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Inconel Alloy

Monel Alloy

Hastelloy Alloy

Incoloy Alloy

Pure Nickel Metal

NiCr Alloy

FeCrAl Alloy

CuNi Alloy

Resistance Wire

High Temperature Nickel Alloy

Nickel Welding Wire

Thermal Spray Wire

Precision Alloy

Thermocouple Bare Wire

Thermocouple Extension Wire

Mineral Insulated Cable

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Cobalt Chromium Alloy
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Durable Stellite 6 Tube for Clean Hydrogen Production

Durable Stellite 6 Tube for Clean Hydrogen Production

Brand Name: DLX
Model Number: Cobalt chromium tube Stellite 6
MOQ: 10kg
Payment Terms: L/C,D/A,D/P,T/T,Western Union
Supply Ability: 500 tons per month
Detail Information
Product Description
Detail Information
Place of Origin:
China,Jiangsu
Certification:
Ce,Rohs
Supply Ability:
500 tons per month
Highlight:

Stellite 6 hydrogen production tube

,

Cobalt chromium alloy durable tube

,

Clean hydrogen Stellite 6 component

Product Description
Durable Stellite 6 Tube for Clean Hydrogen Production
Durable Stellite 6 Tube for Clean Hydrogen Production 0
Electric Water Electrolysis is emerging as a powerful, environmentally-friendly method to produce clean hydrogen. The demand for advanced materials that can withstand harsh electrolytic conditions has never been higher. One such material, Stellite 6 Cobalt Chromium Tube, has proven to be essential in this rapidly growing industry. DLX Company is proud to offer this cutting-edge material, designed for use in electrolysis systems to produce hydrogen cleanly and efficiently.
Product Introduction
The Cobalt Chromium Tube Stellite 6 is a high-performance alloy designed for use in electrolysis cells that produce hydrogen via the water-splitting process. This tube is made of a cobalt-chromium alloy known for its outstanding resistance to corrosion, erosion, and wear, especially in high-temperature and high-pressure environments. In the hydrogen production process, where electrolyzers face aggressive operating conditions, materials like Stellite 6 are essential for ensuring durability, efficiency, and long service life.
The advanced Stellite 6 Tube from DLX is specifically engineered for electrolysis systems, providing superior protection against harsh electrolytic conditions such as acidic environments and thermal stresses. Its unique composition and excellent mechanical properties make it ideal for high-demand applications in clean hydrogen production.
Cobalt-Chromium Alloy Parameters
Parameter Typical Value/Range
Chemical Composition Cobalt (Co): 60-70%
Chromium (Cr): 25-30%
Molybdenum (Mo): 4.5-7%
Silicon (Si): <1%
Manganese (Mn): <1%
Iron (Fe): 0-1%
Carbon (C): 0-0.35%
Density 8.3-8.5 g/cm³
Melting Point 1250-1450°C
Hardness (Rockwell) Soft: 20-30 HRC
Medium: 30-40 HRC
Hard: 40-50 HRC
Tensile Strength 800-1200 MPa (depending on alloy and heat treatment)
Yield Strength 500-900 MPa
Young's Modulus 200-230 GPa
Elongation 10-20%
Corrosion Resistance Excellent, resistant to acids, alkalis, saline, and high-temperature oxidation
Biocompatibility Good, widely used in dental restorations and orthopedic implants
Wear Resistance Excellent, suitable for high-wear environments like cutting tools, turbine blades
High-Temperature Resistance Maintains performance up to 600-800°C, ideal for aerospace engine components
Processing Methods Precision casting, 3D printing, CAD/CAM, laser cladding
Typical Applications Dental prosthetics (e.g., crowns, frameworks), aerospace parts, turbine blades, oil drilling rods, medical implants
Key Features
  • Corrosion Resistance: Stellite 6 has exceptional resistance to corrosion, particularly in acidic and alkaline electrolytic environments. This makes it a preferred choice for electrolysis cells used in hydrogen production.
  • High Wear Resistance: The alloy exhibits outstanding resistance to wear and abrasion, which is crucial in applications involving prolonged contact with electrolytes.
  • Thermal Stability: With a high melting point, Stellite 6 remains stable under extreme temperatures, ensuring that your electrolysis process runs smoothly without material degradation.
  • Toughness: This material is known for its toughness and ability to withstand mechanical stress, ensuring longer operational life.
  • Low Maintenance: Due to its durable properties, the need for frequent maintenance is minimized, resulting in lower operational costs.
Durable Stellite 6 Tube for Clean Hydrogen Production 1 Durable Stellite 6 Tube for Clean Hydrogen Production 2
Advantages of Stellite 6 Tubes in Hydrogen Production
  1. Enhanced Longevity: The durability of Stellite 6 tubes makes them ideal for extended use in high-stress electrolyzers, leading to fewer replacements and less downtime in production processes.
  2. Efficient Hydrogen Production: The material's ability to resist corrosion and wear translates into more efficient and continuous hydrogen production. Reduced degradation ensures that the electrolyzer performs at optimal efficiency over time.
