Nickel Alloys Alloy 286 - Sterling Metal & Alloys

Alloy 286

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Alloy 286 Importers, Exporters and Manufacturers of India

Alloy 286 Manufacturer, Alloy 286 Supplier and Alloy 286 Exporter in India

Alloy 286, also known as Inconel 286 or UNS S66286, is a high-strength, corrosion-resistant nickel-based superalloy designed for applications demanding excellent mechanical properties and stability at elevated temperatures. Composed primarily of nickel, chromium, and iron, Alloy 286 also contains significant amounts of molybdenum and titanium, contributing to its remarkable performance in aggressive environments. This alloy is recognized for its exceptional strength, high creep-rupture strength, and oxidation resistance, making it well-suited for applications in aerospace, marine, and chemical processing industries. Alloy 286 exhibits outstanding corrosion resistance in various conditions, including harsh acids, alkaline solutions, and environments with sulfide compounds. Alloy 286 maintains its mechanical properties at temperatures up to approximately 1300°F (704°C), offering reliable performance in high-temperature applications such as gas turbine components, jet engines, and industrial heat exchangers. Its ability to withstand thermal cycling and exposure to oxidative and corrosive atmospheres contributes to its versatility in challenging environments. The alloy undergoes a solution annealing process followed by age hardening, optimizing its microstructure for enhanced mechanical strength and durability. Alloy 286 is available in various forms, including bars, sheets, and pipes, allowing for flexibility in manufacturing and design. Weldability is a notable feature, enabling Alloy 286 to be seamlessly integrated into complex structures using standard welding techniques. Post-weld heat treatment may be employed to maintain the alloy's properties. The alloy's excellent machinability further facilitates its use in precision components. Alloy 286 exemplifies the advancements in materials science, offering a combination of high-temperature strength, corrosion resistance, and structural stability. Ongoing research and development continue to explore new applications and refinements for this superalloy, solidifying its place as a key material in demanding engineering environments.

Alloy 286 Specifications

Property Specification
Composition
  • Nickel (Ni): 26-30%
  • Chromium (Cr): 15-17%
  • Iron (Fe): 53% (minimum)
  • Molybdenum (Mo): 1.5-2.5%
  • Titanium (Ti): 1.9-2.4%
  • Others (Mn, Si, V, C, S, P): Trace amounts
Physical Properties
  • Density: 7.92 g/cm³
  • Melting Point: 1364-1424°C (2487-2595°F)
Mechanical Properties
  • Tensile Strength: 600 MPa (minimum)
  • Yield Strength: 275 MPa (minimum)
  • Elongation: 25% (minimum)
Heat Treatment Solution Annealing at 1038-1149°C (1900-2100°F), followed by air cooling or water quenching
Temperature Limits
  • Continuous Service: 704°C (1300°F) maximum
  • Intermittent Service: 816°C (1500°F) maximum
Forms
  • Bars
  • Sheets
  • Pipes
  • Others as per industry standards
Weldability
  • Weldable using common welding techniques
  • Post-weld heat treatment may be necessary
Corrosion Resistance Excellent resistance to corrosion in harsh environments, including acids and sulfide compounds
Applications
  • Aerospace components
  • Gas turbine components
  • Chemical processing equipment
  • Industrial heat exchangers
Quality Standards
  • AMS 5731
  • AMS 5732
  • AMS 5737
  • ASTM A638

Alloy 286 Chemical Composition

Element Content (%)
Al .35 max
B .003 - .010
C .08 max
Cr 13.5 - 16.0
Fe bal
Mn 2.0 max
Mo 1.00 - 1.75
Ni 24.0 - 27.0
Ti 1.90 - 2.30
Si 1.0 max
V .10 - .50

Alloy 286 Applications & Uses

  • Global Aerospace
  • Marine Industry
  • Oil and Gas Industry
  • Electronic
  • Power Generation
  • Petrochemical
  • Bio-medical Industry
  • Pharmaceutical Industry
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Round Bar Importers, Exporters, and Manufacturers in India

