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Atmospheric plasma spraying powders

Höganäs thermal spray powders for atmospheric plasma spraying (APS) deposition technique.

Amperit® MCrAlY powders

MCrAlY (NiCrAlY) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni 22Cr 10Al 1Y 
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used on turbine blades, etc.
 
     

 

MCrAlY (NiCrAlY) thermal spray powders

Particle size: 45/5 µm
Chemistry: Ni 22Cr 10Al 1Y 
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used on turbine blades, etc.
 
     

 

MCrAlY (NiCrAlY) thermal spray powders

Particle size: 125/45 µm
Chemistry: Ni 22Cr 10Al 1Y 
Powder type: Gas atomised
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used on turbine blades, etc.
 
     

 

MCrAlY (CoNiCrAlY) thermal spray powders

Particle size: 45/22 µm
Chemistry: Co 32Ni 21Cr 8Al 0.5Y 
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Correspond to GE B50AG5 and Safran LA657 PE1
  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used as bond coats for TBCs, etc.
 
     

 

MCrAlY (CoNiCrAlY) thermal spray powders

Particle size: 90/45 µm
Chemistry: Co 32Ni 21Cr 8Al 0.5Y 
Powder type: Gas atomised
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used as bond coats for TBCs, etc.
 
     

 

MCrAlY (CoNiCrAlY) thermal spray powders

Particle size: 125/45 µm
Chemistry: Co 32Ni 21Cr 8Al 0.5Y 
Powder type: Gas atomised
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used as bond coats for TBCs, etc.
 
     

 

MCrAlY (CoNiCrAlY) thermal spray powders

Particle size: 38/10 µm
Chemistry: Co 32Ni 21Cr 8Al 0.5Y 
Powder type: Gas atomised
Suitable for deposition techniques: Cold spraying, HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used as bond coats for TBCs, etc.
 
     

 

MCrAlY (CoNiCrAlY) thermal spray powders

Particle size: 90/53 µm
Chemistry: Co 32Ni 21Cr 8Al 0.5Y 
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used as bond coats for TBCs, etc.
 
     

 

MCrAlY (NiCoCrAlYHfSi) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni 22Co 17Cr 12.5Al 0.6Y 0.2Hf 0.4Si 
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used as bond coats for TBCs, etc.
 
     

 

MCrAlY (NiCoCrAlYHfSi) thermal spray powders

Particle size: 90/45 µm
Chemistry: Ni 22Co 17Cr 12.5Al 0.6Y 0.2Hf 0.4Si 
Powder type: Gas atomised
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used as bond coats for TBCs, etc.
 
     

 

MCrAlY (NiCoCrAlYHfSi) thermal spray powders

Particle size: 125/45 µm
Chemistry: Ni 22Co 17Cr 12.5Al 0.6Y 0.2Hf 0.4Si 
Powder type: Gas atomised
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used as bond coats for TBCs, etc.
 
     

 

MCrAlY (NiCoCrAlYHfSi) thermal spray powders

Particle size: 38/10 µm
Chemistry: Ni 22Co 17Cr 12.5Al 0.6Y 0.2Hf 0.4Si 
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used as bond coats for TBCs, etc.
 
     

 

MCrAlY (NiCoCrAlY) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni 23Co 17Cr 12.5Al 0.5Y 
Powder type: Gas atomised
Suitable for deposition techniques: Cold spraying, HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used on turbine blades, etc.
 
     

 

MCrAlY (NiCoCrAlY) thermal spray powders

Particle size: 45/15 µm
Chemistry: Ni 23Co 17Cr 12.5Al 0.5Y 
Powder type: Gas atomised
Suitable for deposition techniques: Cold spraying, HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Stable at high temperatures in hot corrosive or oxidising environments
  • Used on turbine blades, etc.
 
