YOUR APPLICATIONS

THE RIGHT ALLOY FOR THE JOB

OxMet’s engineers have spent years in University research groups using advanced manufacturing modelling techniques to identify the precise performance requirements of different applications, and using this to specify or design suitable new alloys.

AEROSPACE

Stronger, lighter, hotter alloys for planes and rockets

OxMet’s patented range of traditional and additive nickel alloys enable discs, blades, vanes and other hot-section components to withstand higher temperatures and/or cost less. Its additive nickel alloys can function at temperatures up to 150°C hotter than the next best alloy for a wide processing window. OxMet has also patented titanium alloys for low-cost forming of airframe parts and extra-strong additively manufactured components.

ALLOYS WE’VE DESIGNED
FOR AEROSPACE:

SX1100
SX900
PM800
PM850
CW750
850AM
900AM
1000AM
SPF750

AUTOMOTIVES

Faster, better alloys for faster, smaller engines

Regulatory pressure, changing technology and powerful commercial forces are forcing the design of smaller, more powerful combustion engines, running hotter and hotter. The primary limiting factor on how hot an engine can run is the temperature limitations of the materials of which it is made. OxMet has developed a series of alloys to allow turbochargers to run hotter, and has further projects ongoing at different points in the powertrain. For professional racing and for supercars, OxMet’s additive alloys, both nickel and titanium, could allow quicker, stronger, lighter components for unbeatable performance.

ALLOYS WE’VE DESIGNED
FOR AUTOMOTIVE:

P1000
T2000
CW700
850AM
900AM
1000AM
SPF750

ENERGY

Powerful alloys for the harshest environments

Power generation increasingly relies on tough, high-temperature materials with excellent corrosion resistance. These demands, combined with rising cost pressures, create the need for hard-working alloys at competitive prices. OxMet has designed a series of alloys for every stage of the gas turbine, optimised for corrosion resistance and high-temperature tolerance without relying on costly elements such as Re and Ru. OxMet's alloys for additive manufacture enable the rapid production of high-temperature components in remote locations.

ALLOYS WE’VE DESIGNED
FOR ENERGY:

SX1000
850AM
900AM
1000AM
SPF750

Orthopaedics

Optimised alloys to transform lives

Orthopaedic surgery such as hip and spine implants can be life-changing. But their success is limited by the physical properties of the materials used. Complications can arise including fractures, toxicity, and failure of bonding – leading to readmissions and reduced quality of life for patients. OxMet has developed technology to replace alloys developed for aerospace with alloys designed for the human body. We use optimised design processes to create next-generation biomedical alloys with transformational benefits for patients. See more at www.trabecularmesh.com

ALLOYS WE’VE DESIGNED
FOR Orthopaedics:

BioAM

CONSUMER GOODS

We design alloys for living

Additive manufacture creates limitless possibilities for applications in consumer products. Lighter, stronger alloys can transform products, the way we make them and the way we use them. Our Alloys-by-Design process and capabilities mean we can create alloys for very specific purposes – putting individually-tailored golf clubs and bicycles in the visible future. Our world-leading scientific and engineering capabilities will put as at the forefront of alloy development for daily use. Design for the future, today.

ALLOYS WE’VE DESIGNED
FOR COSUMER GOODS:

Coming soon...

ABD® POWDER

BUY OUR POWDERS

OxMet’s alloy powders have been designed with the needs of additive manufacture in mind. Wide processing windows, crack-free components, high performance.

BUY NOW

DISCOVER OUR ALLOYS

Thoroughly modern and dependable, for the toughest environments.

RECRUITMENT

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We create better alloys, faster. Want to help us?

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