Alloy 286, also known as Inconel 286 or UNS S66286, is a high-strength, corrosion-resistant nickel-based superalloy designed for applications demanding excellent mechanical properties and stability at elevated temperatures. Composed primarily of nickel, chromium, and iron, Alloy 286 also contains significant amounts of molybdenum and titanium, contributing to its remarkable performance in aggressive environments. This alloy is recognized for its exceptional strength, high creep-rupture strength, and oxidation resistance, making it well-suited for applications in aerospace, marine, and chemical processing industries. Alloy 286 exhibits outstanding corrosion resistance in various conditions, including harsh acids, alkaline solutions, and environments with sulfide compounds. Alloy 286 maintains its mechanical properties at temperatures up to approximately 1300°F (704°C), offering reliable performance in high-temperature applications such as gas turbine components, jet engines, and industrial heat exchangers. Its ability to withstand thermal cycling and exposure to oxidative and corrosive atmospheres contributes to its versatility in challenging environments. The alloy undergoes a solution annealing process followed by age hardening, optimizing its microstructure for enhanced mechanical strength and durability. Alloy 286 is available in various forms, including bars, sheets, and pipes, allowing for flexibility in manufacturing and design. Weldability is a notable feature, enabling Alloy 286 to be seamlessly integrated into complex structures using standard welding techniques. Post-weld heat treatment may be employed to maintain the alloy's properties. The alloy's excellent machinability further facilitates its use in precision components. Alloy 286 exemplifies the advancements in materials science, offering a combination of high-temperature strength, corrosion resistance, and structural stability. Ongoing research and development continue to explore new applications and refinements for this superalloy, solidifying its place as a key material in demanding engineering environments.

Alloy 286 Round Bar specification

Property Specification
Composition
  • Nickel (Ni): 26-30%
  • Chromium (Cr): 15-17%
  • Iron (Fe): 53% (minimum)
  • Molybdenum (Mo): 1.5-2.5%
  • Titanium (Ti): 1.9-2.4%
  • Others (Mn, Si, V, C, S, P): Trace amounts
Physical Properties
  • Density: 7.92 g/cm³
  • Melting Point: 1364-1424°C (2487-2595°F)
Mechanical Properties
  • Tensile Strength: 600 MPa (minimum)
  • Yield Strength: 275 MPa (minimum)
  • Elongation: 25% (minimum)
Heat Treatment Solution Annealing at 1038-1149°C (1900-2100°F), followed by air cooling or water quenching
Temperature Limits
  • Continuous Service: 704°C (1300°F) maximum
  • Intermittent Service: 816°C (1500°F) maximum
Round Bar Size Range
  • Diameter: As per customer requirements or standard sizes
  • Length: As per customer requirements or standard lengths
Surface Finish Centerless Ground, Polished
Weldability
  • Weldable using common welding techniques
  • Post-weld heat treatment may be necessary
Corrosion Resistance Excellent resistance to corrosion in harsh environments, including acids and sulfide compounds
Quality Standards
  • AMS 5731
  • AMS 5732
  • AMS 5737
  • ASTM A638
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Square Bar Importers, Exporters, and Manufacturers in India

Alloy 286 Square Bar, a key component in advanced engineering applications, showcases the exceptional properties of the nickel-based superalloy known as Inconel 286 or UNS S66286. Composed primarily of nickel, chromium, iron, and additional elements such as molybdenum and titanium, Alloy 286 Square Bar exhibits remarkable mechanical strength, high-temperature stability, and corrosion resistance. This square bar is specifically designed for applications where both strength and durability are crucial, making it a preferred choice in industries such as aerospace, chemical processing, and marine engineering. Its resistance to corrosion in aggressive environments, including exposure to acids and sulfide compounds, further enhances its suitability for challenging applications. Alloy 286 Square Bar is characterized by its ability to maintain mechanical properties at elevated temperatures, making it ideal for use in components subjected to high thermal stresses. This includes applications in gas turbine engines, industrial heat exchangers, and other critical systems where reliable performance in extreme conditions is essential. The square bar undergoes precision manufacturing processes, ensuring dimensional accuracy and uniformity. This facilitates its integration into complex structures and systems, providing structural support and strength where needed. Alloy 286 Square Bar is often subject to solution annealing and age hardening to optimize its microstructure for enhanced performance. Weldability is a notable feature, allowing Alloy 286 Square Bar to be seamlessly incorporated into diverse engineering designs using standard welding techniques. Post-weld heat treatment may be applied to maintain the alloy's mechanical properties, ensuring long-term reliability. Whether serving as a load-bearing structural element or a critical link in high-temperature systems, Alloy 286 Square Bar represents a pinnacle in materials engineering. Ongoing research and development continue to explore new applications and refinements for this superalloy, solidifying its role as a cornerstone in the quest for materials capable of withstanding extreme conditions.

