Our high-temperature resistant Titanium Foil is a top-notch material crafted for aerospace engines, made from premium Grade 2 titanium. With thicknesses as low as 0.01 mm, this foil is lightweight, corrosion-resistant, and built to withstand extreme heat, making it a perfect fit for engine components that face intense conditions. Compliant with ASTM B265 standards, it’s designed for high-stakes applications like turbine blades, exhaust systems, and heat shields. Our foil delivers the durability and performance needed to keep aerospace engines running smoothly.
We produce this foil using advanced cold-rolling techniques, ensuring a smooth, uniform surface and precise tolerances for seamless integration into complex engine designs. With a density of 4.51 g/cm³—45% lighter than steel—and a tensile strength of ~345 MPa, it offers a stellar strength-to-weight ratio. Its ability to handle temperatures up to 400°C, combined with excellent corrosion resistance, makes it ideal for the harsh environments of aerospace engines. Our rigorous quality control ensures every batch performs consistently, giving manufacturers confidence in their critical components.
For more details, pls directly contact us.
Our high-temperature resistant titanium foil is commercially pure Grade 2 titanium, with 99.2% titanium content and minimal alloying elements. This purity delivers a lightweight material with a density of 4.51 g/cm³, perfect for reducing engine weight. Its tensile strength of ~345 MPa provides durability, while its formability allows for shaping into intricate engine parts. The foil’s natural oxide layer resists corrosion from jet fuel, moisture, and high-temperature oxidation, ensuring longevity in extreme conditions. Thermally stable up to 400°C and weldable, it’s a versatile choice for aerospace applications requiring reliability under heat and stress.
| Titanium (Ti) | Aluminum (Al) | Vanadium (V) | Tin (Sn) | |
| Ti-6Al-4V | Rest | 5.5%-6.8% | 3.5%-4.5% | |
| Ti-5Al-2.5Sn | Rest | 4.5%-5.5% | 2.0%-3.0% |
Physical Properties
| Density | 4.4-4.5g/cm³ |
| Melting Point | 1660°C |
| Coefficient of Thermal Expansion | 8-10×10⁻⁶/K (20°C-500°C) |
| Thermal Conductivity | 6-22 W/(m·K) (depending on alloy grade) |
| Electrical Resistivity | 0.14-0.17 μΩ·m |
| Tensile Strength | 600-1200 MPa (depending on alloy grade) |
| Yield Strength | 480-1100 MPa |
| Elongation at Break | 10%-25% |
| Hardness | 200-400 HB |
For more details, pls directly contact us.
Our titanium foil is tailored for aerospace engines but excels in a range of high-temperature uses:
Turbine Blades: Withstands extreme heat and stress for reliable engine performance.
Exhaust Systems: Lightweight and corrosion-resistant for efficient exhaust management.
Heat Shields: Protects critical engine components from high temperatures.
Combustion Chambers: Durable under intense heat and chemical exposure.
Aerospace Fasteners: Lightweight and strong for secure engine assemblies.
While aerospace engines are its primary focus, the foil also finds use in chemical processing for heat-resistant linings and in medical devices for its biocompatibility, proving its versatility across industries.
Industry Analysis
The aerospace industry is soaring, with a projected CAGR of 6.4% for aerospace materials through 2032, driven by rising demand for fuel-efficient aircraft and advanced space exploration. High-temperature resistant materials like our titanium foil are critical as manufacturers aim to improve engine performance while cutting weight and emissions. The push for sustainable aviation is also shaping the market, with demand for recyclable materials growing to meet environmental regulations.
Challenges include supply chain disruptions and titanium’s high raw material costs, but we’ve optimized our production to ensure steady supply and competitive pricing. The rise of additive manufacturing and advanced composites in aerospace plays to our foil’s strengths, as its uniform thickness supports 3D printing and precision fabrication. The growing space sector, with private companies launching satellites and spacecraft, further boosts demand for materials that can handle extreme heat and stress, making our foil a key player.
Lightweighting: Reducing engine weight is critical for fuel efficiency, and our foil excels.
Sustainability: Recyclable materials are in demand, and our foil is fully recyclable.
Additive Manufacturing: 3D printing in aerospace pairs well with our foil’s precision.
Space Exploration: The boom in private space missions needs heat-resistant materials.
High-Performance Engines: Next-gen engines require materials that handle extreme heat.
Eco-Friendly Aviation: Green manufacturing aligns with our foil’s recyclability.
Comparison Table
Parameter | Our Titanium Foil | Other Titanium Foils |
|---|---|---|
Thickness Range | 0.01 mm - 0.25 mm | 0.05 mm - 0.3 mm |
Tensile Strength | ~345 MPa | ~300-400 MPa |
Corrosion Resistance | Excellent (fuel, moisture) | Good to Excellent |
Thermal Stability | Up to 400°C | Up to 350-400°C |
Surface Finish | Smooth, uniform | Varies, less consistent |
Standards Compliance | ASTM B265 | ASTM B265 or lower |
Weldability | High | Moderate to High |
Recyclability | Fully recyclable | Varies |
Company Comparison
Our high-temperature resistant titanium foil stands out in a crowded market. While other foils are available, our advanced cold-rolling process delivers a smoother surface and tighter tolerances, ensuring top performance in aerospace engines. We prioritize sustainability with eco-friendly production and fully recyclable materials, aligning with the industry’s green goals. Our optimized supply chain guarantees fast, reliable delivery, even during market disruptions. Every batch is rigorously tested to ASTM B265 standards, ensuring it can handle the extreme heat and stress of engine applications.
Why Choose Our Titanium Foil?
Heat Resistance: Stable up to 400°C for reliable engine performance.
Top Quality: Meets ASTM B265 standards for consistent results.
Eco-Friendly: Fully recyclable with sustainable production.
Fast Delivery: Streamlined logistics ensure timely supply.
Versatile Design: Weldable and formable for complex engine components.
Future Outlook
The aerospace industry is pushing for lighter, more efficient, and sustainable engines, and our high-temperature resistant titanium foil is ready to meet these demands. As space exploration and electric aircraft grow, demand for heat-resistant, lightweight materials will surge. Our foil’s compatibility with additive manufacturing positions it for next-gen production methods, while its recyclability aligns with eco-friendly aviation goals. We’re continuously refining our processes to stay ahead, ensuring our customers have the materials to power tomorrow’s engines.
Conclusion
Our high-temperature resistant titanium foil is a must-have for aerospace engines. Its lightweight strength, heat resistance, and corrosion resistance make it ideal for turbine blades, exhaust systems, and more. With top-tier quality, sustainable production, and reliable delivery, we’re here to support your next aerospace project. Choose our foil for materials that keep engines soaring under the toughest conditions.
For more details, pls directly contact us.
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.
Client Visits
Building Stronger Partnerships
We support all kinds of testing:
FAQs:
Why is this titanium foil ideal for aerospace engines?
Its high-temperature resistance and lightweight strength make it perfect for turbine blades and exhaust systems.How thin is the foil?
It starts at 0.01 mm, ideal for precision engine components.Can it handle extreme heat?
Yes, it’s stable up to 400°C, perfect for engine environments.Is it corrosion-resistant?
Absolutely, it resists jet fuel, moisture, and high-temperature oxidation.Does it meet industry standards?
It complies with ASTM B265 for reliable quality.Is it suitable for additive manufacturing?
Yes, its uniform thickness works well with 3D printing.Can it be welded?
Its weldability supports complex engine designs.Is it recyclable?
100% recyclable, supporting sustainable aerospace manufacturing.