     

 

MCrAlY (NiCoCrAlTaReY) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni 18Cr 10Co 6.5Al 6Ta 2Re 0.3Y 1Si 0.5Hf 
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Ta and Re containing MCrAlY for improved hot gas corrosion resistance
  • MCrAlY for stationary gas turbine applications
  • Availability only to OEM approved users
 
     

 

MCrAlY (NiCoCrAlTaReY) thermal spray powders

Particle size: 38/15 µm
Chemistry: Ni 18Cr 10Co 6.5Al 6Ta 2Re 0.3Y 1Si 0.5Hf 
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Ta and Re containing MCrAlY for improved hot gas corrosion resistance
  • MCrAlY for stationary gas turbine applications
  • Availability only to OEM approved users
 
     

 

Amperit® molybdemum (Mo) based

Molybdenum (Mo) thermal spray powders

Particle size: 90/45 µm
Chemistry: Mo pure
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • C max. 0.2%
  • Tough coatings with acceptable hardness and excellent sliding properties
  • Good bond strength
  • Used for valves, synchronisers, piston rings, pump parts, etc.
 
     

 

Molybdenum (Mo) thermal spray powders

Particle size: 45/15 µm
Chemistry: Mo pure
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • C max. 0.2%
  • Tough coatings with acceptable hardness and excellent sliding properties
  • Good bond strength
  • Used for valves, synchronisers, piston rings, pump parts, etc.
 
     

 

Molybdenum (Mo) thermal spray powders

Particle size: 90/45 µm
Chemistry: Mo pure
Powder type: Sintered and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • Dense blocky grains
  • Tough coatings with acceptable hardness and excellent sliding properties
  • Good bond strength
  • Used for valves, synchronisers, piston rings, pump parts, etc.
 
     

 

Molybdenum (Mo) thermal spray powders

Particle size: 53/10 µm
Chemistry: Mo pure
Powder type: Sintered and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • Dense blocky grains
  • Tough coatings with acceptable hardness and excellent sliding properties
  • Good bond strength
  • Used for valves, synchronisers, piston rings, pump parts, etc.
 
     

 

Molybdenum (Mo) thermal spray powders

Particle size: 75/45 µm
Chemistry: Mo pure
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • C max. 1%
  • See Amperit 105
 
     

 

Molybdenum silicide (MoSi) thermal spray powders

Particle size: 45/10 µm
Chemistry: MoSi2
Powder type: Sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • C max. 0.2%
  • Tough coatings with acceptable hardness and excellent sliding properties
  • Good bond strength
  • Used for valves, synchronisers, piston rings, pump parts, etc.
 
     

 

Amperit® nickel (Ni) based powders

Nickel based (NiCr) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni 20Cr
Powder type: Water atomised
Suitable for deposition techniques: Cold spraying, HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Oxidation and corrosion resistant
  • Good machinability
  • Used for repair, bond coat and corrosion protection
 
     

 

Nickel based (NiCr) thermal spray powders

Particle size: 90/45 µm
Chemistry: Ni 20Cr
Powder type: Water atomised
Suitable for deposition techniques: Atmospheric plasma spraying (APS), flame spraying

     
 

Remarks:

  • Oxidation and corrosion resistant
  • Good machinability
  • Used for repair, bond coat and corrosion protection
 
     

 

Nickel based (NiCr) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni 20Cr
Powder type: Water atomised
Suitable for deposition techniques: Cold spraying, Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Oxidation and corrosion resistant
  • Good machinability
  • Used for repair, bond coat and corrosion protection
 
     

 

Nickel based (NiCr) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni 20Cr
Powder type: Gas atomised
Suitable for deposition techniques: Cold spraying, HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Spherical alternative to Amperit 250
  • Better flowability
 
     

 

Nickel based (NiCr) thermal spray powders

Particle size: 90/45 µm
Chemistry: Ni 20Cr
Powder type: Gas atomised
Suitable for deposition techniques: Atmospheric plasma spraying (APS), flame spraying

     
 

Remarks:

  • Spherical alternative to Amperit 250
  • Better flowability
 
     

 

Nickel based (NiCr) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni 20Cr
Powder type: Gas atomised
Suitable for deposition techniques: Cold spraying, Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Spherical alternative to Amperit 250
  • Better flowability
 
     

 

Nickel based (NiAl) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni 5Al
Powder type: Water atomised
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Oxidation and abrasion resistant
  • Excellent machinability
 
