BT20 Titanium Alloy Powder for Metal 3D Printing AM | Forgecise Custom Ti Powders

Process Type: BT20 Titanium Alloy Powder

Specifications

Login to view technical data

Resources

No document available.

REQUEST A QUOTE

Product Description

CategoryPropertyValue / RangeUnit
Chemical Composition (wt.%)TiBalance
Al5.5–7.1wt.%
Zr1.5–2.5wt.%
Mo0.5–2.0wt.%
V0.8–2.5wt.%
Si≤0.15wt.%
Fe≤0.25wt.%
C≤0.08wt.%
O≤0.12wt.%
N≤0.03wt.%
H≤0.015wt.%
Physical PropertiesParticle Size Range (D₁₀/D₅₀/D₉₀)≥15 / 30–40 / ≤63μm
Sphericity≥0.9
Apparent Density≥2.4g/cm³
Tap Density≥2.8g/cm³
Flowability≤35s/50g
Mechanical Properties (Heat-Treated)Test Temp.Tensile StrengthYield Strength
Room Temp.≥1050≥950
500°C≥750≥600
600°C≥600≥400
UnitsMPaMPa

> Please note: Specifications are subject to change without notice. Contact a Forgecise representative for the most current technical data.

2. Advantages vs. Standards

The BT20 titanium alloy powder offers a unique balance of high-temperature capability, processability, and cost-effectiveness, especially when compared to mainstream aerospace alloys:

  • Superior High-Temp Ductility: At 600°C, elongation ≥15% — significantly higher than Ti-6Al-4V (typically <8% at 500°C) and even exceeds Ti-6242 (~10–12% at 425°C), enabling safer service under thermal cycling.
  • Optimized for AM Processing: Particle size (D₅₀ = 30–40 μm), high sphericity (≥0.9), and excellent flowability (≤35 s/50g); ideal for SLM/EBM.
  • Lower Alloying Cost: Reduced Mo and V lower raw material cost while retaining adequate strength—making it a cost-efficient alternative for non-critical 500°C components.
  • High Purity & Consistency: O ≤0.12%, N ≤0.03%, H ≤0.015% comply with AMS and GB/T limits, ensuring minimal embrittlement and repeatable build quality.
  • Weldability Advantage: Lower Mo + moderate V content improves weld integrity vs. high-Mo alloys, reducing hot cracking risk in hybrid manufacturing.

In summary, BT20 is engineered as a purpose-built AM-grade titanium alloy for medium-to-high temperature structural parts where ductility, manufacturability, and cost matter more than absolute peak strength.

3. Additive Manufacturing Application

BT20 titanium alloy powder is specifically optimized for powder-bed fusion (SLM, EBM) and laser-based directed energy deposition (LSF) processes. Its narrow particle size distribution (D₅₀ = 30–40 μm), high sphericity (>0.9), and excellent flowability (<35 s/50g) ensure uniform powder spreading, minimal porosity, and high-density builds (>99.5% relative density). The alloy’s balanced composition—moderate Al (5.5–7.1%), Zr (1.5–2.5%), and low Mo/V—delivers exceptional high-temperature ductility (≥15% elongation at 600°C) and good weldability, making it ideal for complex, load-bearing aerospace components such as turbine casings, bracket assemblies, and engine mounts that operate continuously below 500°C. Post-build heat treatment further enhances microstructural homogeneity and fatigue resistance, enabling certified use in civil and aviation applications.

4. Forgecise Custom Titanium Powder Service Summary

Forgecise specializes in delivering high-purity, high-consistency, and fully customizable titanium & titanium alloy powders for global additive manufacturing. Beyond standard grades (e.g., TC4/Grade 5, TA1/Grade 1, TC11, Ti-6Al-7Nb), we offer tailored solutions: composition fine-tuning, particle size customization, and pre-treatments (coating, annealing). Every batch is manufactured under ISO 9001 quality management, accompanied by full certification reports, Hall flow tests, and mechanical data from AM-printed test specimens. Choose Forgecise for a reliable, agile, and future-ready partner in metal 3D printing raw materials.

FAQ:

Key Features

High Speed, High Precision, High Quality

Laboratory setting showing gloved hands holding innovative 3D printed metal structures.
Forgecise Metal 3D Printers – SLM Series
Excellent as-built surface finish – Parts achieve good surface quality without post-polishing.
High dimensional accuracy – Ideal for producing precision prototypes.
Direct fabrication of metal end-use parts – Eliminates intermediate steps.
Fully dense metallurgical structure (>99% density) – Eliminating the need for post-processing.
Rapid build times – Parts can be completed depending on size and complexity.
Complex geometries made possible – Functional features such as snap-fits and living hinges can be printed directly.
Broad material compatibility – Supports a wide range of metal powders.
Perfect for custom, low-volume production – small-batch manufacturing.

Get a Customized Quote

This field is required.
This field is required.
This field is required.