Oxide powders for atmospheric plasma spraying (APS)

Remarks:

• Resistant against corrosion, abrasion, erosion and sliding wear
• Excellent dielectric properties
• Stable in most acids and alkalis

Remarks:

• Resistant against corrosion, abrasion, erosion and sliding wear
• Excellent dielectric properties
• Stable in most acids and alkalis

Remarks:

• Resistant against corrosion, abrasion, erosion and sliding wear
• Excellent dielectric properties
• Stable in most acids and alkalis

Remarks:

• Resistant against corrosion, abrasion, erosion and sliding wear
• Excellent dielectric properties
• Stable in most acids and alkalis

Remarks:

• Resistant against corrosion, abrasion, erosion and sliding wear
• Excellent dielectric properties
• Stable in most acids and alkalis

Remarks:

• Resistant against corrosion, abrasion, erosion and sliding wear
• Excellent dielectric properties
• Stable in most acids and alkalis

Remarks:

• Grey alumina for use as corrosion, abrasion, erosion and sliding wear resistant coatings
• Typical applications in textile machines for guiding and handling of thread, rolls in paper industry, etc.

Remarks:

• Grey alumina for use as corrosion, abrasion, erosion and sliding wear resistant coatings
• Typical applications in textile machines for guiding and handling of thread, rolls in paper industry, etc.

Remarks:

• Grey alumina for use as corrosion, abrasion, erosion and sliding wear resistant coatings
• Typical applications in textile machines for guiding and handling of thread, rolls in paper industry, etc.

Remarks:

• Compared with Amperit 742 less hard and corrosion resistant

Remarks:

• Lower hardness compared to Amperit 742 and 744
• Wear and erosion resistant
• Good grindability
• Polished coatings with reduced wettability
• Used in textile industry, household applications (pans), etc.

Remarks:

• Lower hardness compared to Amperit 742 and 744
• Wear and erosion resistant
• Good grindability
• Polished coatings with reduced wettability
• Used in textile industry, household applications (pans), etc.

Remarks:

• Lower hardness compared to Amperit 742 and 744
• Wear and erosion resistant
• Good grindability
• Polished coatings with reduced wettability
• Used in textile industry, household applications (pans), etc.

Remarks:

• Mullite

Remarks:

• Black
• Moderate wear resistance compared with Al₂O₃ or Al₂O₃-TiO₂
• Soluble in alkalis and sulfuric acid
• Decorative black coatings
• Slightly conductive

Remarks:

• Black
• Moderate wear resistance compared with Al₂O₃ or Al₂O₃-TiO₂
• Soluble in alkalis and sulfuric acid
• Decorative black coatings
• Slightly conductive

Remarks:

• Hard, corrosion and wear resistant ceramic coatings
• Insoluble in acids, alkalis and alcohol
• Used for anilox rolls in printing and textile machines, pump seals areas, valve needles, wear rings, etc.

Remarks:

• Hard, corrosion and wear resistant ceramic coatings
• Insoluble in acids, alkalis and alcohol
• Used for anilox rolls in printing and textile machines, pump seals areas, valve needles, wear rings, etc.

Remarks:

• Hard, corrosion and wear resistant ceramic coatings
• Insoluble in acids, alkalis and alcohol
• Used for anilox rolls in printing and textile machines, pump seals areas, valve needles, wear rings, etc.

Remarks:

• Rounded particle shape for better flowability and reduced wear of powder feeding parts
• See Amperit 704

Remarks:

• Rounded particle shape for better flowability and reduced wear of powder feeding parts
• See Amperit 704

Remarks:

• Rounded particle shape for better flowability and reduced wear of powder feeding parts
• See Amperit 704

Remarks:

• Rounded particle shape for better flowability and reduced wear of powder feeding parts
• See Amperit 704

Remarks:

• Rounded particle shape for better flowability and reduced wear of powder feeding parts
• See Amperit 704

Remarks:

• Rounded particle shape for better flowability and reduced wear of powder feeding parts
• See Amperit 704

Remarks:

• Rounded particle shape for better flowability and reduced wear of powder feeding parts
• See Amperit 704

Remarks:

• Alloyed as co-fused
• Lower hardness but better toughness than pure Cr₂O₃ coatings
• Used in wear applications where more toughness is needed e.g. on hydraulic cylinders in water engineering (in combination with a corrosion resistant bond coat e.g. Amperit 251 and a sealer if needed)

Remarks:

• Alloyed as co-fused
• Lower hardness but better toughness than pure Cr₂O₃ coatings
• Used in wear applications where more toughness is needed e.g. on hydraulic cylinders in water engineering (in combination with a corrosion resistant bond coat e.g. Amperit 251 and a sealer if needed)

Remarks:

• Hard, dense and wear resistant coatings
• Good corrosion resistance
• Higher mechanical shock resistance than pure Cr₂O₃

Remarks:

• Hard, dense and wear resistant coatings
• Good corrosion resistance
• Higher mechanical shock resistance than pure Cr₂O₃

Remarks:

• Stable at high temperatures
• Heat resistant in aggressive atmospheres
• Used as diffusion barrier on graphite sheets in the hard metal and steel industry
• Max. operating temperature in air 2.200 °C (on graphite 1.550 °C)

Remarks:

• White / HP / low norm

Remarks:

• White / DVCs
• Blocky particle shape

Remarks:

• White / DVCs
• Blocky particle shape
• Also used for dense and vertically cracked coatings

Remarks:

• Yellow
• Very good thermal shock resistance and thermal insulating properties
• Hot corrosion resistant
• Used for thermal barrier coatings in aircraft, stationary gas turbines and engine applications like combustion liners and airfoils, etc.
• Highest coating porosity achievable

Remarks:

• Yellow
• Very good thermal shock resistance and thermal insulating properties
• Hot corrosion resistant
• Used for thermal barrier coatings in aircraft, stationary gas turbines and engine applications like combustion liners and airfoils, etc.

Remarks:

• Yellow
• Very good thermal shock resistance and thermal insulating properties
• Hot corrosion resistant
• Used for thermal barrier coatings in aircraft, stationary gas turbines and engine applications like combustion liners and airfoils, etc.
• For DVC’s (non columnar)

Remarks:

• Yellow
• Very good thermal shock resistance and thermal insulating properties
• Hot corrosion resistant
• Used for thermal barrier coatings in aircraft, stationary gas turbines and engine applications like combustion liners and airfoils, etc.

Remarks:

• Good thermal barrier properties

Remarks:

• White
• Low impurities
• Good thermal insulating properties
• Hot corrosion resistant
• Used for thermal barrier coatings in aircraft and stationary gas turbines

Remarks:

• White
• Low impurities
• Good thermal insulating properties
• Hot corrosion resistant
• Used for thermal barrier coatings in aircraft and stationary gas turbines

Remarks:

• White
• Low impurities
• Good thermal insulating properties
• Hot corrosion resistant
• Used for thermal barrier coatings in aircraft and stationary gas turbines

Remarks:

• White
• Low impurities
• Good thermal insulating properties
• Hot corrosion resistant
• Used for thermal barrier coatings in aircraft and stationary gas turbines

Remarks:

• White
• Low impurities
• Good thermal insulating properties
• Hot corrosion resistant
• Used for thermal barrier coatings in aircraft and stationary gas turbines

Remarks:

• Advanced lowK TBC material

Remarks:

• Advanced TBC