Simon Bilhete
**** ********* ******* *********
Anjou (Qubec) H1K1L3
ac7x74@r.postjobfree.com
WORK EXPERIENCE
PROFILE
Mechanical Engineer (junior) - UTV International (Montreal)
Excellent knowledge of
June 2018 - present
Production, Assembly
Processes, Mechanical Design assistance for research and development, selection of components and
Systems and Prototyping products/prototype of tracked utility vehicles
Document the improvements in research and development based on feedback from
Excellent knowledge of customers.
Aerospace, MATLAB, After-sales service and technical support of the parts and products of manufacturers
Solidworks, Project and suppliers
Management, FEA Stay up to date on industry standards and government legislations
Keep weekly records relevant and detailed the problems
Solid academic training, by the customers, suppliers and manufacturers
excellent work ethics and Develop and update implementation plans in the technical meetings of the company
critical thinking
Improve the process for and quality of production quality control
Implement and achieve of real experiences and analysis of useful data for the design
of the prototypes
Review and manage the technical records of the Sales Department
EDUCATION
Technician SignMax Inc.
Bachelor's Degree
Summer 2015-2017
Mechanical Engineering
2014-2018 Repair of the CNC machines, assess and validation functionality for sale
Concordia University, Processing and packaging for shipping online orders
Montreal, QC Use of AutoCAD to create customized components retrofitted for CNC design
modifications
D.E.C. Working with programming (G-code) code, used for CNC machines
Pure and Applied Sciences
Create samples engraved laser for the window of the shop and customers
2012-2014
Assisted and editing industry exhibitions
Vanier College, St-Laurent,
QC
ACADEMIC PROJECTS
High School Diploma
2007-2012
Modifying a Drone - Winter 2017
Vincent Massey Collegiate
Rosemont, Montral, QC MECH 390 - mechanical design project, Concordia University, Montreal, QC
Addition of the drone's automatic retractable landing gear
Use of various microcontrollers Arduino, including UN and Nano
Mechanism of landing designed using Solidworks
LANGUAGES Programmed a ultrasonic using C++ with automatic landing option activated sensor or
disabling depending on the height
French Using calculations, determine the voltage, the current and the power needed to provide
English to the electrical components
Simon Bilhete page 1
SKILLS
ACADEMIC PROJECTS (continued)
Operating systems
Steam Car - Winter 2017
Windows, Mac OS, Linux
MECH 351 - mini-Cap, Concordia University, Montreal, QC
Programming Design and construction of car micro steam for an inter-school competition
C++, C#, MATLAB, Python Use of the software SolidWorks to design several print 3D frame and turbine models
GCode Arduino
Assembly and calibration of car
Design and optimization of nozzles of oil for a maximum output power
Software
ANSYS, Catia V5, AutoCAD
Earthquake Simulator - Winter 2018
SolidWorks, Simulink, NX,
MECH 490 - project Capstone, Concordia University, Montreal, QC
Microsoft Office (Word, Excel,
Design and construction of a table of agitation to simulate, with precision, the
PowerPoint)
of the ground motion during an earthquake
Programming using MATLAB Simulink models in real-time
Use of logic through the gate operators and modes of operation of the readers
PRACTICAL TRAINING Set up of a real-time communication system using the EtherCAT and CanOPEN
Protocol
Assembly Procedures, Analysis, treatment and processing of complex signals in time and frequency domains
Manufacturing Static, dynamic performance, vibration and calculations of scales
Research and Development Development of an interactive graphical interface (GUI) effective so that the Simulator
Prototyping and Design is easy to use
Hydraulics Wiring of electrical and relay components
Lifeguard (Sogep 2009-2014) Creation of graphic work and budget tables
Organize meetings with different contacts and institutions, suppliers, professionals and
teachers
ACADEMIC AWARD
Shuttle Space Rocket Performance program C++ - Winter 2018
Capstone
AERO 485 - Introduction to the Space Systems, Concordia University, Montreal, QC
(Concordia University)
Create a program using MATLAB who will assess the performance of a spaceship
Best Design & Outstanding
using various loops and indicators for iterative calculations
Performance
Based on parameters such as the initial speed, the specific impulse and the net
June 2018
propellant mass to analyze the properties of the shuttle
Gather graphics data issued by the program indicating the maximum speed, height,
time to burnout and other important features needed for the design
INTERESTS
Snowboarding
Swimming
Assembly of personal
computers
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