Nimonic 90 Nickel Alloy Plate for Extreme Temperature Performance

Our Nimonic 90 Nickel Alloy Plate is a powerhouse for projects that need to withstand extreme temperatures and stress. This nickel-chromium-cobalt alloy, with roughly 54% nickel, 18% chromium, and 15% cobalt, plus titanium and aluminum, is built to handle temperatures up to 1,700°F (927°C) while resisting oxidation and creep. With a tensile strength of around 150,000 psi and excellent fatigue resistance, it’s perfect for high-performance components like turbine blades, exhaust nozzles, and high-temperature fasteners. Whether you’re working on jet engines or industrial turbines, Nimonic 90 delivers top-tier durability.

At DLX, we’ve designed this plate for reliability and ease of use. Available in thicknesses from 0.5mm to 50mm and customizable sizes, it’s versatile for any project. Its weldability and machinability make it a favorite for precision manufacturing, and it meets AMS 5829 and ASTM B637 standards, so you know you’re getting quality you can trust.

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The superalloy market is thriving, driven by aerospace, power generation, and industrial gas turbine sectors. Materials that can handle extreme heat, corrosion, and mechanical stress are in high demand as industries push for efficiency and longevity. Alloys like Nimonic 90 are critical for components in jet engines, gas turbines, and high-performance machinery, where temperatures and stress are relentless. Aerospace relies on these alloys for lightweight, durable parts, while power generation needs them for turbines operating in extreme conditions.

Trends like additive manufacturing and lightweight designs are shaping the market, requiring materials that balance strength with workability. Stricter environmental regulations and the push for fuel efficiency are driving demand for alloys that reduce maintenance and extend component life. Challenges like thermal fatigue, creep, and oxidation make high-quality superalloys like Nimonic 90 essential. The market is set to grow as industries invest in advanced materials for next-generation applications.

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Nimonic 90 Nickel Alloy Plate excels in extreme-temperature environments. In aerospace, it’s used for jet engine components like turbine blades, discs, and combustor parts, where its heat resistance and strength are critical. The power generation industry relies on it for gas turbine components, superheater tubing, and exhaust systems facing high temperatures. Industrial applications include high-temperature fasteners, springs, and valves in chemical processing and automotive systems, where creep resistance and durability are vital.

Its ability to resist oxidation and maintain strength at high temperatures makes it ideal for both structural and functional components. The alloy’s weldability and machinability allow for precise fabrication, making it a versatile choice for demanding projects, from small precision parts to large assemblies.

Parameter	Nimonic 90	Other Superalloys
Nickel Content	~54% for strength and heat resistance	Often lower or higher, e.g., 50-70%
Tensile Strength	150,000 psi (as treated)	Typically 120,000-145,000 psi
Temperature Resistance	Up to 1,700°F (927°C)	Often limited to 1,200-1,500°F (649-815°C)
Corrosion Resistance	Excellent, resists oxidation and gases	Moderate, less effective in extreme conditions
Weldability	Good for TIG and MIG	Varies, some prone to cracking
Creep Resistance	Outstanding, ideal for turbines	Often lower, less suited for long-term stress
Applications	Aerospace, turbines, chemical equipment	General-purpose, less specialized
Machinability	Good, allows precision fabrication	Varies, some harder to machine

DLX Company Advantages

At DLX, we’re all about delivering quality you can count on. Our Nimonic 90 Nickel Alloy Plate is produced with state-of-the-art manufacturing to ensure consistency and top performance. We meet AMS 5829 and ASTM B637 standards, focusing on precision and purity to deliver plates free of defects. Our process ensures uniform thickness and a smooth surface finish, making machining and welding straightforward for your aerospace or turbine projects.

We’re more than just a supplier. Our team offers hands-on support, helping you choose the right plate thickness or optimize fabrication and welding parameters for your specific needs. We provide customizable sizes and flexible delivery options to meet your project timeline, backed by our high production capacity that ensures fast turnaround without sacrificing quality.

Efficiency and sustainability are core to our approach. Nimonic 90’s excellent weldability and machinability reduce waste and rework, saving you time and resources. We’ve optimized our supply chain to keep costs competitive while delivering a premium product. With DLX, you’re partnering with a company dedicated to your success, ensuring your components perform in the toughest high-temperature environments.

Why Choose DLX’s Nimonic 90?

Our Nimonic 90 Nickel Alloy Plate is built for extreme-temperature performance in aerospace and turbine applications. From jet engine blades to turbine discs, it delivers unmatched strength, heat resistance, and corrosion resistance. Its versatility, weldability, and machinability make it a top choice for precision manufacturing. With DLX, you get a high-quality product backed by a team committed to helping you succeed. Choose Nimonic 90 for components that endure extreme heat, stress, and time.

About Us:

Our 12,000㎡ factory is equipped with complete capabilities for research, production, testing, and packaging. We strictly adhere to ISO 9001 standards in our production processes, with an annual output of 1,200 tons. This ensures that we meet both quantity and quality demands. Furthermore, all products undergo rigorous simulated environment testing including high temperature, high pressure, and corrosion tests before being dispatched, ensuring they meet customer specifications.For all our clients, we offer timely and multilingual after-sales support and technical consulting, helping you resolve any issues swiftly and efficiently.

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FAQs

1. Why is Nimonic 90 ideal for jet engines?
   Its high tensile strength (150,000 psi) and heat resistance up to 1,700°F (927°C) make it perfect for turbine blades and nozzles.

2. What temperatures can Nimonic 90 handle?
   It performs reliably at temperatures up to 1,700°F (927°C) with excellent creep resistance.

3. What industries use Nimonic 90?
   Aerospace, power generation, chemical processing, and automotive rely on it for high-temperature components.

4. Is Nimonic 90 corrosion-resistant?
   Yes, it resists oxidation and corrosion in high-temperature and gaseous environments.

5. Can Nimonic 90 be welded?
   Yes, it offers good weldability for TIG and MIG processes, ensuring strong joints.

6. What forms is Nimonic 90 available in?
   It’s available as plates in thicknesses from 0.5mm to 50mm, customizable for your project.

7. How does Nimonic 90 handle stress?
   Its high strength and fatigue resistance make it ideal for components under constant stress.

8. What standards does Nimonic 90 meet?
   It complies with AMS 5829 and ASTM B637 for quality and performance assurance.