|Nickel Alloy High Temp
||Designed to provide unique strength and/or corrosion properties at elevated temperatures. Properties such as high strength, high creep resistance, resistance to softening, or resistance to metal loss at high temperatures from oxidation, sulfidation, or carburization are present.
|Nickel Alloy Corrosion
||These alloys are intended for applications in the chemical processing, petroleum refining, marine, pollution, and waste control industries where common austenitic stainless steels may not provide adequate corrosion protection.
||An austenitic nickel-iron-chromium alloy developed to provide excellent resistance to carburizing and oxidizing atmospheres at elevated temperatures.
||Nickel-Iron-Chromium alloy offering Industrial furnaces and components, excellent resistance to oxidation and chemical processing equipment, power carburization at elevated temperatures generation and ore processing
||Nickel-Copper alloy with high strength and excellent corrosion resistance
||Marine engineering, Chemical and hydrocarbon processing equipment, Valves, Pumps, Shafts, Fittings, Fasteners, Heat exchangers
||Oxidation resistance at high temperatures
||Furnace components, Chemical and food processing, Nuclear engineering
||Nickel-Cr-Moly+Niobium to provide high strength
||Chemical processing, Aerospace and marine engineering, Pollution control equipment, Nuclear reactors
||Nickel-Iron-Chromium alloy with high creep strength
||Chemical and petrochemical processing, Power plants for super-reactor and reheater tubing, Industrial furnaces, Heat treating equipment
||An austenitic nickel-iron-chromium alloy developed for corrosion resistance in both oxidizing and reducing environments.
||Air pollution control, chemical and petrochemical, food process, nuclear, offshore oil and gas production, ore processing, petroleum refining, steel pickling and waste disposal.
||Nickel-Moly-Cr alloy with tungsten
||Pollution control, Chemical processing, Pulp and paper production, Waste treatment