     

 

Nickel based (NiAl) thermal spray powders

Particle size: 90/45 µm
Chemistry: Ni 5Al
Powder type: Water atomised
Suitable for deposition techniques: Atmospheric plasma spraying (APS), flame spraying

     
 

Remarks:

  • Oxidation and abrasion resistant
  • Excellent machinability
 
     

 

Nickel based (NiAl) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni 5Al
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, HVAF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Spherical alternative to Amperit 280
  • Better flowability
 
     

 

Nickel based (NiAl) thermal spray powders

Particle size: 90/45 µm
Chemistry: Ni 5Al
Powder type: Gas atomised
Suitable for deposition techniques: Atmospheric plasma spraying (APS), flame spraying

     
 

Remarks:

  • Spherical alternative to Amperit 280
  • Better flowability
 
     

 

Nickel based (NiAl) thermal spray powders

Particle size: 45/5 µm
Chemistry: Ni 5Al
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, HVAF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Spherical alternative to Amperit 280
  • Better flowability
 
     

 

Nickel based (NiAl) thermal spray powders

Particle size: 45/5 µm
Chemistry: Ni 31Al
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Used as bond coat for various applications
  • Good corrosion resistance
  • High bond strength
 
     

 

Nickel based (NiAl) thermal spray powders

Particle size: 20/5 µm
Chemistry: Ni 31Al
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Used as bond coat for various applications
  • Good corrosion resistance
  • High bond strength
 
     

 

Nickel based (NiAl) thermal spray powders

Particle size: 30/5 µm
Chemistry: Ni 31Al 
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Used as bond coat for various applications
  • Good corrosion resistance
  • High bond strength
 
     

 

Nickel based (NiCrMoNb) thermal spray powders

Particle size: 90/45 µm
Chemistry: Ni 21Cr 9Mo 4Nb
Powder type: Gas atomised
Suitable for deposition techniques: Atmospheric plasma spraying (APS), cold spraying

     
 

Remarks:

  • Excellent oxidation and corrosion resistance
  • Used in boilers and in chemical industry
  • Ni Superalloy 625
 
     

 

Nickel based (NiCrMoNb) thermal spray powders

Particle size: 45/15 µm
Chemistry: Ni 21Cr 9Mo 4Nb
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, HVAF, atmospheric plasma spraying (APS), cold spraying

     
 

Remarks:

  • Excellent oxidation and corrosion resistance
  • Used in boilers and in chemical industry
  • Ni Superalloy 625
 
     

 

Nickel based (NiCrMoNb) thermal spray powders

Particle size: 53/20 µm
Chemistry: Ni 21Cr 9Mo 4Nb
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS), cold spraying

     
 

Remarks:

  • Excellent oxidation and corrosion resistance
  • Used in boilers and in chemical industry
  • Ni Superalloy 625
 
     

 

Nickel based (NiCrMoNbAlTi) thermal spray powders

Particle size: 53/20 µm
Chemistry: Ni 19Cr 3.1Mo 5.1Nb 0.6Al 0.9Ti     
Powder type: Gas atomised
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS), cold spraying

     
 

Remarks:

  • Excellent for corrosion resistant coatings
  • Hardenable
  • Very good for high temperature applications
  • Used in turbines and chemical equipment
  • Ni Superalloy 718
 
     

 

Nickel (Ni) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni pure
Powder type: Water atomised
Suitable for deposition techniques: Cold spraying,HVOF, Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Good corrosion protection
  • Repair and bond coat for Ni-based alloys
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Skin sens. 1; Eye irrit. 2; Aquatic chronic 3; Carc. 2; STOT RE 1.

Nickel (Ni) thermal spray powders

Particle size: 90/45 µm
Chemistry: Ni pure
Powder type: Water atomised
Suitable for deposition techniques: HVOF, Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Good corrosion protection
  • Repair and bond coat for Ni-based alloys
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Skin sens. 1; Eye irrit. 2; Aquatic chronic 3; Carc. 2; STOT RE 1.

