FREDERICK
LEON
*** ******** **., ******, ** ****5 973-***-**** ***********@*******.*** or ****@****.***
Skills Summary
Operator of mechanical systems.
Wide knowledge in designing, business solution, elaboration of 3D printed products, and problem solving.
Proficient in AutoCAD, Autodesk Inventor, SolidWorks, PTC Creo designer (latest version)
High motivated, disciplined and resourceful. Interact productively with people from diverse backgrounds. Perform quality work accurately meeting deadlines when necessary.
Bilingual speaker (English/Spanish). With a strong verbal, and written communication.
Detail oriented
Construction detailer
Six Sigma Black Belt (In process)
Education
Degree / Date of Graduation
oEssex County College, New Jersey GPA 3.76 (JUNE 2016)
Associates of Science, Mechanical Engineering Technology
oNew Jersey Institute of Technology, New Jersey GPA 3.60 (MAY 2018)
CUM LAUDE ACADEMIC HONORS
Bachelors in Mechanical Engineering Technology
-Mechanical Design
-Fluid mechanics
-Strength of Materials
-HVAC
-injection molding
-Programmable Controllers (PLC)
Technical skills
Autocad, Solidworks, and Autodesk Invertor (2012-current). Working models 2005 (creation of 2D & 3D manufacturing drawings and layout drawings), Detailed oriented to details, elevations and assemblies. Fluent in Microsoft office, Basic programming, machining (Mill, Lathe, hands on tools), CNC operation, 3D print, basic electrical techniques, PLC programming, HVAC standards and requirements.
Experience
Seko
Construction Project Manager assistant / March 2015- June 2016
Manage client relations along with project manager and senior vice president, facilitating in all phases of project management form the estimated cost associated with project’s initial review proposals, contract negotiations and contract execution with subcontractor. Interaction with permitting agencies, and city inspectors. Performed monthly construction draw s submissions, change order valuation and value engineering.
Pioneer Industries (ASSA ABLOY)
Programmer and Engineer / September 2016- Currently
Created CAD drawings for national and international approval along with the supervision of sheet metal bending process. Developed engineering shop drawings for completion of orders for varying hollow metal steel doors and frames worldwide. Created a bending program library alongside bending sequence, using Cadman B (software used for LVD press Brakes), Accurpress vision control, Autocad, Autodesk Inventor, and Solidworks. Strategized methods to develop enterprise-level additive manufacturing capabilities for government clients, Monitoring and evaluating contractors performance and proposed tasks on mission capability upgrade for sound results, accuracy, and good practice. Exposed to work with an extended material gages, generating special bending methods. Constructed special frame profiles involving critical and precise dimensioning to fit field assignations. Visited field projects and collected crucial information for the designing of framing and hardware designation.
Engineering Projects
FEMA Tornado Hurricane Doors and Frames
Developed engineering shop drawings for the elaboration of doors with FEMA approval using Securitech hardware. This project consisted on mathematical and stress analysis that clarified the biggest stress concentration when environmental loads thump doors and frames, creating a method that will enhance a resistance force based on hollow metal reinforcements, special hats and top and bottom channels.
Avoiding Obstacle Robot
Designed and built a robot that will avoid any obstacle that will be in between a distance of 7.87 In (20cm). Relocating a free path and taking it as a new course. The robot was invented using a 3D printer, in order to acquire body implements such as base, wheel, and holders. Controlled by an Intel Edison Arduino board, programmed using C++ language, adapting the robot with specified movements and rotations with delay time. Two mini servo motors were attached to the near wheels to produce needed torque for our robot. An additional third motor was placed on top, attached to a proximity sensor that will interact with the distance of objects. Producing a feedback to the board and trying to find a free path.
Pedal Jack
Created a pedal jack that will utilize a ratcheting mechanism as an input assembly along with a telescoping u-joint output assembly which was manufactured and welded side by side to provide additional strength. This functioned as the main pedal arm is used to convert linear pumping input motion into rotational output motion that will ensure degrees of output rotation and lift cars easier and rapidly. This project met all labeling standards as UL with a 90 min fire resistant.