Memberships and Affiliations
Mechanical Engineering, Computational Engineering, Heat Transfer, Fluid Dynamics, Materials Science and Computer Aided Design (CAD)
Researching Induced Ductile to Brittle Transition Impact Cut (IDBTIC)
The existing cutting techniques, such as laser, waterjet, plasma, saw, shear and explosive, which are widely used for the cutting of structural steels have their own limitations and have different performance measures in terms of the cutting cost, speed, precision, quality and energy consumption.
This project is aimed at the development of a new steel cutting technique for in-air and underwater applications based on the innovative concept of induced ductile to brittle transition impact.
The successful completion of this project will lead to a cutting method that is cheaper, faster, and safer than the existing methods. This can have a significant contribution in reducing the manufacturing cost of steel infrastructures and marine structures as well as reducing the removal and recycling cost of offshore structures.
Dr Alireza Maheri (Main)
Dr Amir Siddiq (Secondary)
Research Funding and Grants
IDBTIC funded by: The Scottish Reseach Partnership in Engineering