Nickel (Ni) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni pure
Powder type: Gas atomised
Suitable for deposition techniques: Cold spraying, HVOF, HVAF, Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Repair and build-up for Ni-based alloy components
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Skin sens. 1; Eye irrit. 2; Aquatic chronic 3; Carc. 2; STOT RE 1.

Nickel (Ni) thermal spray powders

Particle size: 35/15 µm
Chemistry: Ni pure
Powder type: Gas atomised
Suitable for deposition techniques: Cold spraying, HVOF, HVAF, Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Repair and build-up for Ni-based alloy components
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Skin sens. 1; Eye irrit. 2; Aquatic chronic 3; Carc. 2; STOT RE 1.

Amperit® pure metals, alloys & other material powders

Molybdenum (Mo) thermal spray powders

Particle size: 90/45 µm
Chemistry: Mo pure
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • C max. 0.2%
  • Tough coatings with acceptable hardness and excellent sliding properties
  • Good bond strength
  • Used for valves, synchronisers, piston rings, pump parts, etc.
 
     

 

Molybdenum (Mo) thermal spray powders

Particle size: 45/15 µm
Chemistry: Mo pure
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • C max. 0.2%
  • Tough coatings with acceptable hardness and excellent sliding properties
  • Good bond strength
  • Used for valves, synchronisers, piston rings, pump parts, etc.
 
     

 

Molybdenum (Mo) thermal spray powders

Particle size: 90/45 µm
Chemistry: Mo pure
Powder type: Sintered and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • Dense blocky grains
  • Tough coatings with acceptable hardness and excellent sliding properties
  • Good bond strength
  • Used for valves, synchronisers, piston rings, pump parts, etc.
 
     

 

Molybdenum (Mo) thermal spray powders

Particle size: 53/10 µm
Chemistry: Mo pure
Powder type: Sintered and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • Dense blocky grains
  • Tough coatings with acceptable hardness and excellent sliding properties
  • Good bond strength
  • Used for valves, synchronisers, piston rings, pump parts, etc.
 
     

 

Molybdenum (Mo) thermal spray powders

Particle size: 75/45 µm
Chemistry: Mo pure
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • C max. 1%
  • See Amperit 105
 
     

 

Tantalum (Ta) thermal spray powders

Particle size: 90/45 µm
Chemistry: Ta pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Corrosion protection for chemical equipment against acids
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Flam. Sol 1.

Tantalum (Ta) thermal spray powders

Particle size: 45/15 µm
Chemistry: Ta pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Corrosion protection for chemical equipment against acids
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Flam. Sol 1.

Titanium (Ti) thermal spray powders

Particle size: 90/16 µm
Chemistry: Ti pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Good corrosion resistance against salt water, Cl containing solutions and oxidising acid solutions
  • High purity
  • Conforms to ASTM F-1580
  • Material for biomedical applications
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Flam. Sol 1.

Titanium (Ti) thermal spray powders

Particle size: 125/90 µm
Chemistry: Ti pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Good corrosion resistance against salt water, Cl containing solutions and oxidising acid solutions
  • High purity
  • Conforms to ASTM F-1580
  • Material for biomedical applications
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Flam. Sol 1.

Titanium (Ti) thermal spray powders

Particle size: 355/200 µm
Chemistry: Ti pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Good corrosion resistance against salt water, Cl containing solutions and oxidising acid solutions
  • High purity
  • Conforms to ASTM F-1580
  • Material for biomedical applications
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Flam. Sol 1.

Titanium (Ti) thermal spray powders

Particle size: <63 µm
Chemistry: Ti pure
Powder type: Fused and crushed
Suitable for deposition techniques: Cold spraying, Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Good corrosion resistance against salt water, Cl containing solutions and oxidising acid solutions
  • Material for biomedical applications
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Flam. Sol 1.

Titanium (Ti) thermal spray powders

Particle size: 125/90 µm
Chemistry: Ti pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS), VPS/LPPS

     
 

Remarks:

  • Good corrosion resistance against salt water, Cl containing solutions and oxidising acid solutions
  • Material for biomedical applications
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Flam. Sol 1.

