Comparison

High-performance tools and prototypes for machining or hot forming, where dimensional stability reduces deformations under thermal load. Coatings and parts for corrosive environments, as in hot gas components, for protection against oxidation and thermal wear.

Hot working tools such as punches and shear blades, for resistance to abrasive wear in cutting or forming operations.Rapid repair and production of worn tools, via LPBF for functional prototypes or custom inserts.

Coatings for valve seats and shafts in aircraft engines, exploiting creep resistance to minimize galling and wear in metal-metal contacts at high temperature.Protection of turbine blades and components in energy systems, benefiting from low oxidation for increased durability in thermal cycles and oxidative environments.

Coatings for automotive exhaust systems and decorative components, exploiting general corrosion and oxidation resistance for durability in thermal and humid environments. Repair of marine substrates such as offshore or naval structures, for protection against saline corrosion without requiring high hardness.Components for food and beverage equipment, where corrosion resistance ensures hygiene and longevity during moderate acid cleaning.

Protective coatings for marine and offshore equipment exposed to saline corrosion, exploiting saline corrosion resistance to extend the life of offshore structures.Protection of chemical components such as heat exchangers, reactors and valves against acids and corrosive media, benefiting from good machinability and dimensional stability for homogeneous deposits.

Biomedical coatings for orthopedic implants, heart valves, and surgical instruments, taking advantage of biocompatibility and stability to ensure safe integration into the human body. Coatings for valve seats, pumps and components in corrosive environments, exploiting resistance to wear and hot oxidation for increased durability in thermal and chemical cycles.

Protection of components such as bearings and sockets in abrasive environments, benefiting from low oxidation for increased durability in thermal cycles.Coatings for drilling tools or parts exposed to corrosive wear, taking advantage of fluidity for homogeneous deposits via HVOF or plasma spray.

Coatings for rolls and matrices in the treatment of hot metals or the glass industry, for resistance to thermal wear and friction.Repair of substrates in exhaust systems or turbines, where stability reduces degradation in oxidative environments.

Protective coatings for reactors and heat exchangers in chemical treatment, exploiting resistance to acid corrosion for durability in aggressive environments such as sulfuric or hydrochloric acids. Coatings for scrubbers and ducting in pollution control, taking advantage of fluidity for homogeneous deposits via HVOF or plasma spray, protecting against localized corrosion in combustion gases.

Structural components such as landing gear or engine parts in aeronautics, exploiting high mechanical strength to withstand high loads and fatigue cycles.Valves, fittings and downhole tools in the oil industry, benefiting from general corrosion resistance in aggressive environments such as saline or acidic fluids.Tools and dies for injection molding or rapid tooling, taking advantage of good machinability and dimensional stability for repeated thermal cycles.

Cutting and punching dies for cold metal forming, exploiting high wear resistance for increased durability during repeated cycles.Thread rolling dies and forming rolls, benefiting from compression resistance to withstand high loads without deformation.Workpiece striking dies and shear blades, taking advantage of powder fluidity for precise geometries and abrasion resistance.

Hot tools and dies for high-temperature casting or machining, taking advantage of the fluidity of powder for complex geometries and resistance to deformation.Parts for chemical or petrochemical equipment exposed to corrosion, such as heat exchangers, for protection against acidic and oxidizing mediums.Components for rocket engines or space propulsion systems, where high mechanical and creep resistance is essential for extreme environments.

Protective coatings for aeronautical components such as engine exhaust systems and ducts, exploiting resistance to hot oxidation for durability in high thermal cycles.Repair and additive manufacturing of parts for chemical equipment such as heat exchangers and reactors, benefiting from resistance to acid corrosion in aggressive environments.

Tools and dies for injection molding and die casting, exploiting high strength and low distortion for repeated thermal cycles and inserts with consistent cooling.Structural components such as rocket engine casings or bulkheads, benefiting from the combination of strength and ductility for high loads in extreme environments.

