Mechanical Engineering Technology, Diploma

Program Information
Credential: 
Diploma
Duration: 

2 years

Delivery: 
Main Campus
Program Cost Estimates: 

Contact Information

Contact Name: 
Dale Gust
Contact Title: 
Associate Dean
Contact Phone: 
403.342.3400 OR 1.888.732.4630
Contact Email: 
inquire@rdc.ab.ca
Related Careers

Mechanical Engineering Technologists find long-term, rewarding careers in many areas including:

  • Manufacturing and Fabrication Industries: Oilfield Equipment (valves, pressure vessels, hydraulics), Agricultural Machinery, Outdoor Recreational Products (boats, snowmobiles, quads, and accessories), Wood Products and Production Equipment (lumber, pulp and paper mills)
  • Process Industry: Piping Design, Mechanical Equipment Design, Materials Specification and Testing
  • Engineering Consultants: Design, Fabrication, Production, Quality Control
  • Government Agencies: Research, Development, Standards, Regulation
  • Technical Sales
  • CAD Operator


 

The Program

The Mechanical Engineering Technology (MET) diploma program is designed to prepare students for high-demand careers in the rapidly growing manufacturing, petroleum, and infrastructure design industries in Central Alberta. Students will use both hands-on and theoretical approaches to learn mechanical engineering fundamentals including mathematics, solid mechanics, thermal-fluid sciences, and kinematics, blended with industry-focused topics such as automation, control, lean and computer integrated manufacturing, and reliability. Based on National Technology Benchmarks for Mechanical Engineering Technology, this program, coupled with industry experience, will lead to the Certified Engineering Technologist (CET) and Professional Technologist (PTech) designations.
 
Graduates will develop knowledge and skills enabling the learner to:

  • Employ relevant industry health and safety standards, codes, policies and procedures in accordance with current legislation, regulations and organizational policy.
  • Prepare, analyze, evaluate and modify mechanical engineering drawings and other related technical documents.
  • Analyze and specify the requirements for product and manufacturing operations to optimize manufacturability.
  • Apply and demonstrate knowledge of material and engineering principles to manufacturing operations and processes to produce components according to required specifications.
  • Analyze and solve complex technical problems by applying principles of advanced mathematics and science.
  • Design, analyze, specify, interface, program, and maintain computer integrated manufacturing systems.
  • Apply the principles and practices of project management.
  • Research, analyze, prepare, author, and communicate in written, verbal, nonverbal, and presentation formats, technical documentation appropriate for a variety of audiences.
  • Identify, develop, and demonstrate strategies for maintaining continuing competency and practice standards associated with global industry trends and practices.
  • Design, specify, and analyze mechanical components and equipment by applying the fundamentals of mechanical engineering.
  • Design, specify, deploy, and maintain mechanical systems; and apply principles of facilities management.


 

Requirements
Admission Requirements: 

Minimum average of 65% with no mark below 50% in:

  1. ELA 30-1 or ELA 30-2 or equivalent
  2. Math 30-1 or equivalent
  3. Physics 20 or equivalent
  4. Two of Chemistry 30, Mathematics 31, Physics 30, Science 30 or of Computer Science Advanced-Level CTS (5 credits) or equivalent

Note: In addition to the program admission requirements applicants, whose first language is not English, must demonstrate English language proficiency.

Other Requirements: 

Note: Applicants are required to have a laptop computer; please check specifications with the program prior to making a purchase.

Graduation Requirements: 

The student must pass all courses and achieve a minimum cumulative GPA of 2.00.

Program Content
Year 1 Course Descriptions
  • GET 101 Introduction to Instrumentation
  • GET 103 Technology Physics
  • GET 106 Engineering CAD
  • GET 108 Project Management
  • GET 111 Engineering Mathematics
  • GET 112 Advanced Engineering Mathematics
  • GET 114 Computer Programming
  • GET 116 Engineering Communication
  • MET 102 Fabrication
  • MET 120 Statics
  • MET 125 Materials Science
  • MET 130 Fluid Mechanics
  • MET 135 Thermodynamics
  • MET 140 3D CAD


 

Year 2 Course Descriptions
  • GET 202 Statistics
  • GET 204 Professional Practice
  • MET 201 Fluid and Bulk Materials Systems
  • MET 205 Dynamics
  • MET 208 Mechanical Design
  • MET 210 Building Systems
  • MET 212 Manufacturing
  • MET 220 Strength of Materials
  • MET 224 Reliability and Failure Analysis
  • MET 230 Robotics
  • MET 235 Computer Integrated Manufacturing
  • MET 240 CNC Manufacturing
  • MET 258 Capstone Project
  • MET 260 Manufacturing Automation