Silicon Carbide Elbow ( Bend ) | SIC Ceramic Bend | SIC Elbow
Silicon Carbide Elbow Also Named SIC Ceramic Bend
Silicon Carbide Elbow Not Only Has Excellent Mechanical Properties At Room Temperature, Such As High Bending Strength, Excellent Oxidation Resistance, Good Corrosion Resistance, High Wear Resistance And Low Friction Coefficient, But Also Has The Best Mechanical Properties (Strength, Creep Resistance, Etc.) At High Temperature. The High Temperature Strength Of Materials Sintered By Hot Pressing, Pressureless Sintering And Hot Isostatic Pressing Can Be Maintained To 1600 ℃, Which Is The Best One Among Ceramic Materials. Oxidation Resistance Is Also The Best Of All Non Oxide Ceramics. Also Known As Emery.
Silicon Carbide Elbow Crystal Structure
There Are Two Main Crystal Structures Of Silicon Carbide, Namely, The Cubic System Of β - SIC And The Hexagonal System Of - SIC. The BaSIC Structural Unit Of Silicon Carbide Crystal Is SIC And Csi Tetrahedron Interpenetrating With Each Other. The Tetrahedron Has The Same Edge To Form a Plane Layer, And The Vertex Is Connected With The Next Tetrahedron To Form a Three-Dimensional Structure. Due To The Different Stacking Order Of Tetrahedron, Hundreds Of Variants Have Been Found. Generally, The Letters C (Cubic), H (Hexagonal) And R (Rhombohedral) Meters Are Used To Indicate The Lattice Type, And The Number Of Layers Contained In The Unit Cell Is Used To Show The Difference. For Example, Nh Represents The Hexagonal Crystal System Structure With n-Layer Repetition Period Along The c Axis, While Mr Represents The Rhombohedral Structure With m-Layer Repetition Period Along The c Axis.
Silicon Carbide Bend Performance
It Has Excellent Mechanical Properties, Excellent Oxidation Resistance, High Wear Resistance And Low Friction Coefficient. The Disadvantage Of SIC Ceramics Is That The Fracture Toughness Is Low, That Is, The Brittleness Is Large. Therefore, The Composite Ceramics Based On SIC Ceramics, Such As Fiber (Or Whisker) Reinforcement, Heterogeneous Particle Dispersion Strengthening, And Gradient Functional Materials Appear One After Another, Improving The Toughness And Strength Of Monomer Materials.
SIC Ceramic Bend / Elbow Application
The Initial Application Of SIC Is Due To Its Superhard Performance, Which Can Be Prepared Into Various Grinding Wheels, Abrasive Cloth, Abrasive Paper And Various Abrasives, So It Is Widely Used In The Mechanical Processing Industry. In The Second World War, It Was Found That It Can Also Be Used As Reducing Agent And Heating Element In Steelmaking, Thus Promoting The Rapid Development Of SIC. SIC Ceramics Have Been Widely Used In The Fields Of Petroleum, Chemical Industry, Microelectronics, Automobile, Aerospace, Aviation, Papermaking, Laser, Mining, Atomic Energy And Other Industries. Silicon Carbide Has Been Widely Used In The Fields Of High-Temperature Bearings, Bulletproof Plates, Nozzles, High-Temperature Corrosion-Resistant Components, High-Temperature And High-Frequency Electronic Equipment Parts And Components.
