Titanium Silicide Carbide Ti3SiC2
Purity: 98%
Particle size: 325mesh
Molecular weight: 196.0
Apparent density:4.53g/cm3
Conductivity: ~4.5*106
Titanium-silicon carbide is a new type of ceramic material whose main composition is titanium-silicon carbide compound (Ti3SiC2). Excellent electrical and thermal conductivity, excellent processability.
- 描述
- Inquiry
Titanium silicon Carbide (Ti3SiC2) is a comprehensive ceramic material. It not only has high temperature resistance, oxidation resistance and high strength, but also has the electrical conductivity of metal materials. Heat conduction, machinability, plasticity, etc. The opportunity to develop this material was probably in the 1980s, Due to the rapid development of fiber, whisker and other reinforcing agents and the requirements of aviation high thrust-to-weight ratio engines, Ceramic matrix composites have become a research hotspot. The toughness can be improved by fiber and whisker strengthening.
However, it is still difficult to be applied because of high preparation cost and poor reliability. Researchers have begun to address this question
The high temperature materials with both metal and ceramic properties were explored, and finally a kind of Ti sic 2 was found in ti-SI C system. Ti3SiC2 has the properties of metals that have excellent thermal and electrical conductivity at room temperature,
Relatively low Vickers hardness and high modulus of elasticity; It’s ductile at room temperature and can be like a metal
To be machined and plastic at high temperature; At the same time, it has the properties of ceramic materials, with high yield
High strength, high melting point, high thermal stability and good oxidation resistance. Maintains high strength at high temperatures.
More significant is that it has a lower coefficient of friction than the traditional solid lubricant graphite and molybdenum disulfide
Good self-lubrication performance.
相关产品
-
Titanium carbonitride
English alias: TITANIUM CARBONITRIDE (7:3); TI (C/N) 30/70 a; TI (C/N) 30/70 b; TI (C/N) 30/70 C; TI (C/N) 50/50 a; TI (C/N) 50/50 b; TI (C/N) 50/50 C; Titanium carbon nitride; TiCN
CAS no. : 12654-86-3
Formula: TiCN
Molecular weight: 121.75
MDL: MFCD01868685
Density: 5.08 g/mL at 25 ℃ (lit.)
Melting point: > 350 ℃ (lit.)
-
Nano vanadium dioxide VO2
Other name: Vanadium oxide; Dioxovanadium
Appearance: black powder
Grain size: 50nm, 100nm, 500nm
Purity: 99.9%, 98% ( tungsten mingle ) -
Ammonium niobium oxalate
English alias: Ethanedioic acid ammonium niobium (5 +) salt , Ammonium niobate (v) oxalate hydrate
CAS no. : 168547-43-1
Molecular formula: C4H4NNbO9
Molecular weight: 302.98 g / mol
-
Niobium diselenide
Other name: Niobium(IV) selenide, Niobium selenide; Columbium selenide; diselenoxoniobium; niobium(+4) cation; selenium(-2) anion
CAS no. : 12034-77-4
EINECS no. : 234-811-8
Formula: NbSe2.
Molecular weight: 250.8264.
Density (g/mL,25) : 6.3
-
Bismuth vanadium tetraoxide
Other name:; Bismuth Vanadate Yellow; Bismuth vanadate; Bismuth Yellow; 184 Yellow ; vanadium(+5) cation; Bismuth vanadate: Bismuth orthovanadate
CAS no. : 14059-33-7
EINECS no. : 237-898-0
Molecular formula: BiO4V.
Molecular weight: 323.9195.
-
Molybdenum disilicide
Other name: Molybdenum silicide
Molecular formula: MoSi2
CAS number: 12136-78-6
Molecular weight: 152.11
Melting point: 2030 ° C
Density: 6.24g/cm3 -
Niobium metaphosphate
English name: Niobium metaphosphate
Chemical formula: Nb (PO3) 5
Molecular weight: 487.90
Properties: sodium biphosphate glass, white powder, insoluble in water, PH value: 3.8
-
Tantalum diboride
Other name: tantalum boride (1:2)
CAS no. : 12007-35-1
EINECS no. : 234-234-5
Molecular formula: B2Ta.
Molecular weight: 202.572
-
Zirconium tungstate
Other name:
Tungsten zirconium oxide ; Ditungsten zirconium octaoxide
CAS no. : 16853-74-0
EINECS no. : 240-876-3
Molecular formula: Zr(WO4)2
Molecular weight: 586.8992.
-
Niobium hydroxide
Specification: 99.9%, 99.99%
Other name: Niobium hydroxide oxide
CAS no. : 37349-30-7
Molecular formula: Nb(OH)5Mainly used in catalyst, new energy and other new industry production.