Aluminium bronze – NAB Alloys (Nickel aluminium bronze alloys)

Especially important in pump, turbine and propulsion applications, this results from small water vapour bubbles formed at low pressure points causing erosion at the point of contact which in some extreme cases damages the blade. Nickel Aluminium Bronze provides an excellet resistance to this phenomenon explaining why in addition to corrosion resistance it is widely used for propellers in the shipbuilding industry.

Cryogenic applications requires the use of alloys which resist low temperatures. Unlike most steels, copper based alloys do not embrittle and have a good dimensional stability at low temperatures down to -190°C . For those very specific alloys, Inoxyda has improved the standard alloy by giving its Inoxyda 3 Cryo alloy better performances at low temperatures for use in valve and pump applications.

Biofouling can be a serious problem with any systems handling sea water, particularly at elevated temperatures with warm climates.

High copper alloys have considerable resistance to the growth of crustaceans, sea weeds and other marine organisms. The slow dissolution of copper ions inhibits their growth and prevents mass population.

NAB alloys have 2 main advantages compared to Titanium, Duplex or Super Duplex alloys regularly used in similar applications :

• Machining of Nickel Aluminium Bronze is easier and more cost effective ,
• Nickel Aluminium Bronze can easily be repaired by qualified welders (using matching welding electrodes to minimise corrosion issues)

More detailed technical informations are available in the Guide to Nickel Aluminium Bronze for Engineers , published by Ivan Richardson and the Copper Developement Association (see download area)