High-temperature components such as furnace parts, heat exchangers and heat treatment equipment, exploiting resistance to hot oxidation for increased durability in repeated thermal cycles.Structural parts for turbines and engines exposed to corrosion and oxidation, benefiting from high mechanical and anti-corrosion resistance in aggressive gaseous environments.Valves, fittings and industrial tools subject to saline or acid corrosion, where the dimensional stability and fluidity of the powder allow for ometries complexes via AM.

Orthopedic implants and joint prostheses (such as hips and knees), exploiting biocompatibility and resistance to saline corrosion for lasting integration into the human body.Dental components and oral prostheses, benefiting from high mechanical strength and stability in humid and corrosive environments.Parts for turbines and engines exposed to high temperature and corrosion, where resistance to oxidation and mechanical durability are critical.Wear-resistant industrial tools and inserts, for applications involving severe friction and aggressive environments.

Components for gas turbines and aircraft engines, exploiting resistance to hot and high temperature oxidation for increased durability.Downhole tools and valves for oil extraction, where good weldability and resistance to stress corrosion are critical.Thermal barriers and nuclear components, taking advantage of stability in radioactive and high-temperature environments.

Tools and dies for injection molding and die casting, exploiting high strength and low distortion for repeated thermal cycles. \nStructural components such as landing gears or rocket engine housings, benefiting from the combination of strength and ductility for high loads. \nNon-implantable medical instruments and biomedical components, thanks to potential biocompatibility and machinability.

Aeronautics: leading edge coatings, turbine shutters, valve seatsEnergy: coatings of gas or steam turbine components subject to erosion and heatHeavy mechanics: shafts, sleeves, bearings, areas of severe frictionPetroleum & chemical industry: surfaces exposed to stress corrosion and aggressive fluidsTools: anti-wear coatings on dies, forging tools or injection molds

Aeronautics: supports, structural components, landing gear partsEnergy: turbines, valves, high-pressure connectionsMedical and dental: instruments, non-implantables General industry: injection molds, wear-resistant mechanical toolsOil & gas: components subject to corrosion under stress.

Industrial equipment: punch coatings, dies, cutting toolsPumps and valves: internal surfaces subject to erosion or abrasion of fluidsPaper and textile industry: rolls, components in contact with corrosive liquidsGeneral mechanics: axes, rings, slides, slides, parts subject to frictionFood and light chemistry: components that must resist humidity or frequent cleaning

Aeronautics & space: turbine blades, fasteners, combustion chambers, combustion chambers, jet engine componentsEnergy & nuclear: gas turbine parts, high-temperature generator componentsHigh-performance automotive industry: exhaust manifolds, turbochargersOil & gas: parts resistant to corrosion under stress and heatHigh temperature molding: mold inserts, specific thermal tools

Chemical industry: heat exchangers, reactors, flanges, connections exposed to acidic or saline environmentsMedical sector: surgical instruments, guides, non-implantables Food & pharmaceutical: components in contact with aggressive liquids or gasesMarine applications: marine applications: ship parts, coastal equipment, connectors exposed to seawaterFunctional design: fine structures, aesthetic or technical parts that must resist corrosion

High-performance tools and prototypes for machining or hot forming, where dimensional stability reduces deformations under thermal load. Coatings and parts for corrosive environments, as in hot gas components, for protection against oxidation and thermal wear.

Hot working tools such as punches and shear blades, for resistance to abrasive wear in cutting or forming operations.Rapid repair and production of worn tools, via LPBF for functional prototypes or custom inserts.

Coatings for valve seats and shafts in aircraft engines, exploiting creep resistance to minimize galling and wear in metal-metal contacts at high temperature.Protection of turbine blades and components in energy systems, benefiting from low oxidation for increased durability in thermal cycles and oxidative environments.

Coatings for automotive exhaust systems and decorative components, exploiting general corrosion and oxidation resistance for durability in thermal and humid environments. Repair of marine substrates such as offshore or naval structures, for protection against saline corrosion without requiring high hardness.Components for food and beverage equipment, where corrosion resistance ensures hygiene and longevity during moderate acid cleaning.

