UBE Grade G Tyranno Ceramic Semi-Conductive Fiber
Subcategory: Carbide; Oxide; Composite Fibers
Material Notes: Description: Tyranno Fiber is the continuous ceramic fiber consisting of Si, Ti or Zr,C and O. Advanced composites reinforced by the Tyranno Fiber are expected to play a very important role in the environmental preservation field in the future such as ultra high speed transportation, energy savings, CO2 and NOx reduction, and purification of the exhaust fumes. The reinforcing fibers need to meet the demand for these applications such as high temperature stability, high strength, and high reliability in the extreme environment. The Tyranno Fiber with excellent properties is extending its applicability in various fields and will realize these. Tyranno Fiber SA is a polycrystalline SiC fiber containing small amount of Aluminum, produced by decomposing and subsequently sintering of the amorphous Si-Al-C-O fiber. Tyranno Fiber SA is very stable fiber------for example, the weight loss of this fiber was only 1.8wt% at 2200°C. The initial strength of this fiber was perfectly maintained up to 1900°C in Argon. In spite of its crystalline structure, as the diameter is very small (~10µm), Tyranno Fiber SA is flexible enough to weave to fabrics. Its excellent creep resistance at high temperature has been already confirmed. Semi-Conductive Grade Tyranno Fiber is essentially a semi-conductive material and its specific resistance can be controlled form 106 to 10-1 ohm-cm. In addition, the specific resistances of G-grade and H-grade fibers can be controlled within ± 10% tolerance. Information provided by UBE.
Available Properties |
- Density
- Filament Diameter
- Tensile Strength, Ultimate
- Elongation at Break
- Tensile Modulus
- Electrical Resistivity
- Number of Filaments
- Tex
|
|
|
|
Property Data |
This page displays only the text
of a material data sheet.
To see MatWeb's complete data
sheet for this material (including
material property data, metal
compositions, material suppliers,
etc), please click the button below. |
|
|
|
|