Alloy 286 Square Bar Specification

Property Specification
Composition
  • Nickel (Ni): 26-30%
  • Chromium (Cr): 15-17%
  • Iron (Fe): 53% (minimum)
  • Molybdenum (Mo): 1.5-2.5%
  • Titanium (Ti): 1.9-2.4%
  • Others (Mn, Si, V, C, S, P): Trace amounts
Physical Properties
  • Density: 7.92 g/cm³
  • Melting Point: 1364-1424°C (2487-2595°F)
Mechanical Properties
  • Tensile Strength: 600 MPa (minimum)
  • Yield Strength: 275 MPa (minimum)
  • Elongation: 25% (minimum)
Heat Treatment Solution Annealing at 1038-1149°C (1900-2100°F), followed by air cooling or water quenching
Temperature Limits
  • Continuous Service: 704°C (1300°F) maximum
  • Intermittent Service: 816°C (1500°F) maximum
Square Bar Size
  • Side Length: As per customer requirements or standard sizes
  • Length: As per customer requirements or standard lengths
Surface Finish Centerless Ground, Polished
Weldability
  • Weldable using common welding techniques
  • Post-weld heat treatment may be necessary
Corrosion Resistance Excellent resistance to corrosion in harsh environments, including acids and sulfide compounds
Quality Standards
  • AMS 5731
  • AMS 5732
  • AMS 5737
  • ASTM A638
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Hex Bar Importers, Exporters, and Manufacturers in India

Alloy 286 Hex Bar, a crucial component in advanced engineering applications, embodies the exceptional properties of the nickel-based superalloy, also known as Inconel 286 or UNS S66286. Comprising a precise blend of nickel, chromium, iron, molybdenum, and titanium, Alloy 286 Hex Bar delivers exceptional mechanical strength, high-temperature stability, and corrosion resistance. Designed for applications demanding both strength and durability, Alloy 286 Hex Bar finds its niche in industries such as aerospace, chemical processing, and marine engineering. Its resistance to corrosion in aggressive environments, including exposure to acids and sulfide compounds, enhances its suitability for challenging applications where structural integrity is paramount. One of the distinguishing features of Alloy 286 Hex Bar is its ability to maintain mechanical properties at elevated temperatures, making it a preferred material for components subjected to high thermal stresses. This includes applications in gas turbine engines, industrial heat exchangers, and other critical systems requiring reliable performance in extreme conditions. Precision manufacturing processes ensure dimensional accuracy and uniformity of Alloy 286 Hex Bar, facilitating its integration into complex structures and systems. The hexagonal shape provides additional advantages in terms of handling, torque transmission, and overall versatility in various engineering applications. Alloy 286 Hex Bar is often subjected to solution annealing and age hardening to optimize its microstructure for enhanced performance. Weldability is a key feature, allowing the hex bar to be seamlessly incorporated into diverse engineering designs using standard welding techniques. Post-weld heat treatment may be applied to maintain the alloy's mechanical properties, ensuring long-term reliability. Whether serving as a load-bearing structural element or a critical link in high-temperature systems, Alloy 286 Hex Bar stands as a testament to the cutting edge of materials engineering. Ongoing research and development efforts continue to explore new applications and refinements for this superalloy, solidifying its role as a cornerstone in the quest for materials capable of withstanding extreme conditions.