Protective coatings for marine and offshore equipment exposed to saline corrosion, exploiting saline corrosion resistance to extend the life of offshore structures.Protection of chemical components such as heat exchangers, reactors and valves against acids and corrosive media, benefiting from good machinability and dimensional stability for homogeneous deposits.

Biomedical coatings for orthopedic implants, heart valves, and surgical instruments, taking advantage of biocompatibility and stability to ensure safe integration into the human body. Coatings for valve seats, pumps and components in corrosive environments, exploiting resistance to wear and hot oxidation for increased durability in thermal and chemical cycles.

Protection of components such as bearings and sockets in abrasive environments, benefiting from low oxidation for increased durability in thermal cycles.Coatings for drilling tools or parts exposed to corrosive wear, taking advantage of fluidity for homogeneous deposits via HVOF or plasma spray.

Coatings for rolls and matrices in the treatment of hot metals or the glass industry, for resistance to thermal wear and friction.Repair of substrates in exhaust systems or turbines, where stability reduces degradation in oxidative environments.

Protective coatings for reactors and heat exchangers in chemical treatment, exploiting resistance to acid corrosion for durability in aggressive environments such as sulfuric or hydrochloric acids. Coatings for scrubbers and ducting in pollution control, taking advantage of fluidity for homogeneous deposits via HVOF or plasma spray, protecting against localized corrosion in combustion gases.

Structural components such as landing gear or engine parts in aeronautics, exploiting high mechanical strength to withstand high loads and fatigue cycles.Valves, fittings and downhole tools in the oil industry, benefiting from general corrosion resistance in aggressive environments such as saline or acidic fluids.Tools and dies for injection molding or rapid tooling, taking advantage of good machinability and dimensional stability for repeated thermal cycles.

Cutting and punching dies for cold metal forming, exploiting high wear resistance for increased durability during repeated cycles.Thread rolling dies and forming rolls, benefiting from compression resistance to withstand high loads without deformation.Workpiece striking dies and shear blades, taking advantage of powder fluidity for precise geometries and abrasion resistance.

Hot tools and dies for high-temperature casting or machining, taking advantage of the fluidity of powder for complex geometries and resistance to deformation.Parts for chemical or petrochemical equipment exposed to corrosion, such as heat exchangers, for protection against acidic and oxidizing mediums.Components for rocket engines or space propulsion systems, where high mechanical and creep resistance is essential for extreme environments.

Protective coatings for aeronautical components such as engine exhaust systems and ducts, exploiting resistance to hot oxidation for durability in high thermal cycles.Repair and additive manufacturing of parts for chemical equipment such as heat exchangers and reactors, benefiting from resistance to acid corrosion in aggressive environments.

Tools and dies for injection molding and die casting, exploiting high strength and low distortion for repeated thermal cycles and inserts with consistent cooling.Structural components such as rocket engine casings or bulkheads, benefiting from the combination of strength and ductility for high loads in extreme environments.

High-temperature components such as furnace parts, heat exchangers and heat treatment equipment, exploiting resistance to hot oxidation for increased durability in repeated thermal cycles.Structural parts for turbines and engines exposed to corrosion and oxidation, benefiting from high mechanical and anti-corrosion resistance in aggressive gaseous environments.Valves, fittings and industrial tools subject to saline or acid corrosion, where the dimensional stability and fluidity of the powder allow for ometries complexes via AM.

Orthopedic implants and joint prostheses (such as hips and knees), exploiting biocompatibility and resistance to saline corrosion for lasting integration into the human body.Dental components and oral prostheses, benefiting from high mechanical strength and stability in humid and corrosive environments.Parts for turbines and engines exposed to high temperature and corrosion, where resistance to oxidation and mechanical durability are critical.Wear-resistant industrial tools and inserts, for applications involving severe friction and aggressive environments.

Components for gas turbines and aircraft engines, exploiting resistance to hot and high temperature oxidation for increased durability.Downhole tools and valves for oil extraction, where good weldability and resistance to stress corrosion are critical.Thermal barriers and nuclear components, taking advantage of stability in radioactive and high-temperature environments.