Silicon (Si) thermal spray powders

Particle size: 75/20 µm
Chemistry: Si pure
Powder type: Fused and crushed
Suitable for deposition techniques:Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Bond coat for EBC coatings

 
     

 

Silicon (Si) thermal spray powders

Particle size: 75/20 µm
Chemistry: Si pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • High Purity
 
     

 

Nickel (Ni) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni pure
Powder type: Water atomised
Suitable for deposition techniques: Cold spraying,HVOF, Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Good corrosion protection
  • Repair and bond coat for Ni-based alloys
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Skin sens. 1; Eye irrit. 2; Aquatic chronic 3; Carc. 2; STOT RE 1.

Nickel (Ni) thermal spray powders

Particle size: 90/45 µm
Chemistry: Ni pure
Powder type: Water atomised
Suitable for deposition techniques: HVOF, Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Good corrosion protection
  • Repair and bond coat for Ni-based alloys
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Skin sens. 1; Eye irrit. 2; Aquatic chronic 3; Carc. 2; STOT RE 1.

Nickel (Ni) thermal spray powders

Particle size: 45/22 µm
Chemistry: Ni pure
Powder type: Gas atomised
Suitable for deposition techniques: Cold spraying, HVOF, HVAF, Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Repair and build-up for Ni-based alloy components
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Skin sens. 1; Eye irrit. 2; Aquatic chronic 3; Carc. 2; STOT RE 1.

Nickel (Ni) thermal spray powders

Particle size: 35/15 µm
Chemistry: Ni pure
Powder type: Gas atomised
Suitable for deposition techniques: Cold spraying, HVOF, HVAF, Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Repair and build-up for Ni-based alloy components
 
     

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Skin sens. 1; Eye irrit. 2; Aquatic chronic 3; Carc. 2; STOT RE 1.

Polyester thermal spray powders

Particle size: 125/45 µm
Chemistry: Aromatic polyester
Powder type: -
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Only on request
 
     

 

AlSi-polyester thermal spray powders

Particle size: 125/10 µm
Chemistry: AlSi 40Polyester
Powder type: Mix of AlSi12 and polyester
Suitable for deposition techniques:Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Only on request
 
     

 

AlSi-polyester thermal spray powders

Particle size: 125/38 µm
Chemistry: AlSi 40Polyester
Powder type: Mix of AlSi12 and polyester
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Only on request
 
     

 

Blended thermal spray powders

Particle size: 45/10 µm
Chemistry: CoNiCrAlY-CrC-CrB2-Y2O3 (43-25-7-25)  
Powder type: Blended
Suitable for deposition techniques: Atmospheric plasma spraying (APS), HVOF

     
 

Remarks:

  • Excellent build-up resistance, good wear resistance at high temperature and thermal shock resistance
  • Target application is furnace rolls in steel sheet annealing
 
     

 

Molybdenum silicide (MoSi) thermal spray powders

Particle size: 45/10 µm
Chemistry: MoSi2
Powder type: Sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 320 °C (in oxidising atmospheres)
  • C max. 0.2%
  • Tough coatings with acceptable hardness and excellent sliding properties
  • Good bond strength
  • Used for valves, synchronisers, piston rings, pump parts, etc.
 
     

 

Amperit® chromium carbide (CrC) powders

Chromium carbides (CrC-NiCr) thermal spray powders

Particle size: 45/10 µm
Chemistry: Cr3C2 25(Ni 20Cr)
Powder type: Agglomerated and sintered
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Medium carbide
  • Max. operating temperature 870 °C
  • For dense oxidation and erosion resistant coatings
  • Good cavitation resistance
  • Hot gas corrosion resistant
  • Used for valve stems, turbine components, fuel rod mandrels, furnace rolls, hydraulic rods, etc.
 
     

 

Chromium carbides (CrC-NiCr) thermal spray powders

Particle size: 45/5 µm
Chemistry: Cr3C2 25(Ni 20Cr)
Powder type: Blended
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Coarse dense carbide
  • Max. operating temperature 870 °C
  • Good oxidation, abrasion, particle erosion, fretting and cavitation resistance
  • Hot gas corrosion resistant
  • Used in pump housing, machine parts, hydraulic valves, tooling, hot forming dies, etc.
 
