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  • 3D Printing PTA Laser Cladding HVOF Thermal Spray Stellite 6 Cobalt Alloy Metal Powder
  • 3D Printing PTA Laser Cladding HVOF Thermal Spray Stellite 6 Cobalt Alloy Metal Powder
  • 3D Printing PTA Laser Cladding HVOF Thermal Spray Stellite 6 Cobalt Alloy Metal Powder
  • 3D Printing PTA Laser Cladding HVOF Thermal Spray Stellite 6 Cobalt Alloy Metal Powder
  • 3D Printing PTA Laser Cladding HVOF Thermal Spray Stellite 6 Cobalt Alloy Metal Powder
  • 3D Printing PTA Laser Cladding HVOF Thermal Spray Stellite 6 Cobalt Alloy Metal Powder
3D Printing PTA Laser Cladding HVOF Thermal Spray Stellite 6 Cobalt Alloy Metal Powder
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3D Printing PTA Laser Cladding HVOF Thermal Spray Stellite 6 Cobalt Alloy Metal Powder

  • 5 - 19 Kilograms
    $50
  • 20 - 99 Kilograms
    $45
  • 100 - 299 Kilograms
    $38
  • >= 300 Kilograms
    $31

Customization:

Customized logo(Min.Order: 20 pieces)
Customized packaging(Min.Order: 500 pieces)
Graphic customization(Min.Order: 500 pieces)
View product details

3D Printing PTA Laser Cladding HVOF Thermal Spray Stellite 6 Cobalt Alloy Metal Powder

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • 3D Printing & Advanced Coating Applications: Designed for precision 3D printing, plasma transferred arc (PTA) laser cladding, and high-velocity oxygen fuel (HVOF) thermal spray processes.
  • High-Performance Alloy Material: Stellite 6 cobalt-based alloy with chromium and tungsten ensures exceptional wear resistance, corrosion protection, and thermal stability for demanding industrial applications.

Key features

  • 1. Material Technology: Cobalt-Based Alloy for Extreme Durability

    • With Stellite 6’s cobalt-chromium-copper-tungsten alloy composition, achieve exceptional wear and corrosion resistance in harsh environments like mining and manufacturing. This material outperforms standard stainless steel in high-stress applications*.

  • 2. Interactive Design: Optimized Particle Size for Precision Applications

    • With a precise 100/325 mesh particle size distribution, ensure uniform deposition in 3D printing, PTA laser cladding, and HVOF thermal spray systems—critical for consistent results in precision manufacturing*.

  • 3. Performance Parameters: High-Temperature Stability

    • With cobalt’s inherent thermal resistance, maintain structural integrity at elevated temperatures, enabling reliable use in industrial processes like thermal spraying and laser cladding*.

  • 4. Scenario Solutions: Versatile for Industrial and Engineering Demands

    • Designed for continuous operation in mining, manufacturing, and engineering sectors, this powder supports applications requiring both corrosion resistance and high-temperature stability, such as wear-resistant coatings and component repair*.

  • 5. Certification Standards: Traceable Quality Assurance

    • With SGMTEC’s rigorous quality control and unique lot numbering (e.g., plco620210602x5), ensure batch consistency and compliance with industrial standards for critical applications*.

Product details

3D Printing PTA Laser Cladding HVOF Thermal Spray Stellite 6 Cobalt Alloy Metal Powder

SGMTEC’s Stellite 6 Cobalt Alloy Metal Powder is a high-performance material engineered for precision applications in 3D printing, laser cladding, and HVOF thermal spray processes. This cobalt-based alloy combines exceptional wear resistance, corrosion resistance, and thermal stability, making it ideal for industrial sectors such as aerospace, automotive, and energy. With a particle size of 100/325 mesh, it ensures optimal flowability and layer adhesion in additive manufacturing.

Technical specifications

FeatureSpecificationBenefit
Material CompositionCr, Co, W, Cu (Stellite 6 alloy)High hardness and corrosion resistance
Particle Size100/325 mesh (149–44 μm)Uniform distribution for precise printing
Purity≥99.5%Minimizes defects in critical components
Application3D printing, PTA, laser cladding, HVOFVersatile for complex geometries
CertificationISO 9001, ASTM E1426Ensures quality and compliance

Customization guide

Adjustable parameters include particle size distribution (to optimize for specific nozzle diameters) and chemical composition (to enhance hardness or thermal conductivity). Contact SGMTEC for tailored solutions for specialized applications like turbine blades or wear-resistant coatings.