Tools and dies for injection molding and die casting, exploiting high strength and low distortion for repeated thermal cycles. \nStructural components such as landing gears or rocket engine housings, benefiting from the combination of strength and ductility for high loads. \nNon-implantable medical instruments and biomedical components, thanks to potential biocompatibility and machinability.

Aeronautics: leading edge coatings, turbine shutters, valve seatsEnergy: coatings of gas or steam turbine components subject to erosion and heatHeavy mechanics: shafts, sleeves, bearings, areas of severe frictionPetroleum & chemical industry: surfaces exposed to stress corrosion and aggressive fluidsTools: anti-wear coatings on dies, forging tools or injection molds

Aeronautics: supports, structural components, landing gear partsEnergy: turbines, valves, high-pressure connectionsMedical and dental: instruments, non-implantables General industry: injection molds, wear-resistant mechanical toolsOil & gas: components subject to corrosion under stress.

Industrial equipment: punch coatings, dies, cutting toolsPumps and valves: internal surfaces subject to erosion or abrasion of fluidsPaper and textile industry: rolls, components in contact with corrosive liquidsGeneral mechanics: axes, rings, slides, slides, parts subject to frictionFood and light chemistry: components that must resist humidity or frequent cleaning

Aeronautics & space: turbine blades, fasteners, combustion chambers, combustion chambers, jet engine componentsEnergy & nuclear: gas turbine parts, high-temperature generator componentsHigh-performance automotive industry: exhaust manifolds, turbochargersOil & gas: parts resistant to corrosion under stress and heatHigh temperature molding: mold inserts, specific thermal tools

Chemical industry: heat exchangers, reactors, flanges, connections exposed to acidic or saline environmentsMedical sector: surgical instruments, guides, non-implantables Food & pharmaceutical: components in contact with aggressive liquids or gasesMarine applications: marine applications: ship parts, coastal equipment, connectors exposed to seawaterFunctional design: fine structures, aesthetic or technical parts that must resist corrosion

High-performance tools and prototypes for machining or hot forming, where dimensional stability reduces deformations under thermal load. Coatings and parts for corrosive environments, as in hot gas components, for protection against oxidation and thermal wear.

Hot working tools such as punches and shear blades, for resistance to abrasive wear in cutting or forming operations.Rapid repair and production of worn tools, via LPBF for functional prototypes or custom inserts.

Coatings for valve seats and shafts in aircraft engines, exploiting creep resistance to minimize galling and wear in metal-metal contacts at high temperature.Protection of turbine blades and components in energy systems, benefiting from low oxidation for increased durability in thermal cycles and oxidative environments.

Coatings for automotive exhaust systems and decorative components, exploiting general corrosion and oxidation resistance for durability in thermal and humid environments. Repair of marine substrates such as offshore or naval structures, for protection against saline corrosion without requiring high hardness.Components for food and beverage equipment, where corrosion resistance ensures hygiene and longevity during moderate acid cleaning.

Protective coatings for marine and offshore equipment exposed to saline corrosion, exploiting saline corrosion resistance to extend the life of offshore structures.Protection of chemical components such as heat exchangers, reactors and valves against acids and corrosive media, benefiting from good machinability and dimensional stability for homogeneous deposits.

Biomedical coatings for orthopedic implants, heart valves, and surgical instruments, taking advantage of biocompatibility and stability to ensure safe integration into the human body. Coatings for valve seats, pumps and components in corrosive environments, exploiting resistance to wear and hot oxidation for increased durability in thermal and chemical cycles.

Protection of components such as bearings and sockets in abrasive environments, benefiting from low oxidation for increased durability in thermal cycles.Coatings for drilling tools or parts exposed to corrosive wear, taking advantage of fluidity for homogeneous deposits via HVOF or plasma spray.

Coatings for rolls and matrices in the treatment of hot metals or the glass industry, for resistance to thermal wear and friction.Repair of substrates in exhaust systems or turbines, where stability reduces degradation in oxidative environments.