Alloy 286 Hex Bar Specification

Property Specification
Composition
  • Nickel (Ni): 26-30%
  • Chromium (Cr): 15-17%
  • Iron (Fe): 53% (minimum)
  • Molybdenum (Mo): 1.5-2.5%
  • Titanium (Ti): 1.9-2.4%
  • Others (Mn, Si, V, C, S, P): Trace amounts
Physical Properties
  • Density: 7.92 g/cm³
  • Melting Point: 1364-1424°C (2487-2595°F)
Mechanical Properties
  • Tensile Strength: 600 MPa (minimum)
  • Yield Strength: 275 MPa (minimum)
  • Elongation: 25% (minimum)
Heat Treatment Solution Annealing at 1038-1149°C (1900-2100°F), followed by air cooling or water quenching
Temperature Limits
  • Continuous Service: 704°C (1300°F) maximum
  • Intermittent Service: 816°C (1500°F) maximum
Hex Bar Size
  • Across Flats: As per customer requirements or standard sizes
  • Length: As per customer requirements or standard lengths
Surface Finish Centerless Ground, Polished
Weldability
  • Weldable using common welding techniques
  • Post-weld heat treatment may be necessary
Corrosion Resistance Excellent resistance to corrosion in harsh environments, including acids and sulfide compounds
Quality Standards
  • AMS 5731
  • AMS 5732
  • AMS 5737
  • ASTM A638
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Pipes Importers, Exporters, and Manufacturers in India

Alloy 286 pipes, crafted from the advanced nickel-based superalloy Inconel 286 or UNS S66286, represent a pinnacle in materials engineering, catering to applications that demand superior strength, corrosion resistance, and thermal stability. Comprising a precise blend of nickel, chromium, iron, molybdenum, and titanium, Alloy 286 pipes exhibit exceptional mechanical properties, making them well-suited for deployment in extreme environments. These pipes find widespread use in industries such as aerospace, chemical processing, and power generation, where the demand for reliable performance under high temperatures and corrosive conditions is paramount. The corrosion resistance of Alloy 286 pipes extends to harsh chemicals, acids, and environments containing sulfide compounds, ensuring longevity and reliability in challenging applications. Alloy 286 pipes are designed to withstand elevated temperatures, maintaining their mechanical integrity up to approximately 1300°F (704°C). This makes them ideal for applications in gas turbine engines, industrial heat exchangers, and complex systems where resistance to thermal stress is crucial. Precision manufacturing processes ensure the dimensional accuracy and uniformity of Alloy 286 pipes, facilitating seamless integration into diverse systems. Whether conveying fluids, gases, or serving as structural components, these pipes play a vital role in ensuring the overall efficiency and reliability of critical industrial processes. Weldability is a key feature of Alloy 286 pipes, allowing for easy and secure connections using standard welding techniques. Post-weld heat treatment may be employed to preserve the alloy's mechanical properties and ensure long-term performance. As a testament to cutting-edge materials science, Alloy 286 pipes continue to advance, with ongoing research and development efforts expanding their applications and refining their properties. Their versatility and resilience position them as essential components in industries pushing the boundaries of performance in harsh and demanding environments.

Alloy 286 Pipes Specification

Property Specification
Composition
  • Nickel (Ni): 26-30%
  • Chromium (Cr): 15-17%
  • Iron (Fe): 53% (minimum)
  • Molybdenum (Mo): 1.5-2.5%
  • Titanium (Ti): 1.9-2.4%
  • Others (Mn, Si, V, C, S, P): Trace amounts
Physical Properties
  • Density: 7.92 g/cm³
  • Melting Point: 1364-1424°C (2487-2595°F)
Mechanical Properties
  • Tensile Strength: 600 MPa (minimum)
  • Yield Strength: 275 MPa (minimum)
  • Elongation: 25% (minimum)
Heat Treatment Solution Annealing at 1038-1149°C (1900-2100°F), followed by air cooling or water quenching
Temperature Limits
  • Continuous Service: 704°C (1300°F) maximum
  • Intermittent Service: 816°C (1500°F) maximum
Pipe Dimensions
  • Outer Diameter: As per customer requirements or standard sizes
  • Wall Thickness: As per customer requirements or standard sizes
  • Length: As per customer requirements or standard lengths
Surface Finish Smooth, Polished
Weldability
  • Weldable using common welding techniques
  • Post-weld heat treatment may be necessary
Corrosion Resistance Excellent resistance to corrosion in harsh environments, including acids and sulfide compounds
Quality Standards
  • AMS 5731
  • AMS 5732
  • AMS 5737
  • ASTM A638
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Sheets / Plates Importers, Exporters, and Manufacturers in India

