New Materials Research to Enhance Submarine Stealth

Matrix has signed a 3-year collaboration agreement with the Department of Defence, universities and industry to develop new acoustic materials designed to enhance submarine stealth.

The $1.5 million Defence Science and Technology (DST) agreement, supported by the Next Generation Technologies Fund, will produce new materials to reduce the acoustic signature of submarines without disrupting their operation.

Researchers from DST, the University of Melbourne and RMIT University will join with industry partners QinetiQ and Matrix Composites & Engineering to develop the prototype stealth materials.

Chief Defence Scientist Professor Tanya Monro said the agreement was another step forward in leveraging acoustic science, materials science, engineering, and technological innovation across Australia to develop new Defence technology solutions.

“Emerging materials and next generation platforms are vital to creating sustainable sovereign capability for the Navy to support Defence’s current and future needs across the maritime domain,” Professor Monro said.

“This innovative research has the potential to enhance underwater vehicle survivability, as well as operational effectiveness.”

The research team will be led by University of Melbourne’s Professor Graham Schaffer with Chief Investigators Professor Tuan Ngo and Dr Christian Brandl; RMIT University’s Professor Peter Daivis; and DST’s Dr Ellie Hajizadeh