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Industrial pure titanium (TA1, TA2, TA3) and various titanium alloys offer excellent properties for a wide range of applications. Here is a summary of their key features and common uses.
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Industrial Pure Titanium (TA1, TA2, TA3)
Excellent stamping performance and good weldability.
Suitable for parts below 350°C with low stress and complex shapes.
Widely used in thermal power plant condensers, marine seawater corroded components (pipeline systems, valves, pumps), chemical heat exchangers, and more. -
Titanium Alloy TA6
Good welding performance and high creep strength.
Suitable for parts and weldments below 400°C. -
Titanium Alloy TA7
Poor stamping performance but good thermoplasticity.
Offers various forms of welding with equal strength and plasticity to the base metal.
Used for structural parts working below 500°C and die forgings.
TC4 Titanium bar from TopTiTech
TA1 Titanium elbow
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Titanium Alloy TA8
Good thermoplasticity and weldability.
Suitable for long-term working parts below 500°C, such as engine compressor discs and blades. -
Titanium Alloy TC1
Good punch ability for sheet-stamped and welded parts below 400°C. -
Titanium Alloy TC2
High temperature resistance for parts working below 500°C, including welded parts, die forgings, and bent parts. -
Titanium Alloy TC3
Good thermoplasticity and corrosion resistance.
Used widely for long-term work below 400°C. -
Titanium Alloy TC4
Ti-6Al-4V composition with excellent mechanical properties.
High strength, low thermal conductivity, and low elastic modulus.
Widely applied in aerospace, petrochemical, shipbuilding, automobile, and medical industries. -
Titanium Alloy TC5
Suitable for hot deformation and work below 350°C. -
Titanium Alloy TC9
Good thermoplasticity and corrosion resistance.
Used for parts working below 400°C, including compressor discs and vanes. -
Titanium Alloy TC10
Good thermoplasticity and heat treatment effect.
Suitable for various forms of welding and parts with good corrosion resistance.
