Oxide Ceramics and Alloy Mixtures
CompositionAl2O3 30Ni
Particle size-100/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Low coefficient of friction, high conformability, heat resistance and oxidation resistance.
Oxide Ceramics and Alloy Mixtures
CompositionAl2O3 50Ni
Particle size-100/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Improved thermal conductivity, strength and impact resistance.
Oxide Ceramics and Alloy Mixtures
CompositionAl2O3 70Ni
Particle size-100/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Heat-resistant coating with high oxidation resistance.
Oxide Ceramics and Alloy Mixtures
CompositionAl2O3 30 / Ni 20Al
Particle size-100/+10 µm
Manufacturing routeBlending
Intermediate transition-layer coating near the substrate; may also be used as an abrasive coating.
Aluminum-Based Materials
CompositionAl 4-8Si 18-23BN
Particle size-315/+56 µm
Temperatureup to 450 °C
Manufacturing routeMechanical Cladding
Abradable material for turbine compressors with corrosion and erosion resistance.
EquivalentsMetco 320NS, Metco 310NS, Metco 311NS, Metco 313NS
Aluminum-Based Materials
CompositionAl 8Si 20BN 15 Graphite
Particle size-315/+56 µm
Temperatureup to 450 °C
Manufacturing routeMechanical Cladding
Abradable material for turbine compressors with corrosion and erosion resistance.
EquivalentsMetco 320NS, Metco 310NS, Metco 311NS, Metco 313NS
Aluminum-Based Materials
CompositionAl 7Si 18-23 Graphite
Particle size-315/+56 µm
Manufacturing routeMechanical Cladding
Abradable material for intermediate and rear turbine-compressor sections, balancing abradability and erosion resistance.
EquivalentsMetco 310NS
Wear-Resistant Coating Materials
CompositionB4C15Ni
Particle size-160/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
High wear resistance and resistance to erosion, abrasion, tribocorrosion, cavitation and hot corrosion.
Wear-Resistant Coating Materials
CompositionB4C20Ni
Particle size-160/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Material for valve stems, turbine components and other parts exposed to severe wear.
Wear-Resistant Coating Materials
CompositionB4C25Ni
Particle size-160/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
High wear and cavitation resistance.
Wear-Resistant Coating Materials
CompositionB4C30Ni
Particle size-160/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
High wear resistance and hot-corrosion resistance.
Chromium Carbide Materials
CompositionCr3C2 20Ni
Particle size-80/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Resistance to wear and oxidation with minimal decarburization and oxidation during spraying.
EquivalentsDiamalloy 3007
Chromium Carbide Materials
CompositionCr3C2 30Ni
Particle size-80/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
High coating density with resistance to wear and oxidation.
EquivalentsDiamalloy 3007
Chromium Carbide Materials
CompositionCr3C2 40Ni
Particle size-80/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
High coating density with resistance to wear and oxidation.
EquivalentsDiamalloy 3007
Chromium Carbide Materials
CompositionCr3C2 10(Ni 20Cr)
Particle size-45/+5 µm
Temperatureup to 900 °C
Manufacturing routeBlending
Coatings for turbine components, hot-crushing rolls, forming dies and forging equipment.
Chromium Carbide Materials
CompositionCr3C2 25(Ni 20Cr)
Particle size-45/+5 µm
Temperatureup to 900 °C
Manufacturing routeBlending
Wear- and erosion-resistant coatings.
Chromium Carbide Materials
CompositionCr3C2 25(Ni 20Cr)
Particle size-80/+40 µm
Temperatureup to 900 °C
Manufacturing routeBlending
Wear- and erosion-resistant coatings.
Chromium Carbide Materials
CompositionCr3C2 7(Ni 20Cr)
Particle size-100/+10 µm
Temperatureup to 900 °C
Manufacturing routeBlending
Coatings resistant to fretting corrosion, abrasion and solid-particle erosion.
Cermets
Composition(Cr-Ti)C 20Ni
Particle size-56/+10 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
High wear resistance and strength for high-temperature wear conditions.
Cermets
Composition(Cr-Ti)C 20Ni
Particle size-80/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Wear-resistant coatings for high-temperature service.
Cermets
Composition(Cr-Ti)C 30Ni
Particle size-56/+10 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
For components of metallurgical and power-generation equipment and gas-turbine engines.
Cermets
Composition(Cr-Ti)C 30Ni
Particle size-80/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Coatings for metallurgical and power-generation equipment.