Get inspired

From aerospace turbine components to automotive engine parts, Stellite 6’s robust properties enable durable, high-performance solutions. Its thermal stability allows seamless integration into demanding environments, while its fine particle size ensures flawless surface finishes in additive manufacturing.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Particle Size Consistency±10% deviation±5% deviation*±2% deviation**
Purity99.2%99.5%99.8%
Flowability (s/50g)22–2818–2215–18

Supplier's note

  1. Three Technical Breakthroughs:

    • Particle Size Control: The Pro Model’s ±2% deviation ensures uniform layer adhesion in high-precision 3D printing.
    • Purity Enhancement: The Advanced Model’s 99.5% purity reduces porosity in laser cladding, improving component longevity.
    • Flowability Optimization: The Pro Model’s 15–18 s/50g flow rate is 20% faster than industry benchmarks, enabling smoother HVOF spraying.

  2. Version Selection Guidance:

    • Base Model: Suitable for general manufacturing (e.g., wear plates) where cost efficiency is prioritized.
    • Advanced Model: Ideal for aerospace and energy sectors requiring mid-tier performance (e.g., turbine nozzles).
    • Pro Model: Best for extreme environments (e.g., rocket engine components) needing triple the industry-standard corrosion resistance and precision. With its enhanced flowability, it pairs seamlessly with high-speed HVOF systems to reduce production downtime.

Frequently asked questions

  • Which Stellite 6 metal powder suits 3D printing and HVOF thermal spray applications?

  • How should Stellite 6 cobalt alloy powder be stored to maintain quality?

  • What makes Stellite 6 better than stainless steel for wear-resistant coatings?

  • Can SGMTEC customize Stellite 6 powder particle sizes for laser cladding?

  • Is SGMTEC’s Stellite 6 powder compliant with industrial safety standards?

  • What advantages does Stellite 6 offer for turbine blade thermal spraying?

  • Does SGMTEC provide technical support for PTA laser cladding with Stellite 6?

  • Why choose SGMTEC’s Stellite 6 over generic cobalt alloys for mining equipment?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Particle Size Distribution3D Printing, Laser Cladding100/325 mesh (ISO 3310-1) ▲▲
(Industry: 80/270 mesh)
Base: 100/325 mesh
Advanced: 120/400 mesh (finer consistency)		Base: Ensures uniform layer adhesion in 3D printing.
Advanced: Reduces porosity in high-precision parts.		Advanced: Higher cost due to tighter particle grading.
Chemical CompositionCorrosive Environments (e.g., Chemical Plants)Cr: 18-22%, Co: 60-65% (ASTM E1086) ▲
Base: Meets ASTM E1086 standards.
Advanced: Adds 1% tungsten for enhanced hardness.		Base: Resists acid/alkali corrosion.
Advanced: Outperforms industry in abrasive conditions.		Advanced: Requires specialized handling during processing.
Wear ResistanceMining Equipment, Turbine Blades600 abrasion cycles (ASTM G65) ▲▲
Base: 600 cycles (Industry: 500)
Advanced: 800 cycles via nano-coating.		Base: Extends component lifespan by 20% vs. industry.
Advanced: Ideal for ultra-high-wear applications.		Advanced: Limited availability in bulk orders.
Corrosion ResistanceMarine/Offshore Structures600+ hours salt spray (ASTM B117) ▲
Base: 600 hours (Industry: 500)
Advanced: 800 hours via dual-phase alloying.		Base: Outperforms competitors in saline environments.
Advanced: Meets offshore industry’s严苛 standards.		Advanced: Higher price point.
Application VersatilityAerospace, Medical ImplantsCompatible with PTA, HVOF, 3D Printing ▲▲
Base: Supports 3D printing/Laser Cladding.
Advanced: Adds HVOF thermal spray compatibility.		Base: Widely adopted for prototyping.
Advanced: Enables complex geometries in mass production.		Advanced: Requires specialized equipment.
Customization OptionsTailored Industrial SolutionsCustom mesh sizes, alloy blends (via SGMTEC) ▲▲
Base: Standard 100/325 mesh.
Advanced: Custom 150/500 mesh + trace element tuning.		Base: Meets 80% of industrial needs.
Advanced: Tailored for niche applications (e.g., aerospace).		Advanced: Longer lead times for bespoke orders.

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