TiTa10 Titanium Alloy Spherical Powder: Superior Flowability for 3D Printing

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The TiTa10 Titanium Alloy Spherical Powder is a cutting-edge material that has redefined the possibilities of modern manufacturing, particularly in industries like aerospace, medical, and additive manufacturing. Combining titanium’s lightweight properties with tantalum’s strength and corrosion resistance, this alloy is engineered for applications that demand high performance under extreme conditions.

If you’re looking to understand how TiTa10 Titanium Alloy Spherical Powder can transform your projects, this comprehensive guide will walk you through its composition, properties, applications, specifications, pricing, and more. By the end, you’ll have a deep understanding of why this material is gaining traction in various industries. Let’s dive in!


Overview of TiTa10 Titanium Alloy Spherical Powder

What is TiTa10 Titanium Alloy Spherical Powder?

TiTa10 Titanium Alloy Spherical Powder is a powdered form of an alloy made up of titanium (Ti) and tantalum (Ta). The “10” in its name refers to the approximate percentage of tantalum content in the alloy. This powder is created using advanced atomization techniques that produce spherical particles, ensuring superior flowability, packing density, and process efficiency.

The alloy is particularly known for its biocompatibility, high corrosion resistance, and mechanical strength, making it a preferred choice for medical implants, aerospace components, and other high-stress applications.


Why is TiTa10 Titanium Alloy Powder Important?

Imagine a material that’s light as a feather, strong as steel, and can survive the harshest environments, from the human body to the depths of space. That’s TiTa10 Titanium Alloy Spherical Powder. It combines the best of both worlds: titanium’s lightweight and corrosion-resistant properties with tantalum’s unrivaled strength and biocompatibility.

Its spherical shape makes it ideal for 3D printing, thermal spraying, and powder metallurgy, where precision and consistency are critical. With industries increasingly demanding materials that can do more with less, TiTa10 Titanium Alloy Powder is rapidly becoming the go-to solution.


Composition and Properties of TiTa10 Titanium Alloy Powder

To appreciate the versatility of TiTa10 Titanium Alloy Powder, let’s break down its composition and explore its physical and mechanical properties.

Chemical Composition of TiTa10 Titanium Alloy Powder

ElementPercentage (%)Role in the Alloy
Titanium (Ti)~90Provides lightweight properties, corrosion resistance, and strength.
Tantalum (Ta)~10Enhances strength, biocompatibility, and resistance to extreme environments.

Physical and Mechanical Properties

PropertyValueSignificance
Density~4.6–5.0 g/cm³Lightweight yet strong, ideal for aerospace and medical applications.
Melting Point~1650°CSuitable for high-temperature environments like turbines.
Tensile Strength~900–1200 MPaStrong enough for structural and load-bearing components.
Hardness~300 HVProvides excellent wear resistance.
Corrosion ResistanceExceptionalPerforms well in harsh, corrosive environments, including the human body.
BiocompatibilityExcellentSafe for use in implants and medical devices.

These properties make TiTa10 Titanium Alloy Powder indispensable in industries that require strength, precision, and reliability.


Applications of TiTa10 Titanium Alloy Spherical Powder

Thanks to its unique blend of properties, TiTa10 Titanium Alloy Powder is used across a range of industries. Its biocompatibility makes it ideal for medical implants, while its lightweight strength is perfect for aerospace and automotive components.

Key Applications of TiTa10 Titanium Alloy Powder

IndustryApplication
AerospaceJet engine components, structural parts, and high-temperature coatings.
MedicalOrthopedic implants, dental implants, pacemaker components, and surgical tools.
AutomotiveLightweight engine parts, exhaust systems, and chassis components.
Additive Manufacturing3D-printed parts for precision engineering and lightweight designs.
Industrial MachineryWear-resistant tools and high-performance components for heavy-duty use.
EnergyTurbine blades, heat exchangers, and nuclear reactor components.

From 3D printing intricate parts to developing life-saving implants, this alloy is a versatile solution for modern manufacturing needs.


Specifications, Sizes, and Standards for TiTa10 Titanium Alloy Powder

To meet the diverse needs of various industries, TiTa10 Titanium Alloy Spherical Powder is produced in different particle sizes and adheres to strict international standards.

Specifications for TiTa10 Titanium Alloy Powder

SpecificationDetails
Particle Size15–45 µm for additive manufacturing; 45–150 µm for powder metallurgy.
Purity≥99%
ShapeSpherical for consistent flow and packing.
StandardsISO 13485 (Medical), ASTM F2924 (Additive Manufacturing), AMS 4999 (Aerospace).

These specifications ensure the powder performs optimally in critical manufacturing processes.


Pricing and Suppliers of TiTa10 Titanium Alloy Powder

If you’re considering using TiTa10 Titanium Alloy Powder, understanding the pricing and available suppliers is essential.

Suppliers and Pricing Details

SupplierPrice Range (Per Kg)LocationAdditional Services
ATI Metals$400–$800USACustom particle sizes and technical support.
Carpenter Additive$450–$850GlobalHigh-purity powders for medical and aerospace applications.
GKN Additive$420–$800USASpecialized powders for additive manufacturing.
Sandvik Materials Technology$400–$850GlobalTailored solutions for industrial and medical sectors.

Pricing can vary depending on order quantities, particle size, and customization requirements.


Advantages and Limitations of TiTa10 Titanium Alloy Powder

Every material has its strengths and weaknesses. Here’s a detailed look at the advantages and limitations of TiTa10 Titanium Alloy Spherical Powder.

Advantages and Limitations

AdvantagesLimitations
Lightweight with exceptional strengthHigher cost compared to traditional materials.
Superior corrosion and heat resistanceRequires specialized equipment for processing.
Biocompatible for medical applicationsLimited availability from smaller suppliers.
Ideal for additive manufacturing and powder metallurgyMay need post-processing for certain applications.

FAQs About TiTa10 Titanium Alloy Spherical Powder

QuestionAnswer
What is TiTa10 Titanium Alloy Powder used for?Aerospace, medical, automotive, and energy applications.
Why choose this alloy over traditional materials?It offers a unique balance of lightweight strength and corrosion resistance.
Is it suitable for 3D printing?Yes, its spherical shape ensures excellent flowability for additive manufacturing.
What is the typical price range?Prices range from $400 to $850 per kilogram, depending on specifications.
How does it perform in medical applications?Its biocompatibility makes it ideal for implants and surgical tools.

Conclusion

TiTa10 Titanium Alloy Spherical Powder is a revolutionary material, offering the perfect combination of lightweight strength, corrosion resistance, and biocompatibility. Its spherical shape makes it ideal for additive manufacturing, while its mechanical properties ensure reliability in high-stress environments.

Whether you’re designing jet engines, medical implants, or industrial tools, this material is a game-changer, ready to meet the demands of modern manufacturing. Ready to take your projects to the next level? Explore the possibilities with TiTa10 Titanium Alloy Spherical Powder today!

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Metal3DP Technology Co., LTD is a leading provider of additive manufacturing solutions headquartered in Qingdao, China. Our company specializes in 3D printing equipment and high-performance metal powders for industrial applications.

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