Cermets
Composition(Cr-Ti)C 40Ni
Particle size-56/+10 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
High strength and wear resistance.
Cermets
Composition(Cr-Ti)C 40Ni
Particle size-80/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
High strength and wear resistance.
Гексагональный нитрид бора
Compositionh-BN, содержание ≥97,4%
Particle size0–40 мкм
Temperatureдо 1000 °C в воздухе; до 3000 °C в азоте и аргоне
Manufacturing routeПорошковый материал на основе соединений бора
Наполнитель, разделительный агент для литья и формовки, пресс-формование. Стабилен в воздухе до 1000 °C, в азоте и аргоне до 3000 °C.
Гексагональный нитрид бора
Compositionh-BN, содержание ≥97,7%
Particle size0–40 мкм
Temperatureдо 1000 °C в воздухе; до 3000 °C в азоте и аргоне
Manufacturing routeПорошковый материал на основе соединений бора
Наполнитель, разделительный агент для литья и формовки, пресс-формование. Стабилен в воздухе до 1000 °C, в азоте и аргоне до 3000 °C.
Гексагональный нитрид бора
Compositionh-BN, содержание ≥97,5%
Particle size0–40 мкм
Temperatureдо 1000 °C в воздухе; до 3000 °C в азоте и аргоне
Manufacturing routeПорошковый материал на основе соединений бора
Наполнитель, разделительный агент для литья и формовки, пресс-формование. Стабилен в воздухе до 1000 °C, в азоте и аргоне до 3000 °C.
Bond-Coat Materials
CompositionNi 20Al
Particle size-100/+56 µm
Temperatureup to 650 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Self-bonding coating with high adhesion. Used for restoring heat-resistant alloy components and as a bond coat.
Bond-Coat Materials
CompositionNi 20Al
Particle size-125/+45 µm
Temperatureup to 650 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Bond-coat and restoration material for heat-resistant alloy components.
Bond-Coat Materials
CompositionNi 5Al
Particle size-100/+45 µm
Temperatureup to 800 °C
Manufacturing routeMechanical Cladding and Carbonyl Nickel Coating
Dense, machinable coatings resistant to oxidation and wear. Suitable as a bond coat for ceramic and abradable materials.
Bond-Coat Materials
CompositionNi 5Al
Particle size-45/+10 µm
Temperatureup to 800 °C
Manufacturing routeChemical Cladding, Agglomeration and Carbonyl Nickel Coating
Bond-coat material for ceramic and abradable coatings.
Nickel-Based Materials
CompositionNi Al BN Si, proprietary
Particle size-315/+56 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Abradable material for turbine compressors and sealing assemblies.
Nickel-Based Materials
CompositionNi 18-22BN
Particle size-160/+45 µm
Temperatureup to 750 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Abradable material for turbine compressors. Boron nitride improves lubricity, while nickel increases erosion resistance.
Nickel-Based Materials
CompositionNi BN Si, proprietary
Particle size-315/+56 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Abradable material for turbine compressors and sealing assemblies.
Nickel-Based Materials
CompositionNi 17-22Cu 18-20BN 8.5Si 8-10 Graphite
Particle size-315/+56 µm
Temperatureup to 600 °C
Manufacturing routeMechanical Cladding
Abradable material for turbine compressors with corrosion and erosion resistance.
Nickel-Based Materials
CompositionNi 15 Graphite
Particle size-160/+45 µm
Temperatureup to 550 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Abradable material for turbine compressors with resistance to erosion and oxidation.
EquivalentsMetco 308 NS-3, Metco 309 NS-3, Metco 307 NS, Durabrade 2211ZB
Nickel-Based Materials
CompositionNi 20 Graphite
Particle size-160/+45 µm
Temperatureup to 550 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Abradable material for turbine compressors with resistance to erosion and oxidation.
EquivalentsMetco 308 NS-3, Metco 309 NS-3, Metco 307 NS, Durabrade 2211ZB
Nickel-Based Materials
CompositionNi 25 Graphite
Particle size-160/+45 µm
Temperatureup to 550 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Abradable material for turbine compressors with resistance to erosion and oxidation.
EquivalentsMetco 308 NS-3, Metco 309 NS-3, Metco 307 NS, Durabrade 2211ZB
Nickel-Based Materials
CompositionNi 40 Graphite
Particle size-160/+45 µm
Temperatureup to 550 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Abradable material for turbine compressors. The high graphite content improves lubricity.
