Titanium valves are composed of a combination of two elements, Titanium and aluminium, which work together to create a durable and long-lasting valve. Combining these two metals forms an alloy resistant to corrosion and oxidation, which can withstand harsh temperatures and other challenging conditions. Titanium is solid due to its high strength-to-weight ratio and ability to endure heavy loads in small spaces. This helps ensure the stability and efficiency of the valve in whatever environment it is placed. With this reliable chemistry of Titanium and aluminium as its backbone, it’s no wonder that titanium valves are coveted for their strength and reliability.
Titanium valves are a valuable and robust material used in various industrial and commercial applications due to their unique strength, durability, and lightweight combination. The metal is often used in the valve industry to construct valves resistant to corrosion and withstand extreme temperatures while providing excellent sealing properties. These valves can be found in automotive manufacturing plants and other industrial settings, as well as being a popular choice for aircraft engines where weight savings is of utmost importance. Titanium also has a low intrinsic magnetism, so it can be used in applications where high-frequency signals or electronics must remain secure from magnetic fields. These versatile valves have been tested to withstand pressures of up to 9,000 psi and have been the go-to material for decades.
Titanium is a low-density, high, strength alloy with a lustrous appearance. Elements such as iron, vanadium, aluminium, and molybdenum are added to this alloy. The addition helps in creating more lightweight and robust alloys. The corrosion resistance and strength-to-density ratio of these valves are excellent.
Valves are used to regulate flowing gasses and liquids in piping systems. Types of valves include Hydraulic, Pneumatic, Solenoid and Motor, which are used for different purposes. At moderately high temperatures, these titanium valves do not show creeping, thus, making them highly usable in applications like naval shipbuilding.