In the shipbuilding industry and other marine-related sectors, the most critical issue is how to deal with the corrosion caused by flowing seawater. Nickel alloys are an ideal solution, and especially Monel alloys can reduce the corrosion rate to an almost negligible level. At Aitel Company, we use solution strengthened alloys as the material for the ship's hull. Meanwhile, precipitation strengthened alloys are used as practical materials for fasteners used in seawater environments.

With the development of the automotive industry, more and more car production has adopted nickel alloys to enhance vehicle performance. Nowadays, high-temperature alloys are widely used in automotive components, such as turbochargers, exhaust valves, ignition pre-combustion chambers, exhaust purification system fasteners, nozzles, etc. Ater produces high-performance nickel alloys to meet these demands.

The principle of crude oil refining is to distill the crude oil based on the different boiling points of its various components. Different substances (such as gasoline and diesel) can be distilled at different temperatures. The distillation temperature can reach 800 degrees Celsius, and the composition of crude oil is very complex. Therefore, the distillation container must be able to withstand high temperatures and have the ability to resist various forms of corrosion. The nickel alloy materials we produce are fully suitable for this task.

Different metal heat treatment requires different heat treatment temperature and heat treatment time. This requires that the furnace material can withstand different degrees of high temperature for a long time without high temperature creep. AEETHER provides high-performance nickel alloy products and selects alloys with the best high-temperature creep strength to match this demand. Our materials have been verified by various practices and can perfectly cope with various heat treatment methods.

The power industry includes hydropower, coal power, gas power, and nuclear power. In addition to hydropower, other power generation methods require the support of high-temperature materials. Among them, nuclear power is one of the most widely used power generation methods of superalloys. In addition to the extremely high temperature inside the nuclear reactor, there is also a very harsh radiological environment. This makes nickel alloys an irreplaceable role in the composition of nuclear reactors.