Alloy 286, also known as Incoloy 286 or UNS N66286, is a high-performance, corrosion-resistant nickel-based superalloy designed for use in extreme environments. Composed of nickel, chromium, and iron as its primary constituents, Alloy 286 exhibits exceptional strength and oxidation resistance at elevated temperatures, making it suitable for a wide range of applications in industries such as aerospace, petrochemical, and marine. The alloy's unique combination of properties, including high strength, excellent creep and rupture strength, and resistance to corrosion in aggressive environments, makes it ideal for demanding engineering applications. Alloy 286 sheets and plates are produced through advanced manufacturing processes to ensure precise dimensions and uniform mechanical properties. These sheets and plates are available in various thicknesses, widths, and lengths, providing flexibility for diverse project requirements. Alloy 286's resistance to sulfidation, oxidation, and carburization makes it well-suited for use in high-temperature applications, such as gas turbine components, jet engines, and industrial furnace components. Its corrosion resistance extends to acidic environments, contributing to its versatility in chemical processing and offshore drilling applications. Furthermore, Alloy 286 exhibits good weldability and fabricability, allowing for ease of machining and forming during the manufacturing process. This characteristic enhances the alloy's usability in intricate designs and complex structures, providing engineers and designers with a reliable material for challenging applications. In summary, Alloy 286 sheets and plates offer a combination of high strength, corrosion resistance, and temperature stability, making them a preferred choice for applications demanding reliability and performance in extreme conditions. Whether in aerospace, petrochemical, or marine environments, Alloy 286 proves to be a dependable material, contributing to the advancement of technology and engineering in various industries.

Alloy 286 Sheets / Plates Specification

Property Specification
Material Alloy 286 (Incoloy 286, UNS N66286)
Composition Nickel, Chromium, Iron
Density 7.92 g/cm³
Melting Point 1350-1400°C (2462-2552°F)
Tensile Strength Min. 600 MPa (87 ksi)
Yield Strength Min. 275 MPa (40 ksi)
Elongation Min. 25%
Hardness Max. HRB 95
Corrosion Resistance Excellent in acidic and corrosive environments
Forms Sheets, Plates
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Fasteners Importers, Exporters, and Manufacturers in India

Alloy 286, also known as Incoloy 286 or UNS S66286, is a high-performance superalloy designed for use in demanding environments, particularly those requiring excellent strength and corrosion resistance at elevated temperatures. Composed primarily of nickel, chromium, and iron, Alloy 286 exhibits remarkable mechanical properties and oxidation resistance, making it suitable for a wide range of applications. This alloy finds extensive use in industries such as aerospace, where its high strength and creep resistance make it ideal for components in jet engines, gas turbines, and exhaust systems. Additionally, Alloy 286 is employed in chemical processing applications due to its resistance to corrosive environments, including acids and sulfurous atmospheres. The fasteners made from Alloy 286 are known for their exceptional tensile strength, durability, and stability at elevated temperatures. These fasteners are available in various sizes and configurations, catering to diverse industrial needs. The material's ability to maintain strength and integrity in challenging conditions, such as those involving thermal cycling, sets it apart in critical applications. Alloy 286 fasteners are often specified in compliance with ASTM B805 standards, ensuring a high level of quality and consistency. The range of available finishes, including plain, black, zinc-plated, and hot-dip galvanized, enhances the versatility of these fasteners for different environments and aesthetic requirements. Whether used in high-temperature aerospace components or corrosive chemical processing equipment, Alloy 286 fasteners play a crucial role in ensuring the structural integrity and reliability of assemblies. Their robust nature and resistance to environmental challenges make them a preferred choice in industries where performance under extreme conditions is paramount. Overall, Alloy 286 fasteners stand as a testament to the advanced capabilities of modern metallurgy, offering a reliable solution for applications demanding a combination of strength, corrosion resistance, and temperature stability.