Protective coatings for reactors and heat exchangers in chemical treatment, exploiting resistance to acid corrosion for durability in aggressive environments such as sulfuric or hydrochloric acids. Coatings for scrubbers and ducting in pollution control, taking advantage of fluidity for homogeneous deposits via HVOF or plasma spray, protecting against localized corrosion in combustion gases.

Structural components such as landing gear or engine parts in aeronautics, exploiting high mechanical strength to withstand high loads and fatigue cycles.Valves, fittings and downhole tools in the oil industry, benefiting from general corrosion resistance in aggressive environments such as saline or acidic fluids.Tools and dies for injection molding or rapid tooling, taking advantage of good machinability and dimensional stability for repeated thermal cycles.

Cutting and punching dies for cold metal forming, exploiting high wear resistance for increased durability during repeated cycles.Thread rolling dies and forming rolls, benefiting from compression resistance to withstand high loads without deformation.Workpiece striking dies and shear blades, taking advantage of powder fluidity for precise geometries and abrasion resistance.

Hot tools and dies for high-temperature casting or machining, taking advantage of the fluidity of powder for complex geometries and resistance to deformation.Parts for chemical or petrochemical equipment exposed to corrosion, such as heat exchangers, for protection against acidic and oxidizing mediums.Components for rocket engines or space propulsion systems, where high mechanical and creep resistance is essential for extreme environments.

Protective coatings for aeronautical components such as engine exhaust systems and ducts, exploiting resistance to hot oxidation for durability in high thermal cycles.Repair and additive manufacturing of parts for chemical equipment such as heat exchangers and reactors, benefiting from resistance to acid corrosion in aggressive environments.

Tools and dies for injection molding and die casting, exploiting high strength and low distortion for repeated thermal cycles and inserts with consistent cooling.Structural components such as rocket engine casings or bulkheads, benefiting from the combination of strength and ductility for high loads in extreme environments.

High-temperature components such as furnace parts, heat exchangers and heat treatment equipment, exploiting resistance to hot oxidation for increased durability in repeated thermal cycles.Structural parts for turbines and engines exposed to corrosion and oxidation, benefiting from high mechanical and anti-corrosion resistance in aggressive gaseous environments.Valves, fittings and industrial tools subject to saline or acid corrosion, where the dimensional stability and fluidity of the powder allow for ometries complexes via AM.

Orthopedic implants and joint prostheses (such as hips and knees), exploiting biocompatibility and resistance to saline corrosion for lasting integration into the human body.Dental components and oral prostheses, benefiting from high mechanical strength and stability in humid and corrosive environments.Parts for turbines and engines exposed to high temperature and corrosion, where resistance to oxidation and mechanical durability are critical.Wear-resistant industrial tools and inserts, for applications involving severe friction and aggressive environments.

Components for gas turbines and aircraft engines, exploiting resistance to hot and high temperature oxidation for increased durability.Downhole tools and valves for oil extraction, where good weldability and resistance to stress corrosion are critical.Thermal barriers and nuclear components, taking advantage of stability in radioactive and high-temperature environments.

Tools and dies for injection molding and die casting, exploiting high strength and low distortion for repeated thermal cycles. \nStructural components such as landing gears or rocket engine housings, benefiting from the combination of strength and ductility for high loads. \nNon-implantable medical instruments and biomedical components, thanks to potential biocompatibility and machinability.

Aeronautics: leading edge coatings, turbine shutters, valve seatsEnergy: coatings of gas or steam turbine components subject to erosion and heatHeavy mechanics: shafts, sleeves, bearings, areas of severe frictionPetroleum & chemical industry: surfaces exposed to stress corrosion and aggressive fluidsTools: anti-wear coatings on dies, forging tools or injection molds

Aeronautics: supports, structural components, landing gear partsEnergy: turbines, valves, high-pressure connectionsMedical and dental: instruments, non-implantables General industry: injection molds, wear-resistant mechanical toolsOil & gas: components subject to corrosion under stress.

