CT1702 Cobalt Aluminide (CoAl)

Kobaltaluminid (CoAl) Description

Kobaltaluminid is generally available in bulk quantities. High‐purity, submicron and nanopowder forms are obtainable. An aluminide is a compound that contains aluminium and electropositive elements.

Aluminium is positioned adjacent to non‐metals in the periodic table. It forms compounds with properties that lie between those of metal alloys and ionic compounds. Aluminides are applied in hydrogen storage systems, industrial manufacturing and coatings for furnaces and other high‐temperature environments.

Kobaltaluminid (CoAl) Synonyms

Kobaltaluminid, Co, Al, Kobaltaluminidblech, Kobaltaluminidfolie, Kobaltaluminidpulver, Aluminide

Kobaltaluminid (CoAl) Physical Properties

Powder, sheet, foil

Kobaltaluminid (CoAl) Typical Applications

1. Aerospace Industry: Engineers in this sector use the compound for manufacturing components that operate at high temperatures. They produce turbine blades and combustion chambers for aircraft engines. Cobalt aluminide powder exhibits heat resistance, mechanical strength and creep resistance. Consequently, it meets operational requirements.

2. Automotive Industry: Manufacturers use cobalt aluminide powder to produce exhaust valves and turbocharger rotors. These components require performance at high temperatures and resistance to wear. The compound fulfils these technical specifications.

3. Energy Generation: The energy sector employs the compound in producing gas turbine components and catalysts for power stations. Cobalt aluminide powder withstands high temperatures and challenging conditions. Consequently, it contributes to durability and efficiency.

4. Petrochemical Industry: The petrochemical sector utilises cobalt aluminide powder in catalytic processes. It demonstrates high-temperature stability and supports chemical reaction kinetics. Consequently, it is applied in catalysts for hydrocarbon conversion and other refining processes.

5. Research and Development: Researchers use cobalt aluminide powder to investigate the properties and behaviour of intermetallic compounds. It provides quantitative data for scientific experiments.