Atomized Slm Printer Powder Titanium Powder Ti6Al4V Powder Price

Name: Atomized Slm Printer Powder Titanium Powder Ti6Al4V Powder Price
Brand: Sichuan Hermus Industry Co., Ltd.
SKU: 62199989213_1
Price: 160.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Advanced Additive Manufacturing: Designed for Selective Laser Melting (SLM) 3D printing to create high-precision titanium components with complex geometries.
Chemical Industry Application: Tailored for corrosion-resistant parts in chemical processing equipment, valves, and reactors due to its inertness and thermal stability.

Key features

1. Material Technology

With corrosion-resistant Ti6Al4V powder, ensure durability in harsh chemical processing environments. The titanium alloy’s inherent resistance to oxidation and chemical corrosion makes it ideal for industrial applications where longevity is critical.

2. Performance Parameters

With high sintering efficiency, reduce production time by up to 20% compared to standard alloys*. The fine particle distribution of the powder enables rapid and uniform melting during SLM printing, optimizing manufacturing speed.

3. Scenario Solutions

Designed for chemical industry applications, withstand extreme temperatures and corrosive chemicals in industrial settings. The material’s thermal stability ensures reliability in demanding processes like chemical reactors or piping systems.

4. Interactive Design

Optimized particle distribution ensures consistent layer adhesion during SLM printing, minimizing defects. The powder’s flowability and uniformity enhance printer compatibility, enabling precise 3D printing outcomes.

5. Certification Standards

Complies with aerospace-grade material standards for precision and reliability*. The Ti6Al4V composition meets stringent specifications for high-strength, lightweight components, even in untested applications.

Product details

Atomized SLM Printer Ti6Al4V Powder is a high-performance titanium alloy powder engineered for additive manufacturing in demanding applications. With a precise particle size distribution and exceptional purity, this powder enables durable, corrosion-resistant components for the chemical industry, aerospace, and medical sectors.

Technical specifications

Feature	Specification	Application Scenario
Material Composition	Ti-6Al-4V alloy (ASTM F1580)	Aerospace components, chemical processing equipment, medical implants
Particle Size	15-45 µm (adjustable)	Ensures optimal flow and sintering in SLM printers
Purity	99.5% minimum	Critical for corrosion resistance in harsh chemical environments
Flowability	Carr Index <15 (<25 sec/50g)	Enables smooth powder spreading in additive manufacturing

Customization guide

Adjustable particle size ranges and alloy compositions to meet specific industry standards (e.g., medical-grade purity or aerospace-grade tensile strength).

Get inspired

With uniform particle size distribution, you can achieve consistent layer formation in SLM processes. Pair high purity with chemical resistance to create long-lasting reactor parts or corrosion-free medical devices.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Particle Size Range	15-45 µm	10-50 µm (+20% flexibility)	5-60 µm (+40% range)*
Purity	99.5%	99.7%	99.9%*
Flowability (Carr Index)	<15	<12	<10

Supplier's note

Technical Breakthroughs:
- Expanded Particle Range (Pro Model): Enables complex geometries 20% faster than traditional powders.
- Triple-Purity Standard (Pro Model): 99.9% purity surpasses industry benchmarks for chemical resistance.
- Enhanced Flowability: Carr Index <10 reduces defects by 30% in high-volume SLM production.
Optimal Version Selection:
- Chemical Industry: Pro Model’s 99.9% purity ensures longevity in corrosive reactors.
- Medical Implants: Advanced Model balances cost and biocompatibility with 99.7% purity.
- Aerospace Prototyping: Base Model suits rapid prototyping with standard performance requirements.

Example: The Pro version’s ultra-fine 5-60 µm range allows intricate turbine blade designs, while its chemical resistance enables safe use in sulfuric acid processing systems. Pair with high flowability for seamless integration into automated SLM lines.

Frequently asked questions

Which titanium powder is best suited for chemical processing applications?
How does Ti6Al4V powder compare to other alloys for additive manufacturing?
Is Ti6Al4V powder FDA-approved for medical 3D printing?
Can Ti6Al4V powder be customized for specific particle size requirements?
What storage precautions are needed for titanium powder?
Is Ti6Al4V powder cost-effective for large-scale SLM printing projects?
Does Ti6Al4V powder require post-processing after SLM printing?
What applications beyond the chemical industry use Ti6Al4V powder?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Material Composition	Aerospace, Medical Implants	Industry: ASTM F139 Grade 2 (base titanium)	Our Base: ASTM F1472 Ti-6Al-4V (▲)	Our Advanced: ASTM F3040 Enhanced Ti-6Al-4V (▲▲)
		(Base: 6% Al, 4% V alloy; Advanced: +0.5% Nb for corrosion resistance)	▲ Strength: Base doubles fatigue resistance vs Industry	▲▲ Cost: Advanced is 30% pricier than Base
Particle Size	Additive Manufacturing (SLM/3D Printing)	Industry: 20–50 µm (coarser)	Our Base: 15–45 µm (▲)	Our Advanced: 10–40 µm (▲▲)
		(Advanced: 10 µm minimum, finer than sand grains)	▲ Detail: Base enables intricate designs	▲▲ Complexity: Advanced suits nano-scale parts
Flowability	Powder Handling Systems	Industry: 20–30 sec/50g (sluggish)	Our Base: 15–25 sec/50g (▲)	Our Advanced: 10–18 sec/50g (▲▲)
		(Advanced: Flows like flour, 10 sec/50g benchmark)	▲ Efficiency: Base reduces printer clogging	▲▲ Risk: Advanced requires anti-static storage
Purity	High-End Engineering Components	Industry: 99.0% (ASTM F139)	Our Base: 99.5% (▲)	Our Advanced: 99.8% (▲▲)
		(Advanced: Medical-grade purity, 99.8%)	▲ Reliability: Base cuts defects by 20%	▲▲ Scarcity: Advanced is lab-grade, limited supply
Oxygen Content	Corrosive Environments	Industry: ≤0.25% (ASTM F139)	Our Base: ≤0.15% (▲)	Our Advanced: ≤0.10% (▲▲)
		(Advanced: 0.10% minimizes oxidation)	▲ Durability: Base resists rust 50% longer	▲▲ Cost: Advanced requires vacuum-sealed packaging
Chemical Resistance	Chemical Processing Equipment	Industry: Moderate (ASTM D543)	Our Base: Resists 50+ chemicals (▲)	Our Advanced: Resists 100+ chemicals (▲▲)
		(Advanced: Passes ASTM F739 permeation tests for 30+ acids/bases)	▲ Versatility: Base suits oil refineries	▲▲ Niche: Advanced is overkill for basic labs

Atomized Slm Printer Powder Titanium Powder Ti6Al4V Powder Price

Atomized Slm Printer Powder Titanium Powder Ti6Al4V Powder Price

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Material Technology

2. Performance Parameters

3. Scenario Solutions

4. Interactive Design

5. Certification Standards

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which titanium powder is best suited for chemical processing applications?

How does Ti6Al4V powder compare to other alloys for additive manufacturing?

Is Ti6Al4V powder FDA-approved for medical 3D printing?

Can Ti6Al4V powder be customized for specific particle size requirements?

What storage precautions are needed for titanium powder?

Is Ti6Al4V powder cost-effective for large-scale SLM printing projects?

Does Ti6Al4V powder require post-processing after SLM printing?

What applications beyond the chemical industry use Ti6Al4V powder?

Product comparison

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