, and Zero Energy Building simulation.
• Hydrogen: electrical interfaces, electrolyzers, storage, quality standards, fueling systems, fuel cell integration.
• Wind: models, generation, and grid interaction, electrical grid analysis.
• Vehicles: grid connected plug-in and vehicle-to-grid electrical integration, battery thermal management, and power electronics.
• Biofuels: generator sets and engines.
• Energy storage: electrical, mechanical, and thermal.
• Microturbines.
AEI’s work included the design of:
• Research Electrical Distribution Bus (REDB): A first-of-its-kind, the REBD is a power integration circuit made up of two AC and two DC ring buses that interconnects testing components across the building’s 15 laboratories. Researchers can test new energy technologies on real and simulated power systems.
• Supervisory Control and Data Acquisition (SCADA) System: Integrated throughout the facility, the SCADA monitors and controls the REDB operations and gathers real-time, high-resolution data for collaboration and visualization. The SCADA also monitors SIL-2 (Safety Integrity Level) rated laboratory PLCs providing emergency stop functionality, gas detection, alarming (horns and lights), and other required safety measures. These systems are all interconnected with the fire alarm, building automation system, and local lab equipment to provide a seamless facility response across systems to various conditions.
Simulation with Nonlinear Structural MaterialsDesign World
When the stress in a structure becomes sufficiently large, many materials display nonlinear behavior. Some materials may exhibit a nonlinear stress-strain response even at very low stress. Material models including elastoplastic, viscoplastic, creep, and hyperelastic require expressions more sophisticated than the linear Hooke’s law. This webinar presented applications of nonlinear materials modeling in COMSOL Multiphysics and demonstrated how user-defined materials can be incorporated into a simulation. The webinar concluded with a 15-minute Q&A session.
Watch the webinar to learn:
• which nonlinear material models are predefined in COMSOL
• how to simulate nonlinear material behavior
• how to combine different sources of material nonlinearity
Speaker: Mateusz Stec, Technical Product Manager, Fatigue, COMSOL
Bio: Mateusz works as the Technical Product Manager for the Fatigue Module. He studied Aerospace Engineering at the University of Michigan and Vehicle Engineering at the Royal Institute of Technology. In 2008, he completed his PhD in Solid Mechanics at the Royal Institute of Technology. Before joining COMSOL, he worked at SKF’s European Research Centre as a researcher and project leader.
Emerging Hazards: Renewables and Microgrids, U.S. Department of Energy, Energ...AEI / Affiliated Engineers
AEI / Affiliated Engineers presents the Energy Systems Integration Facility, a 182,500 square foot building that provides laboratory and research space for 200 scientists and staff working on promising clean energy technologies and testing their interaction with each other and the grid. Specific areas of research include:
• Smart grids, power electronics.
• Solar: interconnection, parabolic solar concentrators, building integration, and system optimization.
• Buildings: sensors and controls, systems integration, modeling, and Zero Energy Building simulation.
• Hydrogen: electrical interfaces, electrolyzers, storage, quality standards, fueling systems, fuel cell integration.
• Wind: models, generation, and grid interaction, electrical grid analysis.
• Vehicles: grid connected plug-in and vehicle-to-grid electrical integration, battery thermal management, and power electronics.
• Biofuels: generator sets and engines.
• Energy storage: electrical, mechanical, and thermal.
• Microturbines.
AEI’s work included the design of:
• Research Electrical Distribution Bus (REDB): A first-of-its-kind, the REBD is a power integration circuit made up of two AC and two DC ring buses that interconnects testing components across the building’s 15 laboratories. Researchers can test new energy technologies on real and simulated power systems.
• Supervisory Control and Data Acquisition (SCADA) System: Integrated throughout the facility, the SCADA monitors and controls the REDB operations and gathers real-time, high-resolution data for collaboration and visualization. The SCADA also monitors SIL-2 (Safety Integrity Level) rated laboratory PLCs providing emergency stop functionality, gas detection, alarming (horns and lights), and other required safety measures. These systems are all interconnected with the fire alarm, building automation system, and local lab equipment to provide a seamless facility response across systems to various conditions.
1. 8762 Ash Hill Court, Orangevale, CA 95662 - masonmorgan@hotmail.com - 916-342-7474
Objective
A full time engineering position utilizing myacademic and industryexperience.
Education
California Polytechnic State University, San Luis Obispo, CA
B.S., Materials Engineering
Major GPA 3.41
Graduated June 2014
Engineering Work Experience
Manufacturing and Materials Engineer at Clean Energy Systems, Inc.
• Material selection providing usage recommendations,service limitations and
processing requirements for high temperature,high pressure oxy/fuel
combustion hardware
• Designed and lead a DOE test program to establish the thermal shock threshold
of SiC tubes
• Photographic documentation ofhardware and facilities,using macro and
microscopic imaging
• Provided interrupted ASME Boiler Pressure Vessel Code requirements and
recommendations to senior staffin supportof new and existing designs
• Formal ASME BPVC training
• Identified required equipmentfor establishing metallographic examination lab.
• Worked multiple programs concurrentlyin supportof CES projects .
2014-2015
Materials and Process Intern at Aerojet Rocketdyne
• Characterization of Ni-based alloys,stainless steels, and braze joints using
SEM, EDX, hardness and optical microscopy
• Lean cell design,lean cell data collection,and paper kaizen
• Statistical process control analysis ofmultiple manufacturing processes
Clean Room Lab Assistant - Solar Cell Fabrication
• Silicon wafer processing:Cleaning, Etching,Sputtering,Doping
• Oxide Growth
• Photolithography
• Metrology
Chief Of Microscopy Operations
• SEM, EDX/EDS and optical characterization for studentand professor
sponsored projects.
2013
2012
2013-2014
Relevant Project Experience
Galvanic Corrosion of Precious Metal Braze Alloys for Rocket Engines
• Potentiodynamic testing
• Generated EMF Values
Design and Fabrication of a Light Measurement System
• 3D Printed ABS and Ceramic
• Aluminum Casting
• LEDs,Circuits,and Fiber Optic Cable Construction
Conductive Hydrogel Design of Experiment
• Electrical Testing
• Statistical Analysis
NiTi Superelastic Ring Design of Experiment
• Developed an ideal heattreatmentrecipe for an
Af temperature having superelastic behavior
• Testmetrics used to determine success ofdesign
Technical Skills
• Scanning Electron Microscope
• EDX Spectroscopy
• Potentiodynamic Testing
• Metallography
• Rockwell Hardness Tester
• Tensile Testing
• Casting/Rapid Prototyping
• X-Ray Diffractometer
• Microfluidics
• Photolithography
• Plasma Bonding
• CNC Mills
• CNC Lathes
• Differential Scanning Calorimeter
• Pro Engineering
• Minitab
• Arduino
• Adobe Creative Suite
• Microsoft Office Suite
• Audio, Video Technical Support
Additional Work Experience
Production Assistant
• Creation of photo,video, and printed marketing materials for clients such as
NorCal Ace Hardware, The Sacramento Kings,NorthwestAnalytics and
SynapSense
2007-2013
Activities
• Member and Secretary of Cal Poly MicroSystems TechnologyGroup (MST)
• Cal Poly Men’s Water Polo Club Team
2011-2012,2013
2010-2013
• Cal Poly Space Systems Club 2013