Connecting to Careers in Advanced Manufacturing Summer 2024 Cohort

Advanced Manufacturing
Toronto, Ontario, Canada
Carly Coughlin
Administrator
(56)
Timeline
  • August 12, 2024
    Experience start
  • August 23, 2024
    Experience end
Experience
6/10 project matches
Dates set by experience
Preferred companies
Ontario, Canada
Large enterprise, Small to medium enterprise
Manufacturing
Categories
Mechanical engineering Supply chain optimization
Skills
manufacturing processes advanced manufacturing electric motors hydraulics programmable logic controllers operations innovation lean manufacturing control systems
Student goals and capabilities

Unlock Your Manufacturing Potential with our program graduates.

Work with exceptionally skilled mid-career professionals from ACCES Employment and Humber College's "Connecting to Careers in Advanced Manufacturing" program. 


Why Partner with Us?

  • Enhance your operations by leveraging objective third-party expertise and receiving optimization recommendations tailored towards manufacturing processes and machines.
  • Engage in work-integrated learning to show support for talent and give back to the community on your website and social media.
  • Evaluate and upgrade existing equipment for enhanced performance.
  • Tap into diverse talent for innovative solutions.


Key Features:

  • Project start/end Dates: Beginning in August (Date subject to change but will remain within August)
  • Features a four-day hybrid engagement, with at least one day of in-office involvement.
  • Skills Development: Lean Manufacturing, Mechatronic Control Systems, Programmable Logic Controller, Hydraulics, Electric Motors, and more.
  • Project Duration: Approximately 40 hours per student, with 5-6 students per project
Students
Micro-credential
Beginner, Intermediate levels
40 students
Project
40 hours per student
Administrators assign students to projects
Teams of 4
Expected outcomes and deliverables
  • Comprehensive assessments with detailed recommendations suited to the business needs including a summarized report
  • Other deliverables, as agreed, depending on the scope of your organization’s goals, (i.e. report, live presentation, or project plan)






Project timeline
  • August 12, 2024
    Experience start
  • August 23, 2024
    Experience end
Project Examples

Advanced Manufacturing students receive training to acquire concepts that can be applied to different types of equipment, allowing them to quickly adapt and work efficiently with various machinery.

Examples of projects that they can work on include:


Assist in the fundamentals of setting up new equipment including basic programming, logic controllers & basic wiring.

  • Project: Conduct a comprehensive process mapping or value stream analysis to optimize production efficiency.
  • Description: Analyze the production process, from raw material acquisition to product delivery, using process or value stream mapping techniques. Identify waste areas, such as overproduction, excess inventory, or unnecessary transportation, and propose lean solutions to streamline operations and reduce costs.


Study and propose ideas for waste reduction based on lean manufacturing principles. 

  • Project: Organize a workplace cleanup and organization initiative. 
  • Description: Coordinate a workplace cleanup event implementing basic lean manufacturing principles, such as 5S methodology. Train employees on sorting, organizing, and standardizing workstations to improve efficiency and reduce waste. Encourage the client to identify and eliminate unnecessary items, tools, or equipment contributing to clutter and inefficiency and propose how to sustain these improvements in the future.


Diagnosis of malfunctioning equipment for sequential processing given appropriate documentation, and suggestion for component replacement.

  • Project: Diagnose and suggest solutions for a malfunctioning conveyor belt motor. 
  • Description: Guide maintenance personnel through a systematic troubleshooting process to identify the cause of a conveyor belt motor malfunction. Provide simplified documentation and basic testing equipment, such as a multimeter, to check for common issues like loose connections or motor overload. Recommend simple solutions, such as tightening connections or replacing worn-out components, to resolve the problem efficiently.