  3. Cost-Effective: While the upfront investment in Stellite 6 tubes may be higher, the reduced maintenance and longer service life make them a cost-effective choice in the long run.
  4. Sustainability: By contributing to clean hydrogen production, the Stellite 6 tube plays a significant role in promoting renewable energy solutions and reducing reliance on fossil fuels.
Industry Analysis
The clean hydrogen industry is experiencing rapid growth, driven by the global push for renewable energy and carbon-neutral solutions. Electrolyzers are increasingly seen as the backbone of hydrogen production. As industries like transportation, energy, and manufacturing transition towards sustainable solutions, the demand for efficient and durable materials like Stellite 6 tubes is on the rise.
Electrolysis is set to play a pivotal role in meeting global hydrogen production goals, especially as governments and corporations strive to cut carbon emissions. In this context, advanced materials that ensure system reliability, efficiency, and longevity are critical. Stellite 6 tubes offer unmatched performance under harsh electrolytic conditions, making them a vital component in electrolysis technology.
Applications of Stellite 6 Tube
  1. Clean Hydrogen Production: The primary use of Stellite 6 tubes is in water electrolysis cells for the production of hydrogen gas, which is vital for green energy applications.
  2. Aerospace: Due to their high-temperature resistance and toughness, Stellite 6 tubes are used in aerospace components exposed to extreme stress.
  3. Chemical Processing: The excellent corrosion resistance makes Stellite 6 ideal for use in chemical reactors, where harsh chemicals are involved.
  4. Oil & Gas: In environments where components are exposed to erosion, corrosion, and wear, Stellite 6 is often used in drill pipes, pumps, and valves.
Durable Stellite 6 Tube for Clean Hydrogen Production 3 Durable Stellite 6 Tube for Clean Hydrogen Production 4
Why DLX is the Best Choice for Stellite 6 Tubes
  • Advanced Manufacturing: Our state-of-the-art production facilities ensure that every Stellite 6 tube meets the highest industry standards. We employ cutting-edge technology to deliver precision and quality.
  • Customization: DLX offers the flexibility to customize tube dimensions and alloy compositions to meet the specific needs of your electrolysis system. We work closely with our customers to provide tailored solutions for optimal performance.
  • Exceptional Durability: Unlike many competitors, DLX's Stellite 6 tubes are designed to last longer and perform better in high-stress environments, reducing the total cost of ownership.
  • Global Presence: DLX serves customers worldwide, ensuring timely delivery and responsive customer support no matter where you are located.
Durable Stellite 6 Tube for Clean Hydrogen Production 5 Durable Stellite 6 Tube for Clean Hydrogen Production 6 Durable Stellite 6 Tube for Clean Hydrogen Production 7
Frequently Asked Questions
What is Stellite 6 made of?
Stellite 6 is a cobalt-chromium alloy with high levels of resistance to wear, corrosion, and heat. It is ideal for use in high-performance applications like hydrogen production.
How does Stellite 6 improve hydrogen production?
Its exceptional corrosion and wear resistance enhance the longevity of electrolyzers, ensuring consistent hydrogen output over longer periods of operation.
Can Stellite 6 be used in other industries?
Yes, in addition to hydrogen production, Stellite 6 is widely used in aerospace, chemical processing, and oil and gas applications due to its ability to withstand extreme conditions.
What are the main benefits of Stellite 6 for electrolysis systems?
Stellite 6 tubes provide longer life, higher efficiency, reduced maintenance, and greater resistance to corrosion and wear, making them ideal for electrolysis.
How does the use of Stellite 6 contribute to sustainability?
By enabling efficient hydrogen production through electrolysis, Stellite 6 plays a key role in producing clean, green hydrogen, which supports sustainable energy solutions.
Is DLX the best choice for Stellite 6 tubes?
DLX offers unmatched quality, superior durability, and customization options to ensure optimal performance in hydrogen production systems.
What are the cost considerations for using Stellite 6 tubes?
While Stellite 6 tubes may have a higher initial cost, their longer lifespan, reduced maintenance needs, and higher efficiency lead to cost savings in the long run.
How do I choose the right Stellite 6 tube for my application?
Our team at DLX offers expert guidance to help you select the right tube dimensions and alloy composition based on your electrolysis system's specific needs.
Tags: 

Tube cobalt chromium alloy  

800-1000 MPa cobalt chromium alloy  

Wear Resistant cobalt chromium alloy

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