Our GH3536 nickel-based strip is a beast when it comes to high-temperature combustor systems, delivering top-tier strength and oxidation resistance in the harshest aerospace environments. This superalloy is built to handle the heat, and we’re stoked to share what makes it special, how it fits into industry trends, and why our product is the go-to choice for your projects.
What is GH3536 Alloy?
GH3536, also known as Hastelloy X, is a nickel-chromium-molybdenum superalloy engineered for extreme heat and stress. Its beefy composition forms a rock-solid oxide layer that fights off oxidation and corrosion, keeping it strong up to 900°C (and even hitting 1080°C for short bursts). With killer creep resistance and tensile strength, it’s perfect for combustor systems, turbine blades, and exhaust components. Our GH3536 strips are precision-rolled for uniform thickness and a smooth finish, making them ready for the toughest aerospace challenges.
We use cutting-edge manufacturing to crank out strips that hit the mark every time, and the alloy’s age-hardenable nature lets us tweak its strength and toughness to match your exact specs.
Industry Applications
Our GH3536 strips are a powerhouse for aerospace combustor systems, turbine blades, and exhaust components that face blistering heat and intense stress. Beyond aerospace, they shine in power generation turbines, oil and gas pipelines, and chemical processing plants where high temperatures and corrosive environments are the norm. The strip’s durability makes it ideal for both new part production and repairing worn components, boosting efficiency and extending service life.
Item | A-286 | Nimonic80A | Nimonic 90 | GH1140 | GH3625 | GH3536 | GH4169 |
C | ≤0.08 | ≤0.1 | ≤0.13 | 0.06-0.12 | ≤0.1 | 0.05-0.15 | ≤0.08 |
Mn | ≤2 | ≤1 | ≤1 | ≤0.7 | 3.14-4.15 | -- | ≤0.35 |
Fe | rest | ≤3 | ≤1.5 | rest | ≤0.5 | -- | rest |
P | ≤0.04 | ≤0.02 | -- | ≤0.025 | -- | -- | -- |
S | ≤0.03 | ≤0.015 | ≤0.015 | ≤0.015 | -- | -- | ≤0.01 |
Si | ≤1 | ≤1 | ≤1 | ≤0.8 | -- | -- | ≤0.35 |
Cu | -- | -- | ≤0.2 | -- | -- | -- | ≤0.3 |
Ni | 24-27 | rest | -- | 35-40 | rest | rest | 50-55 |
Co | -- | ≤2 | 15-21 | -- | ≤1.00 | 0.5-2.5 | ≤1.00 |
Al | ≤0.35 | 1-1.8 | 1-2 | 0.2-0.6 | ≤0.4 | ≤0.5 | 0.2-0.8 |
Ti | 1.9-2.35 | 1.8-2.7 | 2-3 | 0.7-1.2 | ≤0.4 | ≤0.15 | 0.7-1.15 |
Cr | 13.5-16 | 18-21 | 18-21 | 20-23 | 20-23 | 20.5-23 | 17-21 |
Nb | -- | -- | -- | -- | -- | -- | 4.75-5.5 |
Mo | 1-1.5 | -- | -- | 2-2.5 | 8-10 | 8-10 | 2.8-3.3 |
B | 0.001-0.1 | ≤0.008 | ≤0.02 | -- | -- | -- | -- |
V | 0.1-0.5 | -- | -- | -- | -- | -- | -- |
W | -- | -- | -- | 1.4-1.8 | -- | 0.2-1 | -- |
Zr | -- | ≤0.15 | ≤0.15 | -- | -- | -- | -- |
Pb | -- | -- | ≤0.002 | -- | -- | -- | -- |
Ce | -- | -- | -- | ≤0.05 | -- | -- | -- |
Size Range | |
Wire | 0.5-7.5mm |
Rod/Bar | 8.0-200mm |
Strip | (0.50-2.5)*(5-180)mm |
Tube | custom made |
| Plate | custom made |
For more details, pls directly contact us.
