

Fine Titanium Powder

BYC Ti's Fine Titanium Powder is engineered for high-performance yet cost-sensitive applications, offering a balanced blend of purity, reactivity, and flowability. With particle sizes typically ranging from 45 μm to 150 μm, this powder is widely used in PM (Powder Metallurgy), thermal spray coatings, alloying, chemical synthesis, and energetic formulations.

Manufactured using hydride-dehydride (HDH) and gas atomization techniques, our fine titanium powders are tailored to deliver stable chemical composition, excellent sintering behavior, and reliable handling characteristics — making them ideal for both technical and industrial-grade applications.

Key Specifications

Parameter	Specification
Particle Size Range	45 μm – 150 μm (custom screening available)
Purity	≥ 99.5% for titanium content
Morphology	Irregular (HDH), or spherical (gas atomized)
Alloy Options	CP Titanium (Grade 1–4), Ti-6Al-4V, Ti-Fe, Ti-Al master alloys
Apparent Density	1.2 – 2.8 g/cm³ depending on morphology
Oxygen Content	HDH: ≤ 0.35%; Atomized: ≤ 0.20%
Production Methods	HDH, gas atomization, or mechanical crushing
Packaging	5 kg / 25 kg sealed bags or drums under argon or vacuum

Features & Advantages

Reliable Metallurgical Performance

Excellent sinterability, high compressibility, and consistent chemistry make it ideal for powder metallurgy parts, filters, and porous structures.

Stable Surface Reactivity

Optimized for thermal spraying and high-temperature processing — forms durable, corrosion-resistant coatings on metal substrates.

Chemical Process Compatibility

Reactive surface enables use in titanium chlorination, catalytic synthesis, and powder-based reactions for hydrogen generation or additive blending.

Energetic Formulation Ready

Suitable for use in pyrotechnics, tracer compositions, and metallized fuels due to its predictable burn rate and particle energy.

Applications

Powder Metallurgy (PM): Used in producing sintered components, filters, and structural parts for aerospace, defense, and industrial machinery.

Thermal Spraying & Coatings: Commonly applied as a corrosion-resistant, thermal barrier, or wear-resistant layer on turbine blades, ship parts, and process equipment.

Chemical Synthesis: Titanium powder serves as a feedstock for titanium tetrachloride production and hydrogen generation via hydrolysis or chemical decomposition.

Alloy Additions: Acts as a master alloy or alloying agent in steel, aluminum, and nickel systems to enhance strength and corrosion resistance.

Energetic Materials: Fine titanium is used in flare compositions, fireworks, and military-grade pyrotechnics for its bright white combustion and high energy density.

Example Technical Data (CP Ti Grade 2, HDH, -100 Mesh)

Property	Typical Value
Purity (Ti content)	≥ 99.5%
Oxygen Content	≤ 0.25%
Particle Size	D50 ~ 90 μm
Morphology	Angular / irregular
Apparent Density	1.5 g/cm³
Flowability (Hall Flow)	~35 s/50 g

Packaging & Storage

Standard Formats: 5 kg, 10 kg, or 25 kg bags; custom drum packaging available
Inert Atmosphere: Nitrogen or argon-filled packaging to prevent oxidation
Storage Recommendations: Cool, dry, well-ventilated areas; away from heat or ignition sources
Shelf Life: 12–18 months when properly sealed

About BYC Ti

BYC Ti is a leading manufacturer of advanced titanium materials serving aerospace, medical, energy, and chemical industries worldwide. From atomized powders to ultra-thin foils and ribbons, our solutions are precision-crafted for critical performance, backed by full traceability, and delivered with expert support.

Titanium Products