Industrial equipment: punch coatings, dies, cutting toolsPumps and valves: internal surfaces subject to erosion or abrasion of fluidsPaper and textile industry: rolls, components in contact with corrosive liquidsGeneral mechanics: axes, rings, slides, slides, parts subject to frictionFood and light chemistry: components that must resist humidity or frequent cleaning

Aeronautics & space: turbine blades, fasteners, combustion chambers, combustion chambers, jet engine componentsEnergy & nuclear: gas turbine parts, high-temperature generator componentsHigh-performance automotive industry: exhaust manifolds, turbochargersOil & gas: parts resistant to corrosion under stress and heatHigh temperature molding: mold inserts, specific thermal tools

Chemical industry: heat exchangers, reactors, flanges, connections exposed to acidic or saline environmentsMedical sector: surgical instruments, guides, non-implantables Food & pharmaceutical: components in contact with aggressive liquids or gasesMarine applications: marine applications: ship parts, coastal equipment, connectors exposed to seawaterFunctional design: fine structures, aesthetic or technical parts that must resist corrosion

High-performance tools and prototypes for machining or hot forming, where dimensional stability reduces deformations under thermal load. Coatings and parts for corrosive environments, as in hot gas components, for protection against oxidation and thermal wear.

Hot working tools such as punches and shear blades, for resistance to abrasive wear in cutting or forming operations.Rapid repair and production of worn tools, via LPBF for functional prototypes or custom inserts.

Coatings for valve seats and shafts in aircraft engines, exploiting creep resistance to minimize galling and wear in metal-metal contacts at high temperature.Protection of turbine blades and components in energy systems, benefiting from low oxidation for increased durability in thermal cycles and oxidative environments.

Coatings for automotive exhaust systems and decorative components, exploiting general corrosion and oxidation resistance for durability in thermal and humid environments. Repair of marine substrates such as offshore or naval structures, for protection against saline corrosion without requiring high hardness.Components for food and beverage equipment, where corrosion resistance ensures hygiene and longevity during moderate acid cleaning.

Protective coatings for marine and offshore equipment exposed to saline corrosion, exploiting saline corrosion resistance to extend the life of offshore structures.Protection of chemical components such as heat exchangers, reactors and valves against acids and corrosive media, benefiting from good machinability and dimensional stability for homogeneous deposits.

Biomedical coatings for orthopedic implants, heart valves, and surgical instruments, taking advantage of biocompatibility and stability to ensure safe integration into the human body. Coatings for valve seats, pumps and components in corrosive environments, exploiting resistance to wear and hot oxidation for increased durability in thermal and chemical cycles.

Protection of components such as bearings and sockets in abrasive environments, benefiting from low oxidation for increased durability in thermal cycles.Coatings for drilling tools or parts exposed to corrosive wear, taking advantage of fluidity for homogeneous deposits via HVOF or plasma spray.

Coatings for rolls and matrices in the treatment of hot metals or the glass industry, for resistance to thermal wear and friction.Repair of substrates in exhaust systems or turbines, where stability reduces degradation in oxidative environments.

Protective coatings for reactors and heat exchangers in chemical treatment, exploiting resistance to acid corrosion for durability in aggressive environments such as sulfuric or hydrochloric acids. Coatings for scrubbers and ducting in pollution control, taking advantage of fluidity for homogeneous deposits via HVOF or plasma spray, protecting against localized corrosion in combustion gases.

Structural components such as landing gear or engine parts in aeronautics, exploiting high mechanical strength to withstand high loads and fatigue cycles.Valves, fittings and downhole tools in the oil industry, benefiting from general corrosion resistance in aggressive environments such as saline or acidic fluids.Tools and dies for injection molding or rapid tooling, taking advantage of good machinability and dimensional stability for repeated thermal cycles.

Cutting and punching dies for cold metal forming, exploiting high wear resistance for increased durability during repeated cycles.Thread rolling dies and forming rolls, benefiting from compression resistance to withstand high loads without deformation.Workpiece striking dies and shear blades, taking advantage of powder fluidity for precise geometries and abrasion resistance.