Alloy 286 Fasteners Specification

Property Value
Material Alloy 286
Size Range Customizable
Standard ASTM B805
Grade UNS S66286
Finish Plain, Black, Zinc Plated, Hot Dip Galvanized, etc.
Thread Type UNC, UNF, Metric Coarse, Metric Fine, etc.
Application Aerospace, Chemical Processing, High-Temperature Applications, etc.
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Fitting Importers, Exporters, and Manufacturers in India

Alloy 286 fittings, integral components in high-performance engineering systems, exemplify the remarkable characteristics of the nickel-based superalloy Inconel 286 or UNS S66286. Comprising a precise blend of nickel, chromium, iron, molybdenum, and titanium, Alloy 286 fittings offer exceptional mechanical strength, high-temperature stability, and corrosion resistance, making them essential in critical applications. Tailored for applications requiring structural integrity, corrosion resistance, and thermal stability, Alloy 286 fittings find significant use in aerospace, chemical processing, and power generation industries. Their resistance to corrosion extends to harsh chemicals, acids, and sulfide compounds, ensuring the reliability and longevity of these components in challenging environments. Alloy 286 fittings are designed to withstand elevated temperatures, maintaining their mechanical properties up to approximately 1300°F (704°C). This makes them suitable for deployment in gas turbine engines, industrial heat exchangers, and complex systems where resistance to thermal stress is imperative. Precision manufacturing processes ensure the dimensional accuracy and uniformity of Alloy 286 fittings, facilitating their seamless integration into diverse systems. Whether connecting pipes, valves, or serving as load-bearing components, these fittings play a crucial role in ensuring the overall efficiency and reliability of industrial processes. Weldability is a key feature, allowing Alloy 286 fittings to be securely integrated into various engineering designs using standard welding techniques. Post-weld heat treatment may be applied to maintain the alloy's mechanical properties, ensuring prolonged performance. As a testament to cutting-edge materials science, Alloy 286 fittings continue to advance, with ongoing research and development efforts expanding their applications and refining their properties. Their resilience and versatility make them indispensable components in industries pushing the boundaries of performance in demanding and extreme conditions.

Alloy 286 Fitting Specification

Property Specification
Composition
  • Nickel (Ni): 26-30%
  • Chromium (Cr): 15-17%
  • Iron (Fe): 53% (minimum)
  • Molybdenum (Mo): 1.5-2.5%
  • Titanium (Ti): 1.9-2.4%
  • Others (Mn, Si, V, C, S, P): Trace amounts
Physical Properties
  • Density: 7.92 g/cm³
  • Melting Point: 1364-1424°C (2487-2595°F)
Mechanical Properties
  • Tensile Strength: 600 MPa (minimum)
  • Yield Strength: 275 MPa (minimum)
  • Elongation: 25% (minimum)
Heat Treatment Solution Annealing at 1038-1149°C (1900-2100°F), followed by air cooling or water quenching
Temperature Limits
  • Continuous Service: 704°C (1300°F) maximum
  • Intermittent Service: 816°C (1500°F) maximum
Fitting Types
  • Elbows
  • Tees
  • Reducers
  • Couplings
  • Adapters
  • Others
Surface Finish Machined, Smooth
Weldability
  • Weldable using common welding techniques
  • Post-weld heat treatment may be necessary
Corrosion Resistance Excellent resistance to corrosion in harsh environments, including acids and sulfide compounds
Quality Standards
  • ASTM A182
  • AMS 5731
  • AMS 5732
  • AMS 5737
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Flushing Rings Importers, Exporters, and Manufacturers in India

Alloy 286 flushing rings play a crucial role in industrial applications where corrosion resistance, high strength, and reliability are paramount. These rings are typically used in critical systems such as chemical processing plants, petrochemical facilities, and offshore drilling operations. Composed primarily of nickel, chromium, and iron, Alloy 286 offers a robust solution for applications where exposure to aggressive and corrosive media is prevalent. The flushing rings are designed to maintain the integrity of fluid handling systems by preventing contamination and ensuring the efficient flow of liquids or gases. Alloy 286's exceptional resistance to sulfidation, oxidation, and carburization makes it an ideal material for these rings, especially in environments where harsh chemicals and high temperatures are present. The material's resistance to both acidic and alkaline conditions further enhances its suitability for a wide range of industrial processes. In addition to its corrosion-resistant properties, Alloy 286 provides high strength and excellent mechanical characteristics, contributing to the durability and longevity of flushing rings. These rings are often used in conjunction with valves, pumps, and other critical components to maintain the purity of fluids and gases in various systems. Alloy 286 flushing rings are known for their dimensional stability and resistance to deformation under stress, ensuring reliable performance over extended periods. The material's weldability and fabricability allow for the creation of intricate and customized designs, meeting the specific requirements of different industrial applications. Whether in chemical processing, oil and gas, or marine environments, Alloy 286 flushing rings offer a dependable solution to the challenges posed by corrosive media and high-temperature conditions. Engineers and operators value these rings for their ability to contribute to system efficiency, reduce maintenance costs, and enhance the overall reliability of fluid handling systems in demanding industrial settings.

