resume - corey robinson
TRANSCRIPT
Corey Robinson 336 New Ludlow Road, Chicopee, MA 01020
[email protected] (413)575-3978
OBJECTIVE To obtain a career that will utilize my Chemical Engineering education, technical communication skills and
desire to succeed; while gaining industrial experience dealing with proper operation of large and small
scale facilities and/or the research and development of the products such facilities produce. EDUCATION University of Massachusetts Amherst Bachelor of Science in Chemical Engineering Anticipated May 2016
Major GPA: 3.068 COURSEWORK Process Design, Process Control, Chemical Engineering Senior Lab, Kinetics and Reactor Design, Fluid
Mechanics, Thermodynamics, Physical Chemistry, Intro to Energy Engineering, Writing in Engineering,
Heat and Mass Transfer, Math Modeling, Separations, Intro to Polymer Science and Engineering WORK University of Massachusetts Amherst Summer 2013-Fall 2013, Summer 2014-2015 EXPERIENCE Polymer Science and Engineering Department, Lab Assistant
Assisted in the research and development of a Lithium Ion Battery separator coating, resulting in lower
flammability and higher mobility making a more reliable and safer battery. Aided in the development of a new adhesive coating for use on a polyimide tape as well as the testing
of the product in terms of strength and performance. Assisted with the scale-up of various functional R2R coatings on a variety of films and foils utilizing
coating methods such as Laboratory Mayer rod application, Pilot Scale Micro-Gravure, and Slot Die
Coating. Equipment Experience:
UV/VIS, Fluorescence Spectrometer, IR Spectrometer, Q2000 Differential Scanning Calorimeter,
Pyrolysis Combustion Flow Calorimeter, Contact Angle Goniometer, UV Cure Omnicure 2000 lamp,
Xenon RC500 Pulsed Flash lamp, Novacentrix Pulseforge 1300 Photonic Curing System, Yasui Seiki
Mini-Labo coater and Custom built University Nanocoater 100.
Responsible for the Set-up and Student Training on: Optomec Aerosol Jet 300, Dimatix DMP-2831
Ink jet Materials Deposition Printer, Zygo Optical Profilometer, Rheosense M-Vroc Viscometer,
Sigma Force 700 Force Tensiometer and In-Sita T15 Bubble Tensiometer.
National Science Foundation (NSF) Research Experience for Undergraduates (REU) Summer 2015
Investigated the potential benefits of using aerosol jet based printing technology when compared
against inkjet printers in terms of producing flexible thin film based electronics through the use of an
Optomec Aerosol Jet 300 and a Dimatix DMP-2831 Ink jet Materials Deposition Printer.
Studied uniformity, 3D stacking, processing speed, and repeatability of several different printed
electronic applications such as antennas.
Coupled printing with photonic sintering on a Novacentrix Pulseforge 1300 Photonic Curing System
since various forms of polyethylene terephthalate (PET) films degrade due to thermal sintering process
required for metallic inks.
ACADEMIC
PROJECTS Hydrodesulfurization Plant Design (Process Design) Fall 2015
In a team of five, developed a full scale plant capable of hydrodesulfurization.
Must clearly take into account cost vs. profitability over multiple years.
Plant must be thermodynamically, structurally, and economically sound and be a novel idea.
Research and data presented in the form of three memos, a presentation, and a final paper of 10-15
pages with the help of Aspen, a computer simulation tool, previous research and documented
experiences found in the field of study.
Senior Lab Experiments
Worked with three colleagues to successfully propose innovative research in select projects
Compiled findings in a 10-15 page report for each project as well as present them to the class.
Required proper lab educate, fine-tuned focus, and knowledge from each Chemical Engineering core
class.
SKILLS Software: Matlab, Simulink, Aspen, AutoCAD, Microsoft Word, Excel, PowerPoint, Publisher, R (statistical data
analysis software)
INTERESTS Hockey and rebuilding cars