Hot tools and dies for high-temperature casting or machining, taking advantage of the fluidity of powder for complex geometries and resistance to deformation.Parts for chemical or petrochemical equipment exposed to corrosion, such as heat exchangers, for protection against acidic and oxidizing mediums.Components for rocket engines or space propulsion systems, where high mechanical and creep resistance is essential for extreme environments.

Protective coatings for aeronautical components such as engine exhaust systems and ducts, exploiting resistance to hot oxidation for durability in high thermal cycles.Repair and additive manufacturing of parts for chemical equipment such as heat exchangers and reactors, benefiting from resistance to acid corrosion in aggressive environments.

Tools and dies for injection molding and die casting, exploiting high strength and low distortion for repeated thermal cycles and inserts with consistent cooling.Structural components such as rocket engine casings or bulkheads, benefiting from the combination of strength and ductility for high loads in extreme environments.

High-temperature components such as furnace parts, heat exchangers and heat treatment equipment, exploiting resistance to hot oxidation for increased durability in repeated thermal cycles.Structural parts for turbines and engines exposed to corrosion and oxidation, benefiting from high mechanical and anti-corrosion resistance in aggressive gaseous environments.Valves, fittings and industrial tools subject to saline or acid corrosion, where the dimensional stability and fluidity of the powder allow for ometries complexes via AM.

Orthopedic implants and joint prostheses (such as hips and knees), exploiting biocompatibility and resistance to saline corrosion for lasting integration into the human body.Dental components and oral prostheses, benefiting from high mechanical strength and stability in humid and corrosive environments.Parts for turbines and engines exposed to high temperature and corrosion, where resistance to oxidation and mechanical durability are critical.Wear-resistant industrial tools and inserts, for applications involving severe friction and aggressive environments.

Components for gas turbines and aircraft engines, exploiting resistance to hot and high temperature oxidation for increased durability.Downhole tools and valves for oil extraction, where good weldability and resistance to stress corrosion are critical.Thermal barriers and nuclear components, taking advantage of stability in radioactive and high-temperature environments.

Tools and dies for injection molding and die casting, exploiting high strength and low distortion for repeated thermal cycles. \nStructural components such as landing gears or rocket engine housings, benefiting from the combination of strength and ductility for high loads. \nNon-implantable medical instruments and biomedical components, thanks to potential biocompatibility and machinability.

Aeronautics: leading edge coatings, turbine shutters, valve seatsEnergy: coatings of gas or steam turbine components subject to erosion and heatHeavy mechanics: shafts, sleeves, bearings, areas of severe frictionPetroleum & chemical industry: surfaces exposed to stress corrosion and aggressive fluidsTools: anti-wear coatings on dies, forging tools or injection molds

Aeronautics: supports, structural components, landing gear partsEnergy: turbines, valves, high-pressure connectionsMedical and dental: instruments, non-implantables General industry: injection molds, wear-resistant mechanical toolsOil & gas: components subject to corrosion under stress.

Industrial equipment: punch coatings, dies, cutting toolsPumps and valves: internal surfaces subject to erosion or abrasion of fluidsPaper and textile industry: rolls, components in contact with corrosive liquidsGeneral mechanics: axes, rings, slides, slides, parts subject to frictionFood and light chemistry: components that must resist humidity or frequent cleaning

Aeronautics & space: turbine blades, fasteners, combustion chambers, combustion chambers, jet engine componentsEnergy & nuclear: gas turbine parts, high-temperature generator componentsHigh-performance automotive industry: exhaust manifolds, turbochargersOil & gas: parts resistant to corrosion under stress and heatHigh temperature molding: mold inserts, specific thermal tools

Chemical industry: heat exchangers, reactors, flanges, connections exposed to acidic or saline environmentsMedical sector: surgical instruments, guides, non-implantables Food & pharmaceutical: components in contact with aggressive liquids or gasesMarine applications: marine applications: ship parts, coastal equipment, connectors exposed to seawaterFunctional design: fine structures, aesthetic or technical parts that must resist corrosion