Titanium Pipes
Titanium Piping Systems are one of the most cost-effective ways to prevent harmful corrosion in chemical processing lines. The following details about Titanium, its features, and strengths, as well as how Titanium Pipe could be the key to corrosion avoidance in your application.
What is The Process of Making Titanium Pipes?
The initial step in the manufacturing process is to create ingots. The carbon that remains will be eliminated with the help of oxygen after the titanium sponge is melted at high temperatures in a furnace. The titanium will then be placed in a copper crucible and left to cool. Titanium is extracted from a wide range of naturally occurring ores all around the world. The most common ores used to make titanium are ilmenite, leucoxene, and rutile.
Higher Hardness and Strength of Titanium Pipes
The tensile strength of commercial-grade titanium is normally around 63,000 psi. Commercially pure titanium has the softest grade of roughly 240 MPa, but high-strength alloys can reach 1,400 MPa.
Use of Titanium Pipes
Instrumentation, Ferrules, Offshore Fire Water Systems, Structural Purposes, Medical, Pharmaceutical, Economizers, Condenser, Furniture industries, domestic applications, bus body, fencing, Cryogenic Tube, Offshore construction, Food and pharmaceutical processing, Desalination and wastewater projects, and Electrical Submersible Pump are just a few of the uses for titanium pipes.
Titanium Pipes Provide Excellent Corrosion Resistance
Titanium pipes have some of the strongest corrosion resistance of any naturally occurring metal. A durable, continuous, and strongly adhering protective oxide covering forms on the metal's surface almost instantly when exposed to air and moisture.
Chemical Resistance of Titanium Pipes
Titanium pipes are fairly resistant to reduced acids such as sulfuric, hydrochloric (HCl), and phosphoric acid. As the temperature and acid concentration increase, so does the rate of corrosion.
The Temperature of Titanium Pipes
Titanium pipe alloys' maximum service temperature is limited by creep and oxidation resistance. Titanium pipe alloys nowadays are engineered to endure temperatures of up to 600 degrees Celsius.
Source: https://www.priminox.com/titanium-gr-2-seamless-pipes-supplier/
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