+

Shincolon 4209

Doped continuous silicon carbide fibers are produced by incorporating heteroatoms into the precursor polymer

Phone:86-574-88951579

Email: zxxc@nbzxxc.cn

Product Description

Doped continuous silicon carbide fibers are produced by incorporating heteroatoms into the precursor polymer, ultimately yielding continuous SiC fibers containing these heteroatoms, thereby enhancing their creep resistance and other specialized properties.

Shincolon 4209 is a zirconium-containing multiphase silicon carbide fiber prepared by introducing zirconium into the material system.

The Shincolon series of continuous silicon carbide fibers has established a portfolio of high-performance ceramic fiber products featuring controllable tow sizes (0.2K, 0.5K, 1.0K), adjustable diameters (8.0–14.0 μm), and customizable resistivity (10¹–10⁴ Ω·cm). This breakthrough addresses the critical bottleneck in key strategic raw materials and achieves complete independent control.

Application Example

Continuous silicon carbide fibers exhibit high strength, high modulus, excellent thermal stability, oxidation resistance, superior creep resistance at elevated temperatures, and good processability, enabling their incorporation into ceramic-, metal-, and resin-based matrices to fabricate high-performance, lightweight, and thermally stable structural composites.

Keywords:

Shincolon 4209

Polycarbosilane


Polycarbosilane (PCS) is a polymer with a Si–C backbone that can be converted into silicon carbide ceramics via high-temperature pyrolysis

Zirconium-carbon-silane polymer


Polyzirconium carbosilane (PZCS) is a novel zirconium‑containing polycarbosilane polymer that can be used to prepare zirconium‑bearing multiphase

Shincolon2158


Shincolon‑I type continuous silicon carbide fibers are prepared using an electron‑beam‑assisted air crosslinking technique

Shincolon2108


Shincolon‑I type continuous silicon carbide fiber is a silicon carbide fiber prepared using an electron‑beam‑assisted air crosslinking technique

Product Inquiry

If you are interested in our products, please leave your email address to receive a free product quote. Thank you!

Submit Message