     

 

Chromium carbides (CrC-based others) thermal spray powders

Particle size: 45/15 µm
Chemistry: Cr3C2 25(9.5Co 7.8Ni 5.6Cr 2Al 0.1Y)
Powder type: Agglomerated and sintered
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Max. operating temperature 870 °C
  • Special product for applications at high temperatures such as furnace rolls in steel industry
 
     

 

Amperit® tungsten carbide (WC) powders

Tungsten carbides (WC-Co) thermal spray powders

Particle size: 53/20 µm
Chemistry: WC 12Co
Powder type: Agglomerated and sintered
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Coarse WC
  • Low C content: 3.6-4.1%
  • Specially developed for Zn bath rolls in continuous galvanising lines (CGL)
  • Typically applied with sealer
 
     

 

Tungsten carbides (WC-Co) thermal spray powders

Particle size: 45/22 µm
Chemistry: WC 12Co
Powder type: Sintered and crushed
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Very coarse WC
  • Blocky particle shape
  • C: 3.9-4.3%
  • Hard, dense coatings with good abrasion, erosion and sliding wear resistance
  • Used for machine parts, etc.
 
     

 

Tungsten carbides (WC-Co) thermal spray powders

Particle size: 90/45 µm
Chemistry: WC 12Co
Powder type: Sintered and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Very coarse WC
  • Blocky particle shape
  • C: 3.9-4.3%
  • Hard, dense coatings with good abrasion, erosion and sliding wear resistance
  • Used for machine parts, etc.
 
     

 

Tungsten carbides (WC-Co) thermal spray powders

Particle size: 45/15 µm
Chemistry: WC 12Co
Powder type: Sintered and crushed
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Very coarse WC
  • Blocky particle shape
  • C: 3.9-4.3%
  • Hard, dense coatings with good abrasion, erosion and sliding wear resistance
  • Used for machine parts, etc.
 
     

 

Tungsten carbides (WC-Co) thermal spray powders

Particle size: 90/45 µm
Chemistry: WC 12Co
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Medium WC
  • Max. operating temperature 500 °C
  • Hard, dense coatings with good abrasion, erosion and sliding wear resistance
  • Smooth coatings with fine microstructure and high bond strengths
  • Used for general wear, paper rolls, corrugated rolls, wire drawing equipment, fan and compressor blades, pump seals and housing, machine parts, process rolls in steel production, etc.
 
     

 

Tungsten carbides (WC-Co) thermal spray powders

Particle size: 53/10 µm
Chemistry: WC 17Co
Powder type: Agglomerated and sintered
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Coarse WC
  • Max. operating temperature 500 °C
  • Higher ductility than WC 12Co due to higher Co content
  • Hard, dense coatings with low sliding wear and high impact resistance
  • Protection against fretting and abrasion
  • Used in aviation applications (fan and compressor blades, mid-span stiffeners, flap tracks, etc.), extrusion dies, glass industry, paper mill rolls, pump parts, wire drawing equipment, etc.
 
     

 

Tungsten carbides (WC-Co) thermal spray powders

Particle size: 63/32 µm
Chemistry: WC 17Co
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Coarse WC
  • Max. operating temperature 500 °C
  • Higher ductility than WC 12Co due to higher Co content
  • Hard, dense coatings with low sliding wear and high impact resistance
  • Protection against fretting and abrasion
  • Used in aviation applications (fan and compressor blades, mid-span stiffeners, flap tracks, etc.), extrusion dies, glass industry, paper mill rolls, pump parts, wire drawing equipment, etc.
 
     

 

Tungsten carbides (WC-Co) thermal spray powders

Particle size: 53/20 µm
Chemistry: WC 17Co
Powder type: Agglomerated and sintered
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Coarse WC
  • Max. operating temperature 500 °C
  • Higher ductility than WC 12Co due to higher Co content
  • Hard, dense coatings with low sliding wear and high impact resistance
  • Protection against fretting and abrasion
  • Used in aviation applications (fan and compressor blades, mid-span stiffeners, flap tracks, etc.), extrusion dies, glass industry, paper mill rolls, pump parts, wire drawing equipment, etc.
 
