Solutions
KY-Grown Sapphire Tube Solution
In high-temperature furnace systems, sensor protection sleeves, optical paths, plasma equipment, and corrosive media environments, traditional materials such as quartz, ceramics, and glass often present several limitations:
Reduced strength at high temperature
Surface wear, devitrification, or microcrack growth over time
Limited durability in acid, alkali, plasma, or corrosive conditions
Difficulty achieving both insulation and optical transmission in one component
Inadequate dimensional precision or concentricity for critical assemblies
KY-grown sapphire tubes provide an advanced alternative by combining high hardness, wear resistance, thermal stability, chemical resistance, electrical insulation, and broad optical transmission in a single material solution. This makes them especially suitable for replacing short-life tubular parts that require frequent maintenance or suffer from unstable performance.
EFG Sapphire Tube Solution
In high-temperature systems, protective sleeves, plasma equipment, analytical instruments, optical channels, and corrosive operating environments, traditional materials such as quartz, glass, and conventional ceramics often face several limitations:
Limited stability during long-term high-temperature use
Surface wear and scratching that reduce service life
Insufficient durability in acid, alkali, plasma, or aggressive media
Difficulty combining insulation and optical transmission in one material
High cost and long lead times for long tubes or special-profile structures
EFG sapphire tubes combine the intrinsic benefits of single-crystal sapphire—such as high hardness, wear resistance, high-temperature stability, electrical insulation, and chemical resistance—with the shape-controlled growth capability of the EFG process. This makes them especially suitable for projects requiring long tubes, hollow profiles, special cross-sections, near-net shaping, and scalable industrial production.