The aerospace and power generation industries are pushing hard for efficiency and sustainability, and GH3536 is a key player in that game. With demand for high-performance, fuel-efficient systems on the rise, manufacturers need materials that can handle extreme heat to improve combustion efficiency and cut emissions. GH3536’s ability to stay tough and resist oxidation at high temperatures makes it a top pick for next-gen combustor designs. The shift toward lightweight, long-lasting components is also huge, and our strips deliver the strength-to-weight ratio needed for modern systems. Plus, industries are all about reducing maintenance costs, and GH3536’s durability helps keep downtime to a minimum.
Parameter | GH3536 Alloy | Other Nickel-Based Alloys | Stainless Steel |
|---|---|---|---|
Max Service Temperature | Up to 900°C (long-term), 1080°C (short-term) | Up to 700–850°C | Up to 600–650°C |
Oxidation Resistance | Excellent (Ni-Cr-Mo oxide layer) | Good to moderate | Moderate to low |
Creep Strength | High, resists deformation at 900°C | Moderate to high | Low at high temperatures |
Corrosion Resistance | Superior in harsh environments | Good in specific conditions | Moderate, varies by grade |
Tensile Strength (Room Temp) | ~823 MPa | ~700–900 MPa | ~500–600 MPa |
Elongation (Room Temp) | ~22% | ~15–25% | ~20–40% |
Fatigue Resistance | Excellent, ideal for cyclic loads | Good to moderate | Moderate, less suited for high stress |
Applications | Aerospace combustors, turbines, oil & gas | Aerospace, industrial | General industrial, lower temp applications |
We’ve fine-tuned our GH3536 strips to deliver unmatched performance, and here’s why we’re the best choice:
Top-Notch Quality: Our strips hit near-perfect consistency with minimal defects, ensuring rock-solid performance in critical combustor systems.
Precision Manufacturing: We use advanced rolling techniques to produce strips with uniform thickness and a flawless surface, ready for high-heat environments.
Customizable Performance: Age-hardening lets us dial in strength and toughness to fit your project’s exact needs.
Unbeatable Durability: With stellar creep and oxidation resistance, our strips last longer in extreme conditions, cutting maintenance costs.
Industry Expertise: We’ve been supplying high-performance alloys to aerospace and industrial leaders for years, so we know how to meet the toughest standards.
Other alloys might struggle with oxidation or lose strength in high heat, but our GH3536 strips keep performing, no matter the challenge. We’ve seen competing materials falter in combustor environments, while our strips consistently deliver the strength and reliability you can count on.
Conclusion
Our GH3536 nickel-based strips are built to power high-temperature combustor systems through the toughest conditions, offering unbeatable strength and oxidation resistance. With top-tier durability and compatibility with high-performance designs, they’re the perfect choice for aerospace and beyond. As industries chase efficiency and reliability, our GH3536 strips are ready to deliver the performance you need to stay ahead. Ready to fire up your combustor systems? Our GH3536 alloy is the way to go.
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:
What is GH3536 used for?
GH3536 is used for high-temperature combustor systems, turbine blades, and exhaust components in aerospace and power generation.What temperatures can GH3536 withstand?
It performs reliably up to 900°C for continuous use and can handle short-term exposure up to 1080°C.How does GH3536 resist oxidation?
Its nickel-chromium-molybdenum content forms a protective oxide layer, shielding it from oxidation in extreme conditions.Is GH3536 suitable for combustor applications?
Yes, its high creep resistance and thermal stability make it ideal for combustors under intense heat and stress.What are the mechanical benefits of GH3536?
It offers excellent strength, fatigue resistance, and durability at elevated temperatures.How does GH3536 compare to other alloys?
It outperforms many nickel alloys and stainless steels in high-temperature strength and oxidation resistance.Which industries use GH3536?
Primarily aerospace, but also power generation, oil and gas, and chemical processing for high-heat applications.Can GH3536 be heat-treated?
Yes, it can be age-hardened to optimize strength and toughness for specific combustor system needs.