Product Categories

A-A001

Polycarbosilane

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


A-B001

Zirconium-carbon-silane polymer

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


B-A001

Shincolon2158

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


B-A002

Shincolon2108

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


B-A003

Shincolon2159

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


B-A004

Shincolon2109

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


B-B001

Shincolon2208

Shincolon‑II continuous silicon carbide fiber is a silicon carbide fiber prepared using an electron-beam‑assisted active‑atmosphere crosslinking technique


B-B002

Shincolon2258

Shincolon‑II continuous silicon carbide fibers are prepared using an electron-beam‑assisted crosslinking technique in an active atmosphere


B-B003

Shincolon2209

Shincolon‑II continuous silicon carbide fiber is a silicon carbide fiber prepared using an electron-beam‑assisted active‑atmosphere crosslinking technique


B-B004

Shincolon2259

Shincolon‑II continuous silicon carbide fibers are prepared using an electron-beam‑assisted crosslinking technique in an active atmosphere


B-C001

Shincolon2309

Shincolon‑III continuous silicon carbide fibers are prepared using electron-beam‑assisted crosslinking in an active atmosphere combined with high‑temperature decarbonization heat treatment


B-C002

Shincolon2329

Shincolon‑III continuous silicon carbide fibers are prepared using electron-beam‑assisted crosslinking in an active atmosphere combined with high‑temperature decarbonization heat treatment


< 12 >