Titanium-based 3D Printing Powder are the the preliminary base materials for most 3D printing processes that produce metallic parts.Powder characterization takes place depending on the way it is produced, which may result in different particle morphology and purity.
Applications of Titanium-based 3D Printing Podwer
As a well-known light alloy, Titanium-based 3D Printing Podwer has excellent mechanical properties and corrosion resistance while taking into account light weight and high biocompatibility. It is widely used in the aerospace and automotive industries
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Molecular Formula: AlZnMgCu1.5Purity: 99.9%-99.99 %Products Code: FMSE063007Specification Model: 0-25μm/15-53μm/45-105μm/75-150μm
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Molecular Formula: AlSi9Cu3Purity: 99.9%-99.99 %Products Code: FMSE063002Specification Model: 10-45μm/15-53μm/45-105μm
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Molecular Formula: AlMg4.5Mn0.4Purity: 99.9%-99.99 %Products Code: FMSE063003Specification Model: 10-45μm/15-53μm/45-105μm
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Molecular Formula: CoCrMoVWPurity: 99.9%-99.99 %Products Code: FMSE064011Specification Model: 45-105μm/53-150μm
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Molecular Formula: Ti47Al2Cr2NbPurity: 99.9%-99.99 %Products Code: FMSE061008Specification Model: 10-45μm/15-53μm/45-105μm
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Molecular Formula: TiAlNb(at%:5-10)Purity: 99.9%-99.99 %Products Code: FMSE061009Specification Model: 10-45μm/15-53μm/45-105μm
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Molecular Formula: Co-Cr-W-FePurity: 99.9%-99.99 %Products Code: FMSE065003Specification Model: 45-105μm/53-150μm
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Molecular Formula: Nb521Purity: 99.9%Products Code: FMSE067004Specification Model: 10-45μm/15-53μm45-105μm
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Molecular Formula: Ni-Mo-Cr-FePurity: 99.9%/99.99 %Products Code: FMSE062002Specification Model: 10-45μm/15-53μm/45-105μm
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Molecular Formula: Ti-8Al-1Mo-1VPurity: 99.9%-99.99 %Products Code: FMSE061006Specification Model: 10-45μm/15-53μm/45-105μm
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CAS: 12743-70-3Molecular Formula: Ti-6Al-4VPurity: 99.9%-99.99 %Products Code: FMSE061002Specification Model: 10-45μm/15-53μm/45-105μm
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Molecular Formula: FeCoNiCrMnPurity: 99.9%-99.99 %Products Code: FMSE067001Specification Model: 10-45μm/15-53μm45-105μm