Titanium's ability to be alloyed makes the metal stronger and more durable, and we provide you with a reliable metal that can withstand a variety of impacts. The strength of titanium rods depends on the material the titanium is made of, and here's how they differ:
Pure titanium rods
TA1, TA2, and TA3 are considered pure titanium. We offer pure titanium rods to meet the needs and expectations of a range of industries
TA1 pure titanium rods
Compared to other metal rods, TA1 titanium rods are the softest and most malleable metal we offer. That said, TA1 has high levels of formability and corrosion resistance, as well as impact toughness.
Our titanium rods are used in a wide range of applications, including chemical processing, construction and automotive parts, while TA1 titanium rods are also used by the medical industry for surgical implants and devices.
TA2 pure titanium rods
TA2 titanium rods are known as a commercially pure “workhorse” and provide useful strength for a wide range of applications. When comparing TA2 titanium to TA1 titanium, TA2 titanium is slightly stronger and has excellent weldability, strength and ductility, making it the industry's regular choice.
TA2 titanium rods can be used in applications similar to TA1 titanium rods, as well as in power generation, hydrocarbon processing and desalination.
Titanium is alloyed with another metal to achieve greater strength. Combining the properties of titanium with another metal will provide a reliable metal with good quality.
TC4 Titanium Alloy Bar
As the “workhorse” titanium alloy, TC4 offers a myriad of benefits, which is why it is so popular. While TC4 titanium is known for its high strength and low weight, it can be heat treated to increase its strength. Like any other Titanium Bar or sheet, TC4 titanium is also corrosion resistant.
TC4 titanium is used in the following industries; aerospace, marine and medical, and also for chemical processing. In addition to this, these titanium rods are also used in the manufacture of aircraft turbines, engine components and automated parts.
TA9 Titanium Alloy Rods
Some of the properties of the TA9 we offer are similar to those of TA2.The physical and mechanical strength of TA9 titanium rods can be closely compared to that of TA2 titanium rods, except that they have higher corrosion resistance and are highly weldable. You will find TA9 titanium useful in corrosive environments when manufacturing production equipment and components. In addition to this, it is designed for chemical processing applications with high strength and reliability.
TA10 Titanium Alloy Bar
TA10 (Ti-0.3Mo-0.8Ni) titanium alloy is a corrosion-resistant titanium alloy, which is a near-alpha alloy developed to improve the crevice corrosion performance of pure titanium. The alloy contains 0.3% Mo and 0.8% Ni, which not only strengthens the alloy but also provides good crevice corrosion resistance to high temperatures, low pH chlorinated or weakly reducing acids, and has a corrosion resistance superior to that of pure titanium and close to that of TA9. TA10 alloy also has good process plasticity and welding properties and has been well used in the chemical industry. The alloy can be used in the annealed state, and its main products include plates, bars, tubes, forgings and wires. Foreign similar grades Gr.12.
TC11 titanium alloy bar
The nominal composition of TC11 titanium alloy is Ti-6.5 Al-3.5Mo-1.5Zr-0.3Si, which is an alpha-beta type titanium alloy heat-resistant titanium alloy with aluminum equivalent of 3.5 and molybdenum equivalent of 7.3.
TC11 titanium alloy is a high-temperature titanium alloy with wide application in aviation, the use temperature is 500℃, mainly used in the parts of the aero-engine compressor, such as blades, disks, drums and shafts. Can also be made into shaped castings, the use of the working conditions of the parts for the annealed state can be used for 500 ℃ below 500 hours and 550 ℃ below 100 hours and 450 ℃ below 1,000 hours, in the strengthened state can be used for 500 ℃ below 100 hours of work in the parts and in the 700 ℃ below the disposable work of the parts.