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Gr5 Pure Titanium Alloy Rods TI6AL4V For Industries
Shape | Round | Grade | Titanium,Gr5 |
---|---|---|---|
Technique | Forged,Rolled | Application | Industrial,Medical,Mechanical Equipment |
Surface | Bright | ||
High Light | Industries Titanium Alloy Rods,Pure Titanium Alloy Rods,Gr5 Titanium Round Rod |
Large Size Titanium Rods For Various Industries Titanium Gr5 Alloy Or Pure Titanium
Titanium is a kind of low specific gravity, high specific strength, high toughness, and excellent fatigue resistance, corrosion resistance, temperature resistance.
Rare metals with characteristics such as performance. Titanium alloy is based on titanium, adding vanadium, aluminum, molybdenum, chromium and other other can strengthen titanium metal properties
Energy elements, structural materials made by smelting, forging, rolling, extrusion and other production and processing processes, are widely used in chemical, Engineering, aerospace, marine engineering, metallurgy, electric power, medical, pharmaceutical and other fields.
Description:
Type | Titanium rods/bar |
Dia | 4-200mm |
Length | Max. 6m |
Grade | GR5,GR7,GR9,GR12 |
Standard | ASTM B348/ F136/ F67 |
Surface | Black, Pickling, Sand-blasting |
material | TI6AL4V alloy |
Shape | Square bar/rod, round bar/rod, rectangular / hexagonal bar/rod, etc. |
Applications | Widely used in daily necessities, medicine, construction, aerospace, navigation and other fields |
Titanium alloys are used in both airframe structures and jet engine components because of their moderate weight, high structural properties (e.g. stiffness, strength, toughness, fatigue), excellent corrosion resistance, and the ability to retain their mechanical properties at high temperature. Various types of titanium alloys with different compositions are used, although the most common is Ti–6Al–4 V which is used in both aircraft structures and engines.
The structural properties of titanium are better than aluminium, although it is also more expensive and heavier. Titanium is generally used in the most heavily-loaded structures that must occupy minimum space, such as the landing gear and wing-fuselage connections.
Due to their high tensile strength to density ratio, high corrosion resistance, and ability to withstand moderately high temperatures without creeping, titanium alloys are used in aircraft, armor plating, naval ships, spacecraft, and missiles. For these applications titanium alloyed with aluminium, vanadium, and other elements is used for a variety of components including critical structural parts, fire walls, landing gear, exhaust ducts (helicopters), and hydraulic systems. In fact, about two thirds of all titanium metal produced is used in aircraft engines and frames.