Carbide high velocity oxy-fuel (HVOF) powders

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, etc.

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, etc.

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.

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.

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.

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.

Remarks:

• Medium carbide, but finer than Amperit 584
• 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.

Remarks:

• Medium carbide, but finer than Amperit 584
• 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.

Remarks:

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

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

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

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

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.

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.

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.

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.

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.

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.

Remarks:

• Fine WC
• Higher apparent density than Amperit 518
• Designed for higher deposition efficiency when sprayed with kerosene HVOF systems
• See Amperit 518 or:
• 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.

Remarks:

• Fine WC
• Higher apparent density than Amperit 518
• Designed for higher deposition efficiency when sprayed with kerosene HVOF systems
• See Amperit 518 or:
• 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.

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.

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.

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.

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.

Remarks:

• Nanometric WC
• For nano structured coatings with superior surface finish
• Excellent wear resistance against media containing micron and submicron sized abrasives
• Developed for applications in paper and foil industry such as calender rolls, coater blades, film rolls

Remarks:

• Nanometric WC
• For nano structured coatings with superior surface finish
• Excellent wear resistance against media containing micron and submicron sized abrasives
• Developed for applications in paper and foil industry such as calender rolls, coater blades, film rolls

Remarks:

• Coarse WC
• For dense coatings with superior impact and cavitation resistance
• Specially designed for applications in hydro-power

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.
• Suitable for thin, dense and smooth coatings as economic hard chrome replacement with superior wear performance applied e.g. by HVAF, ID-HVOF/HVAF

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.

Remarks:

• Submicron WC
• For excellent surface finish
• Developed for applications in paper and foil industry such as calender rolls or coater blades

Remarks:

• Submicron WC
• For excellent surface finish
• Developed for applications in paper and foil industry such as calender rolls or coater blades

Remarks:

• Medium WC
• For coatings on valve components working in high pressure and salt water environments, e.g. in submarine oil & gas fields
• For cavitation resistance coatings and impact tolerance, e.g. on hydroturbine runners, see Amperit 558

Remarks:

• Medium WC
• For coatings on valve components working in high pressure and salt water environments, e.g. in submarine oil & gas fields
• For cavitation resistance coatings and impact tolerance, e.g. on hydroturbine runners, see Amperit 558

Remarks:

• Fine WC
• Max. operating temperature 500 °C
• Higher corrosion resistance than WC-Co and better ductility
• Typical applications are oil field equipment, ball and gate valves

Remarks:

• Fine WC
• Max. operating temperature 750 °C
• Dense and ductile coatings with high cavitation resistance for pump and valve parts, piston rods
• Economical alternative to WC-Co-Cr for selected applications

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.

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.

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.

Remarks:

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

Remarks:

• Medium WC
• Alternative to WC-Co-Cr
• For very dense and ductile coatings with good abrasion, erosion and sliding wear resistance
• Excellent corrosion resistance in seawater, diluted mineral and organic acids
• Used for parts applied in marine environments, petrochemical and off-shore applications, etc.

Remarks:

• Medium WC
• Wear and corrosion protection in molten metal
• Specially developed for Zn bath rolls in Continuous Galvanizing Lines (CGL)
• Typically applied with sealer
• See also Amperit 512

Remarks:

• Green carbide powder: free of Ni and Co
• Wear resistant coating with Ni- and Co-free metallic binder, replacement for WC-Co or WC-Ni
• Used in food industry, fresh water treatment, automotive industry

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

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

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

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