Alloy 286 Flushing Rings Specification

Property Specification
Material Alloy 286 (Incoloy 286, UNS N66286)
Composition Nickel, Chromium, Iron
Corrosion Resistance Excellent resistance to sulfidation, oxidation, and carburization
Temperature Resistance Up to 1000°C (1832°F)
Strength High tensile and yield strength
Weldability Good
Fabricability Excellent
Density 7.92 g/cm³
Melting Point 1350-1400°C (2462-2552°F)
Forms Flushing Rings
Applications Chemical processing, petrochemical, offshore drilling
Dimensional Stability High
Elongation Min. 25%
Hardness Max. HRB 95
Compliance ASTM B670, AMS 5525
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Forged Thermowell Importers, Exporters, and Manufacturers in India

Alloy 286 Forged Thermowells represent a critical component in temperature measurement applications, particularly in industries such as petrochemical, chemical processing, and power generation. These thermowells are crafted from Alloy 286, also known as Incoloy 286 or UNS N66286, a high-performance nickel-based superalloy. The alloy's exceptional strength, corrosion resistance, and thermal stability make it an ideal choice for withstanding harsh operating conditions. Forged thermowells play a pivotal role in protecting temperature sensors from aggressive media, pressure, and flow-induced forces. Alloy 286's resistance to sulfidation, oxidation, and carburization ensures the longevity and reliability of these thermowells, even in demanding environments. The forging process enhances the material's structural integrity, providing durability and resistance to deformation under extreme temperatures. Alloy 286 Forged Thermowells exhibit excellent mechanical properties, including high tensile and yield strength, making them well-suited for applications where reliability and precision are paramount. The thermowells are designed to accommodate temperature probes or sensors securely, facilitating accurate temperature measurement in various industrial processes. The corrosion resistance of Alloy 286 extends to both acidic and alkaline environments, making it suitable for applications where corrosive substances are present. This corrosion resistance, coupled with the alloy's ability to withstand high temperatures, positions Alloy 286 Forged Thermowells as a dependable solution for industries requiring accurate and stable temperature monitoring. Additionally, these thermowells are often customized to meet specific project requirements, taking advantage of Alloy 286's excellent weldability and fabricability. Engineers appreciate the alloy's versatility, as it allows for the creation of intricate designs and tailored solutions in temperature sensing applications. In summary, Alloy 286 Forged Thermowells stand out as robust and reliable components that contribute to the efficiency and safety of industrial processes by ensuring accurate and durable temperature measurement in challenging operating conditions.

Alloy 286 Forged Thermowell Specification

Property Specification
Material Alloy 286 (Incoloy 286, UNS N66286)
Composition Nickel, Chromium, Iron
Corrosion Resistance Excellent resistance to sulfidation, oxidation, and carburization
Temperature Resistance Up to 1000°C (1832°F)
Strength High tensile and yield strength
Forging Process Enhanced structural integrity
Weldability Good
Fabricability Excellent
Density 7.92 g/cm³
Melting Point 1350-1400°C (2462-2552°F)
Design Customizable for specific project requirements
Applications Petrochemical, chemical processing, power generation
Dimensional Stability High
Elongation Min. 25%
Hardness Max. HRB 95
Compliance ASTM B670, AMS 5525
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Forged Circle Importers, Exporters, and Manufacturers in India

