Max Hurlstone

Member of Powertrain group for Team Bath Racing Electric at Team Bath Racing Electric
  • Claim this Profile
Contact Information
us****@****om
(386) 825-5501
Location
Bath, England, United Kingdom, GB
Languages
  • French Limited working proficiency

Topline Score

Topline score feature will be out soon.

Bio

Generated by
Topline AI

You need to have a working account to view this content.
Join now
You need to have a working account to view this content.
Join now

Experience

  • Team Bath Racing Electric
    • United Kingdom
    • Motor Vehicle Manufacturing
    • 1 - 100 Employee
    • Member of Powertrain group for Team Bath Racing Electric
      • Sep 2020 - Present

      I am part of the powertrain sub-team for Team Bath Racing Electric. My current (and so far my first) project is to research the feasibility of a 4 Wheel Drive system alongside 6 other engineers. In addition to this I am helping out with as many other activities as I can. I am part of the powertrain sub-team for Team Bath Racing Electric. My current (and so far my first) project is to research the feasibility of a 4 Wheel Drive system alongside 6 other engineers. In addition to this I am helping out with as many other activities as I can.

  • Team Consulting
    • United Kingdom
    • Medical Equipment Manufacturing
    • 100 - 200 Employee
    • Student Intern
      • Aug 2019 - Aug 2019

      A work experience placement at medical device design consultancy "Team Consulting", from the 19th of August to the 30th of August. During my work experience I set myself a project to complete, shadowed Team employees in some activities and took part in meetings to learn about the operation of the company. My project was to create a handheld force testing device for the SmartGlove. It included 3 buttons with 3 springs of different stiffness, which the user would press to test the SmartGlove. I designed the device in SolidWorks and then prototyped it on a 3D printer. I completed calculations in MathCAD to work out the force required to compress the springs and to check the strength of certain aspects of the design. I compared my spring calculations with experimental results from a tensile testing machine.Another task I completed was to design and analyse a mesh. I designed the mesh in SolidWorks and then used SolidWorks to run a Finite Element Analysis test to investigate stress and strain in the model.I used the tensile testing machine to investigate the Force-Extension characteristics of Nitinol wire. This involved setting up the machine with the correct rigging and load cells and preparing the software for the data collection.

Education

  • University of Bath
    Master of Engineering - MEng, Mechanical Engineering
    2020 - 2025
  • Hills Road Sixth Form College
    A-Levels: Mathematics, Physics, Further Mathematics and History
    2018 - 2020

Community

You need to have a working account to view this content. Click here to join now