Titanium’s natural properties make the metal one of the most popular to use in multiple industries. Titanium tubing suppliers are making titanium more available to the various industries that may see a need for tubing.
Chlorine manufacturers were the first to make extensive use out of titanium tubing. It was the first metal material with the ability to resist wet chlorine and be priced reasonably for industry. The mechanical components for pumps, valves, and tubing have resulted in new standards of reliability.
Titanium is the accepted material for construction of process plant handling chlorides and dilutes hydrochloric acid. Titanium anodes with noble metal oxide surface coating and has replaced graphite anodes in cells for electrolytic production of chlorine.
They are stable with high current efficiencies and cause less contamination. Titanium applications have been given for new and existing installations of mercury, diaphragm, and membrane cells.
Tubing is used in power generation plants where saline, brackish, or polluted waters are used as the cooling medium. Titanium thin wall condenser tubing will last for the life of the condenser and eliminate the need to corrosion allowance.
Geothermal power is utilizing titanium tubing as well. Highly caustic steam is released from the earth and captured by tubing and pipe structures to generate electricity. The low lifecycle cost of titanium in these applications gives titanium buyers significant savings compared to competing materials.
Chemical processing operations use titanium to increase equipment life. The lifecycle cost advantages over copper, nickel, and stainless steel grades make titanium a worthwhile investment. Titanium tubing provide initial cost advantages over materials such as high nickel alloys, tantalum, and zirconium.
Petroleum utilizes titanium’s light weight and flexibility in tubing, making it excellent for deep sea production rises. The tubing has an immunity to attack by sea water that makes it the preferred material for topside water management systems. There is no corrosion in salt water, unlike competitor materials, and has become the preferred desalination material for plants.
There are many specialized applications for titanium tubing. The unique attributes of titanium make it excellent for nontraditional uses. It is light weight, has high strength, is biocompatible, and durable in extreme environments.
In general industry, more uses for titanium are being discovered by engineers. Titanium can reduce lifecycle costs on a broad range of equipment and processes. Titanium has a high strength to weight ratio with favorable density that is half of ferrous and nickel based metals.
Equipment costs are calculated on per unit area measure basis rather than per pound. This narrows the cost of material dramatically. Half as much titanium is needed to do the same job as other materials and it will go twice as far based on weight.
Titanium requires no corrosion allowance. Pressure and structural requirements for titanium only specify wall thickness. High upfront costs are instantly earned back with a profit. This is due to the increased production time and reduced maintenance.
Titanium forms a tenacious surface oxide layer with a corrosion inhibitor that surpasses all other industrial materials by far. In harsh environments, it can outlast competing components. There are lower failure rates for titanium which mean less downtime, reduced maintenance, and total lower cost. Numerous industries are utilizing the material because of these reasons.
Titanium is highly resistant to corrosion. It is lighter than steel, heavier than aluminum, and stronger than both of those metals. While it is more expensive to invest in initially, titanium is cheaper over the long run. This is because there is no service, maintenance, or repairs needed.
Titanium is has high passivity. This allows it to have corrosion resistance to many minerals and chlorides. Titanium has high strength but is very lightweight. The metal is also non toxic and extremely resistant to corrosion.