Engineer Design

Education: Rochester Institute of Technology – Rochester, New York

Degree: Bachelor of Science

Program: Mechanical Engineering Technology

Minor: Plastic Engineering

Civil Engineering

Science, Technology, and Policy

Experience:

Zimmer Biomet/Adecco USA

Parsippany, New Jersey – (May 25, 2015 – Present)

Process Engineer

Maintain process and inspection standards to ensure quality of product

Test alternate process inputs to identify best parameter’s to maximize product output

Work with a team to troubleshoot limiting product defect and process breakdown

Understand long term consequences of procedure and develop preventative maintenance procedures

Maintain stringent design and tolerance constraints

Stryker Orthopedics/Adecco USA

Mahwah, New Jersey – (March 25th, 2013 – May 22, 2015)

Generalist

Propose and design project A3 following six sigma processes

Work with team to meet specific production requirements

Maintain stringent design and tolerance constraints

Identify and implement safety and procedure improvements

Troubleshoot product and procedure failure

Atlantic Testing Laboratories

Highland, New York – (May 25th, 2011 – November 18th, 2011)

Field Engineer

Traveled to active construction site or testing facility

Performed on-the-spot field testing of concrete mixture prior to use on site

Assisted in laboratory testing of specimens to determine material properties’

Performed nuclear density compaction

Generated reports based on collected data from field testing

Henrietta, New York – (May 28th, 2012 – November 9th, 2012)

Field Engineer

Inspected hot mix asphalt quality and material properties’

Projects:

Chemical Vapor Deposition Runtime Decrease: Test various input parameters to identify greatest impact on CVD runtime and product quality to increase efficiency.

Blast Operation Production A3: Identify and control variables responsible for process output to increase production efficiency and limit material waste.

Product Idea & Concept Selection: Tasked with identifying a problem, obtaining the voice of the customer to create a product requirements document, and generate a prototype based on those requirements.

Plastic Redesign: Designed a part/item to be made through a plastic process, selected type of process, material to be used, specific machine, and performed cost analysis for viability.

Steel Failure Analysis: Reinforce given data with calculations and physical testing to be compiled in a single report to discuss discrepancies in given and obtained data.

Machine Design: Designed and constructed remotely operated vehicle frame, drive-train, and optical mount.

Plastic Product Design: Tasked with generating a prototype to fulfill desired task; required to identify design, polymer, and manufacture requirements, create schematics, and perform cost/benefit and investor return analysis.

Product Reverse Engineering: Disassembled, documented, and analyzed a device to gain an understanding of what should be considered when initiating a design project.

Product Redesign: Redesigned part schematics for a previously worked product. Constructed prototype under new design and performed cost/benefit comparison for viability.

Material Selection: Evaluated stresses of a system and recommended best material to be used for system.

Skills:

Microsoft office programs (2007-2010) Solid Works Finite Element Analysis

Autodesk Inventor Minitab AutoCAD 2007

Working Model 2D MathCAD ANSYS Workbench

Six Sigma Greenbelt Training Python Coding ACI 1 Training

Nuclear Density Training HMA Inspection Training

Certifications:

ACI1 – Knowledge in performing and recording field testing on mixed concrete.

Nuclear Density Gauge – Knowledge in the operation of nuclear density gauges for the purpose of testing moisture content and location compaction level.

HMA Density Inspection – Certified to operate and oversee inspection of density quality of hot mix asphalt.

OSHA training – Understand the conduct and expectations when on an active construction site, a material testing facility, and a loading facility for concrete, compaction material, and steel.

Related Courses:

Solid Modeling Thermodynamics Computer Aided Engineering

Thermo-fluids Land Vehicle Dynamics Principles of Mechanical Design

Fluid Dynamics Manufacturing Processes Geometric Design and Tolerances

Vibrations and Noise Strength of Materials Materials Technology Product Selection and Design Plastic Processing Technology and Design

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