Alloy 286 Forged Circles exemplify a crucial component within various industrial applications, showcasing the exceptional characteristics of this advanced nickel-based superalloy. Comprising nickel, chromium, and iron, Alloy 286 boasts high strength, excellent corrosion resistance, and exceptional thermal stability, making it an ideal material for forging circles intended for demanding environments. These circles play a vital role in industries such as aerospace, chemical processing, and power generation. Forged circles from Alloy 286 undergo a meticulous forging process that enhances the material's structural integrity, resulting in a durable and reliable product. The alloy's resistance to sulfidation, oxidation, and carburization ensures the longevity and performance of these circles, even when subjected to aggressive chemical and high-temperature conditions. This makes Alloy 286 Forged Circles suitable for applications where both corrosion resistance and mechanical strength are critical. In addition to their robustness, Alloy 286 Forged Circles exhibit high dimensional stability and resistance to deformation under stress, contributing to their suitability for precision engineering applications. These circles are employed in diverse settings, including the fabrication of components for gas turbines, jet engines, and industrial machinery where reliable performance is paramount. The material's weldability and fabricability further enhance its versatility, allowing for the creation of intricate designs and customized solutions to meet specific project requirements. Alloy 286 Forged Circles are valued for their ability to withstand challenging conditions while maintaining the integrity of complex structures, making them a preferred choice for critical engineering applications. Whether utilized in aerospace components or chemical processing equipment, Alloy 286 Forged Circles serve as a testament to the advancements in material science, offering a reliable solution for industries requiring both strength and corrosion resistance. These circles contribute to the durability and efficiency of diverse systems, showcasing the versatility and reliability of Alloy 286 in demanding industrial

Alloy 286 Forged Circle Specification

Property Specification
Material Alloy 286 (Incoloy 286, UNS N66286)
Composition Nickel, Chromium, Iron
Corrosion Resistance Excellent resistance to sulfidation, oxidation, and carburization
Temperature Resistance Up to 1000°C (1832°F)
Strength High tensile and yield strength
Forging Process Enhanced structural integrity
Weldability Good
Fabricability Excellent
Density 7.92 g/cm³
Melting Point 1350-1400°C (2462-2552°F)
Applications Aerospace, chemical processing, power generation
Dimensional Stability High
Elongation Min. 25%
Hardness Max. HRB 95
Compliance ASTM B670, AMS 5525
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Gaskets Importers, Exporters, and Manufacturers in India

Alloy 286 gaskets represent a critical component in sealing applications across industries where corrosion resistance, high temperature stability, and durability are paramount. Composed of nickel, chromium, and iron, Alloy 286 is a high-performance superalloy known for its exceptional mechanical properties and resistance to aggressive environments. The unique combination of these elements makes Alloy 286 gaskets well-suited for use in applications such as chemical processing, petrochemical, and aerospace industries. Designed to create a reliable seal, Alloy 286 gaskets excel in environments with elevated temperatures and corrosive media. The alloy's resistance to sulfidation, oxidation, and carburization enhances the longevity and effectiveness of these gaskets in challenging conditions. Whether in high-pressure systems or corrosive atmospheres, Alloy 286 gaskets offer a dependable solution for maintaining the integrity of seals and preventing leaks. The gaskets are engineered to provide a secure and tight seal, ensuring the containment of fluids or gases in various industrial processes. Alloy 286's high temperature resistance, up to 1000°C (1832°F), positions these gaskets as a reliable choice in applications where other materials may fail under extreme conditions. Additionally, the alloy's good weldability and fabricability contribute to the ease of installation and customization of gaskets for specific requirements. Alloy 286 gaskets find application in diverse settings, including flange connections, heat exchangers, and pressure vessels, where their ability to withstand aggressive chemicals and high temperatures is crucial. The alloy's compatibility with stringent industry standards such as ASTM and AMS further underscores its reliability in demanding applications. In summary, Alloy 286 gaskets play a vital role in sealing systems exposed to harsh environments, combining the mechanical strength and corrosion resistance necessary for critical industrial processes. Whether in chemical plants or aerospace engineering, Alloy 286 gaskets contribute to the efficiency and safety of operations, providing a durable and dependable sealing solution.

Alloy 286 Gaskets Specification

Property Specification
Material Alloy 286 (Incoloy 286, UNS N66286)
Composition Nickel, Chromium, Iron
Corrosion Resistance Excellent resistance to sulfidation, oxidation, and carburization
Temperature Resistance Up to 1000°C (1832°F)
Pressure Resistance Dependent on design and application
Sealing Application Chemical processing, petrochemical, aerospace
Weldability Good
Fabricability Excellent
Density 7.92 g/cm³
Melting Point 1350-1400°C (2462-2552°F)
Standards ASTM, AMS
Applications Flange connections, heat exchangers, pressure vessels
Operating Conditions Suitable for aggressive chemicals and high temperatures
Compliance Meets industry-specific standards

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