Metal 3D printing, an additive manufacturing process, produces parts by fusing together metal particles layer by layer to form a metal part. It is often chosen as an alternative to CNC machining or metal casting because it can produce parts with the strength and durability of metal while also taking advantage of the design freedoms afforded by 3D printing. It can produce complex designs including lattices and topology-generated structures, both which are impossible to manufacture via traditional CNC machining.
Titanium Alloy ( TC4 )
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HYSICAL CHARACTERISTICS |
Grain Size15~45μm ShapeSpherical Mobility45S(Hall flowmeter) Apparent density2.5 g/cm³ |
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CHEMICAL COMPOSITION |
Ti(Balance) Al(5~6.75%) V(3.5~4.5%) Fe(≤0.3%) C(≤0.1%) Si(≤0.12%) O(≤1300ppm) N(≤400ppm) H(≤120ppm) Other(≤0.4%) |
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MOLDING PERFORMANCE |
Relative Density≥99.9% Density4.51 g/cm³ Tensile Strength≥1000 MPa Yield strength≥900 MPa Extensibility≥4~10% Elastic Modulus100~120 GPa Hardness294 HB |
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