EquivalentsMetco 308 NS-3, Metco 309 NS-3, Metco 307 NS, Durabrade 2211ZB
Wear-Resistant Coating Materials
CompositionTiC 20Ni
Particle size-80/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
High wear resistance and coating hardness for high-temperature wear in oxidizing atmospheres.
Wear-Resistant Coating Materials
CompositionTiC 30Ni
Particle size-80/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
For components of metallurgical and power-generation equipment and gas-turbine engines.
Wear-Resistant Coating Materials
CompositionTiC 40Ni
Particle size-80/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Suitable for high-temperature wear in oxidizing atmospheres.
Tungsten Carbide Materials
CompositionWC 10Ni
Particle size-40/+10 µm
Temperatureup to 500 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Resistance to impact wear, fretting corrosion, abrasion and sliding wear.
Tungsten Carbide Materials
CompositionWC 10Ni
Particle size-80/+40 µm
Temperatureup to 500 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Coatings for oilfield equipment and industrial shut-off valves.
Tungsten Carbide Materials
CompositionWC 20Ni
Particle size-40/+10 µm
Temperatureup to 500 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
For ball valves, gate valves and oilfield equipment.
Tungsten Carbide Materials
CompositionWC 20Ni
Particle size-80/+40 µm
Temperatureup to 500 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Increasing the nickel content improves coating toughness.
Tungsten Carbide Materials
CompositionWC 30Ni
Particle size-40/+10 µm
Temperatureup to 500 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
More corrosion-resistant and tougher than WC-Co, with lower hardness.
Tungsten Carbide Materials
CompositionWC 30Ni
Particle size-80/+40 µm
Temperatureup to 500 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Resistance to impact wear and sliding wear.
Tungsten Carbide Materials
CompositionWC 40Ni
Particle size-80/+40 µm
Temperatureup to 500 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Higher nickel content provides increased coating toughness.
Tungsten Carbide Materials
CompositionWC 50Ni
Particle size-80/+40 µm
Temperatureup to 500 °C
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Tough coating for impact-wear and sliding-wear conditions.
Oxide Ceramics and Alloy Mixtures
CompositionZrO2 8Y2O3
Particle size-125/+11 µm
Temperatureup to 1250 °C
Manufacturing routeAgglomerated and Spheroidized
Thermal-barrier coatings with a coating melting temperature up to 2800 °C.
EquivalentsMetco 204 NS
Oxide Ceramics and Alloy Mixtures
CompositionZrO2 8Y2O3 30Ni
Particle size-100/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Refractory and thermal-barrier coatings with improved ceramic-to-metal adhesion.
Oxide Ceramics and Alloy Mixtures
CompositionZrO2 8Y2O3 35Ni
Particle size-100/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Thermal-barrier coatings with improved mechanical properties.
Oxide Ceramics and Alloy Mixtures
CompositionZrO2 8Y2O3 40Ni
Particle size-100/+40 µm
Manufacturing routeChemical Cladding and Carbonyl Nickel Coating
Heat-resistant coating with high resistance to oxidation and aggressive environments.
Oxide Ceramics and Alloy Mixtures
CompositionZrO2 8Y2O3 7.2-8.2
Particle size15/45 µm; 22/63 µm; 50/80 µm
Manufacturing routeAgglomeration and Sintering
Plasma spraying of thermal-barrier coatings with enhanced thermal-cycling resistance.
Abradable Ceramics
CompositionZrO2 10Dy2O3
Particle size-125/+10 µm
Temperatureup to 1150 °C
Manufacturing routeAgglomeration and Sintering
Dense erosion-resistant coating for turbine hot sections.
Abradable Ceramics
CompositionZrO2 7.5Y2O3 0.7BN 4.5 Polyester
Particle size-180/+10 µm
Temperatureup to 1150 °C
Manufacturing routeAgglomeration, Sintering and Blending
Abradable material for turbine hot sections.
Abradable Ceramics
CompositionZrO2 7.5Y2O3 4 Polyester
Particle size-180/+10 µm
Manufacturing routeAgglomeration
Abradable ceramic for hot zones and specialized operating conditions.
Abradable Ceramics
CompositionZrO2 9.5Dy2O3 0.7BN 4.5 Polyester
Particle size-180/+10 µm
Temperatureup to 1150 °C
Manufacturing routeAgglomeration, Sintering and Blending
Abradable material for turbine hot sections. The polymer phase controls coating porosity.
