Introduction Titanium rods are the primary raw material for producing titanium alloys and pure titanium metal. They feature low density, high strength, excellent corrosion resistance, and good thermal and mechanical properties. Titanium rods are
widely used in aerospace structural components, rocket nozzles, chemical
processing equipment, heat exchangers, condensers, and medical
implants. Specifications| Parameter | Details |
|---|
| Product Name | Titanium Rod / Bar | | Standard | ASTM B348, ISO 13810, ISO 5832-2, ISO 5832-3; ASTM F136 & ASTM
F67 for medical applications | | Grade | Grade 5 Titanium Bar (Ti-6Al-4V) | | Diameter | 1–200 mm (customized sizes available) | | Length | 300–6000 mm | | Technique | Hot Forging & Hot Rolling | | Surface Finish | Polished, Machined | | Shape | Round, Flat, Square, Hexagonal | | Features | Excellent cryogenic performance, non-magnetic, non-toxic, good
thermal properties, low modulus of elasticity | | Applications | Industrial, Medical, Petrochemical, Aerospace, Chemical, Marine |
ApplicationsTitanium rods are highly versatile and can be used for: Cold drawing to make lath, foil, or wire. Manufacturing titanium sponge (PTFE fiber) products. Serving as chemical catalyst carriers or electrolyte purification
agents. Acting as filler material in high-temperature welding (melting
point: 3727°C). Producing refractory materials and high-temperature plastics. Steelmaking as a deoxidizer and desulfurizer. High-temperature furnace components. Nuclear reactor control rods. Aircraft engine blades and rocket nozzles. Containers for uranium extraction from seawater. Heat-resistant glass and zirconia fiber production. Artificial joints and medical implants. Semiconductor device applications.
Physical and Mechanical Properties (Grade 5 / Ti-6Al-4V)| Property | Value |
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| Tensile Strength (MPa) | 895–950 | | Yield Strength (MPa) | 828–880 | | Elongation (%) | 10–14 | | Composition | Al 6%, V 4%, Fe ≤0.25%, O ≤0.2%, N ≤0.03%, H ≤0.015%, Ti Balance |
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