     

 

Tungsten carbides (WC-Co-Cr) thermal spray powders

Particle size: 45/15 µm
Chemistry: WC 10Co 4Cr
Powder type: Sintered and crushed
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Medium WC
  • C: 5-6%
  • Max. operating temperature 500 °C
  • CoCr matrix shows higher corrosion and abrasion resistance than Co matrix
  • Hard chrome replacement
  • Used for cylinder rods, ball valves, oil field equipment, steel process rolls, etc.
 
     

 

Tungsten carbides (WC-CrC-Ni) thermal spray powders

Particle size: 53/20 µm
Chemistry: WC 20CrC 7Ni
Powder type: Agglomerated and sintered
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Fine WC
  • Max. operating temperature 750 °C
  • Higher oxidation and corrosion resistance than pure WC-Ni or WC-Co based coatings
  • Smooth coatings with fine microstructure and high bond strengths
  • Used for mud pump rotors, ball and gate valves, pump rotors, furnace rolls in steel production, seal rings, etc.
 
     

 

Tungsten carbides (WC-Co-Cr) thermal spray powders

Particle size: 45/15 µm
Chemistry: WC 10Co 4Cr
Powder type: Agglomerated and sintered
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Fine WC
  • Max. operating temperature 500 °C
  • CoCr matrix shows higher corrosion and abrasion resistance than Co matrix
  • Useable in water based solutions and wet corrosive environments
  • Smooth coatings with fine microstructure and high bond strengths
  • Hard chrome replacement
  • Used for paper rolls, corrugated rolls, gate and ball valves, hydraulic cylinders, compressor shafts, mud pump rotors, process rolls in steel production
  • Finer particle size available only on request
 
     

 

Tungsten carbides (WC-Co-Cr) thermal spray powders

Particle size: 53/20 µm
Chemistry: WC 10Co 4Cr
Powder type: Agglomerated and sintered
Suitable for deposition techniques: HVOF, atmospheric plasma spraying (APS)

     
 

Remarks:

  • Fine WC
  • Max. operating temperature 500 °C
  • CoCr matrix shows higher corrosion and abrasion resistance than Co matrix
  • Useable in water based solutions and wet corrosive environments
  • Smooth coatings with fine microstructure and high bond strengths
  • Hard chrome replacement
  • Used for paper rolls, corrugated rolls, gate and ball valves, hydraulic cylinders, compressor shafts, mud pump rotors, process rolls in steel production
  • Finer particle size available only on request
 
     

 

Amperit® aluminium (Al)/titanium (Ti) oxide powders

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 22/5 µm
Chemistry: Al2O3 pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 45/22 µm
Chemistry: Al2O3 pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 90/45 µm
Chemistry: Al2O3 pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 45/5 µm
Chemistry: Al2O3 pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 20/5 µm
Chemistry: Al2O3 pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: <5 µm
Chemistry: Al2O3 pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 45/22 µm
Chemistry: Al2O3 3TiO2
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 30/5 µm
Chemistry: Al2O3 3TiO2
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 35/15 µm
Chemistry: Al2O3 3TiO2
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 45/22 µm
Chemistry: Al2O3 13TiO2
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Compared with Amperit 742 less hard and corrosion resistant
 
     

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 45/5 µm
Chemistry: Al2O3 13TiO2
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Compared with Amperit 742 less hard and corrosion resistant
 
     

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 45/22 µm
Chemistry: Al2O3 40TiO2
Powder type: Blended
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 45/5 µm
Chemistry: Al2O3 40TiO2
Powder type: Blended
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 20/5 µm
Chemistry: Al2O3 40TiO2
Powder type: Blended
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 40/10 µm
Chemistry: Al2O3 28SiO2
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Mullite
 
     

 

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 45/22 µm
Chemistry: TiO2 pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Carc. 2.

