Spatial and Temporal Linear Induction Motor Harmonics

Linear Induction Motors (LIMs) are used in a significant portion of existing rail transport systems, and Bombardier Transport Canada Inc. is a global leader in the industry. LIMs will be ever more important in the future with the expansion of Maglevs globally. In this project, the intern will explore the mathematical models used in designing LIMs. The main objective will be improving the mathematical treatment in order to increase the efficiency of LIMs and eliminate or minimize undesirable effects such as overheating.

Evaluation of strength loss in heat affected zone of 6061-T6 aluminum alloy welded joints and it’s improvement by local post weld-heat treatment

Bombardier Transport (BT) is one of world major companies in the transport industry. The application of aluminum in the structure of transport vehicles (cars, trains, ships, etc.) is continuously increasing mainly due to the benefits in weight saving. Therefore BT is also working extensively in implementing the use of aluminum alloys in its products. Welding is one of the major manufacturing techniques used in the structure of transport vehicles. One of the common welding problems in aluminum alloys is the strength loss in heat affected zone (HAZ).

Spatial and Temporal Linear Induction Motor Harmonics

Linear Induction Motors (LIMs) are used in a significant portion of existing rail transport systems, and Bombardier Transport Canada Inc. is a global leader in the industry. LIMs will be ever more important in the future with the expansion of Maglevs globally. In this project, the intern will explore the mathematical models used in designing LIMs. The main objective will be improving the mathematical treatment in order to increase the efficiency of LIMs and eliminate or minimize undesirable effects such as overheating.

Ruggedized OLED Displays

While OLED displays are now a relatively-mature technology, they have been almost exclusively targeting consumer electronics. As such, the ultimate goal of this ambitious collaboration will be to: Evaluate the technology and supply chain readiness of actual OLED and other emerging display technologies. Assess their potential for cockpit (critical) and cabin (passenger-level) aeronautics and train applications.

Tracksafe

Since the advent of Subway operations, the task of inspecting and repairing track, signals, and related wayside infrastructure has been essential to safely move millions of people every day.  It has also been one of the most hazardous jobs in the railway industry.  Accordingly, Bombardier is considering Roadway Worker Protection to be a priority.  The new technology, called TrackSafe, is a turnkey solution developed by Bombardier in partnership with the McMaster RFID (Radio Frequency Identification) Applications Lab to create improved location awareness to track workers and train operators

State of the Art Study of Civil Infrastructure for Advanced Rapid Transit

This project is in partnership with ISIS Canada. Bombardier’s Advanced Rapid Transit (ART) solution is a medium capacity transit system, filling the gap between street‐running trams (low capacity) and heavy rail metros (high capacity). This internship aims to understand the design decisions and how new approaches and technology can reduce the costs of civil infrastructure for ART systems. The prime focus of this study is on the guideway (beams, columns, footings) and its cost.