High-performance applications demand high-performance alloys, computationally optimised for your application
OxMet’s Alloys-by-Design process uses algorithms based on the latest science, proprietary software, and computing horsepower to predict the performance of millions of different alloys simultaneously, and choose the best optimisation for a particular application. Instead of months or even years of expensive trial-and-error, the ABD® process can reduce the time it takes to recommend a new composition to mere days.
OxMet’s ABD® process starts with data – basic data such as the cost, density, and melting and boiling points of different elements; fundamental thermophysical data about the temperatures at which elements form different phases; calculated data showing how the introduction of different elements affects the physics of the alloys into which they are mixed. OxMet’s proprietary ABD® algorithms feed this data into scientific models, which allow OxMet to model the performance of millions of different alloy compositions simultaneously, and allow both automated and manual optimisation to choose the composition which represents the best trade-off for any application.
Thoroughly modern and dependable
Alloy properties depend heavily on the method of their manufacture. OxMet’s alloys are tailored not just for performance, but also for production environment. This allows our customers to produce best-in-class components without compromising on production yields.
OxMet has designed a series of nickel and titanium alloys specially for the demands of additive manufacture, which benefit from a wide crack-free processing window and excellent performance on the parameters which count.
OxMet's engineers have spent years developing advanced manufacturing modelling techniques to identify the precise performance requirements of different applications. If OxMet's existing alloys don't meet your needs, OxMet can work with you to co-develop the alloy that best fits your requirements.
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