Aluminium (Al)/titanium (Ti) oxides thermal spray powders

Particle size: 45/10 µm
Chemistry: TiO2 pure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

Hazards identification in advertising (REGULATION (EC) No 1272/2008 article 48): Carc. 2.

Amperit® chromium (Cr) oxide powders

Chromium (Cr) oxides thermal spray powders

Particle size: 45/22 µm
Chemistry: Cr2Opure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Chromium (Cr) oxides thermal spray powders

Particle size: 25/10 µm
Chemistry: Cr2Opure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Chromium (Cr) oxides thermal spray powders

Particle size: 45/10 µm
Chemistry: Cr2Opure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Chromium (Cr) oxides thermal spray powders

Particle size: 22/5 µm
Chemistry: Cr2Opure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Chromium (Cr) oxides thermal spray powders

Particle size: 45/22 µm
Chemistry: Cr2Opure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Chromium (Cr) oxides thermal spray powders

Particle size: 25/10 µm
Chemistry: Cr2Opure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Chromium (Cr) oxides thermal spray powders

Particle size: 45/10 µm
Chemistry: Cr2Opure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Chromium (Cr) oxides thermal spray powders

Particle size: 38/10 µm
Chemistry: Cr2Opure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Chromium (Cr) oxides thermal spray powders

Particle size: 45/15 µm
Chemistry: Cr2Opure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Chromium (Cr) oxides thermal spray powders

Particle size: 75/25 µm
Chemistry: Cr2Opure
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Chromium (Cr) oxides thermal spray powders

Particle size: 25/10 µm
Chemistry: Cr2O25TiO2
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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)
 
     

 

Chromium (Cr) oxides thermal spray powders

Particle size: 45/15 µm
Chemistry: Cr2O25TiO2
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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)
 
     

 

Chromium (Cr) oxides thermal spray powders

Particle size: 45/15 µm
Chemistry: Cr2O3TiO5SiO2
Powder type: Blended
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Chromium (Cr) oxides thermal spray powders

Particle size: 53/15 µm
Chemistry: Cr2O3TiO5SiO2
Powder type: Blended
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Amperit® zirconium (Zr) oxide powders

Zirconium (Zr) oxides thermal spray powders

Particle size: 125/45 µm
Chemistry: ZrO2 7Y2O3
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • White / HP / low norm
 
     

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 22/5 µm
Chemistry: ZrO2 7Y2O3
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • White / DVCs
  • Blocky particle shape
 
     

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 45/22 µm
Chemistry: ZrO2 7Y2O3
Powder type: Fused and crushed
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 125/45 µm
Chemistry: ZrO2 7Y2O3
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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
 
     

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 90/16 µm
Chemistry: ZrO2 7Y2O3
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 45/10 µm
Chemistry: ZrO2 7Y2O3
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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)
 
     

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 125/38 µm
Chemistry: ZrO2 7Y2O3
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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.
 
     

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 125/45 µm
Chemistry: ZrO2 7Y2O3
Powder type: Plasma spherodised/HOSP
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 90/16 µm
Chemistry: ZrO2 7Y2O3
Powder type: Plasma spherodised/HOSP
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 75/45 µm
Chemistry: ZrO2 7Y2O3
Powder type: Plasma spherodised/HOSP
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 45/10 µm
Chemistry: ZrO2 7Y2O3
Powder type: Plasma spherodised/HOSP
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 125/10 µm
Chemistry: ZrO2 7Y2O3
Powder type: Plasma spherodised/HOSP
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

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

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 125/45 µm
Chemistry: ZrO2 10Gd  10Yb 2Y
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Advanced lowK TBC material
 
     

 

Zirconium (Zr) oxides thermal spray powders

Particle size: 125/45 µm
Chemistry: Gd 2Zr2O7
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

Remarks:

  • Advanced TBC
 
     

 

Amperit® yttrium (Y) oxide powders

Other oxides thermal spray powders

Particle size: 45/10 µm
Chemistry: Y2O3 pure
Powder type: Agglomerated and sintered
Suitable for deposition techniques: Atmospheric plasma spraying (APS)

     
 

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)
 
     

 

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