Argon
Argon, an inert gas, is used in applications to improve quality and increase efficiency and yield.
Thermal Spray
Expert solutions to help you succeed
High velocity oxy-fuel (HVOF) thermal spray is widely used for coating critical-wear parts like landing gear, bearing races, valves and turbine components. Generally, fully or partially molten metal, composite, or ceramic droplets are propelled from a gun or torch onto the work piece.
Air Products offers a variety of technical services, gas-based solutions and a full line of industrial gases—oxygen, nitrogen, hydrogen, argon, helium and various gas blends for small and large volume users. Our applications engineers can work with you to recommend improvements that can help you optimize gas use and improve product quality.
Thermal Spray Process Gases
Offerings
Atmosphere Controls and Process Intelligence
Improve your operational efficiency with Air Products’ atmosphere supply and process management systems.
Helium
Helium, an inert gas, is used for quenching, cooling, leak detection, and plasma applications.
Hydrogen
Air Products offers liquid hydrogen and compressed hydrogen gas in a variety of purities and various modes of supply.
Nitrogen
Nitrogen is commonly used in applications across advanced materials processing operations to improve quality and increase efficiency and yield.
Thermal Spray Cooling System
This patented technology uses cryogenic nitrogen vapor and nitrogen aerosol spray as a coolant to achieve high quality thermal spray coatings.
Get in touch with our technical experts.
Contact Air Products to put decades of thermal spray experience to work for you.
Ask the Expert
Mark Lanham
Applications Engineer, North America
“What are the advantages of using hydrogen as the fuel gas versus traditional hydrocarbons for HVOF operations?”
There are only a few types of fuels to use for combustion in traditional HVOF (High Velocity Oxy-Fuel) systems, i.e., hydrogen, kerosene, methane (natural gas), propane and propylene. While each fuel has some distinct advantages, hydrogen offers some unique advantages:
- Because of its higher thermal conductivity, hydrogen achieves the best heat transfer from the flame to the powder particles despite having an overall lower flame temperature in comparison with the conventional hydrocarbon fuels.
- The performance of the HVOF process depends on the type of fuel, stoichiometric ratio, and combustion pressure, as well as gun design features. The ability to run rich hydrogen flows creates a reducing atmosphere, which lowers oxide production and further improves the quality of the coating.
- Due to the complete combustion of the stoichiometric reactants of hydrogen and oxygen, there are no unburned residuals deposited on the coating.
In addition, hydrogen can be delivered at sufficient pressures in tubes and bulk liquid tanks that do not require heating pads during the winter months in order to assure sufficient fuel flow to your HVOF booth.
Gases
Air Products gases, typically provided in gaseous and liquid form, enable customers in a wide range of industries to improve their environmental performance, product quality, and productivity.
Argon
Compressed argon gas and liquid argon in a variety of purities and in various modes of supply around the world thanks to our network of storage and transfill facilities.
Helium
An inert gas for cryogenic, heat transfer, shielding, leak detection, analytical and lifting applications
Hydrogen
Valued for its reactive and protective properties, and used by many industries such as electronics, foods, glass, chemicals, refining and more can benefit from its unique properties to improve quality, optimize performance and reduce costs.
Nitrogen
Useful as a gas, for its inert properties, and as a liquid for cooling and freezing. Virtually any industry can benefit from its unique properties to improve yields, optimize performance and make operations safer.
Oxygen
In addition to its use as a respiratory gas for healthcare applications, its strong oxidizing properties benefit many industries by improving yields, optimizing performance, lowering costs and reducing carbon footprint compared to other fuels.