Mosi2 heaters is a kind of resistance heating element basically made of high pure molybdenum disilicide.In oxidizing atmosphere, its max temperature can reach 1800 deg.C, and its applicable temperature is 500~1700 deg.C. It can be widely used in such applications as sintering and heating treating of ceramic, magnet , glass, metallurgy , refractory, ect.
All the specifications can be made according to your requirements. And our technical engineers are pleased to assist you!
There are u type?w type?l type(bend at lu)?l type(90° bend at lu)?straight type and other types for you to choose.
Silicon carbide sic electric heater rod for element temperatures up to 1625, for industrial and lab furnaces/ovens, available in a wide variety of standard sizes and geometries, or in customized designs.
The silicon carbide(sic) heating element is a kind of non~metal high temperature electric heating element. It is made of selected super quality green silicon carbide as main material , which is made into blank, solid under high temperature and re~crystallized. Compared with metal electric heating element, this element is characterized by high~applied temperature , anti~oxidization, anti~corrosion, long service life, little deformation, easy installation and maintenance. Therefore , it is widely used in various high temperature electric furnaces and other electric heating devices, such as in the Industries of magnet, ceramics, powder metallurgy, glass, metallurgy and machinery etc. All the specifications can be made according to your requirements. And our technical engineers are pleased to assist you! There are ed(rod) type?u type?w(three phase)type?g(gun)type?db(dumbbell)type?scr(double spiral)type?sc(single spiral)type?h type for you to choose.
Supplier: SiC heating elements, MoSi2 heating elements
Supplier: SiC heating elements, MOSI2 heating elements, Furnace heater elements
Supplier: Mosi2 heating elements, SIC heating elements, butyl stoppers
Services: Manufacturer
Supplier: Silicon carbide heating element, mosi2 heating element, sisic products, ceramic rollers
SCR Type SiC Heating Elements Product Description SCR(SGR, SEU) type double-spiral silicon carbide heating elements are cut so as to place both electrical terminations on the same end of the element.They are supplied with the terminal assembly attached. SGR (SCR) type Torch Furnace silicon carbide design or dimensions preclude wiring from both sides of the furnace. This type is ideal for blind holes and the operating temperature can be up to 1500 deg C. it is also widely used in various high temperature electric furnaces and other electric heating debices, such as in the industrial of magnet, ceramics, powder metallurgy, glass, metallurgy and michinery etc. Features: 1, High temperature resistance, resistance to oxidation and corrosion 2, Fast heating, long life, small deformation at high temperature, easy to install and maintain 3, With automatic electronic control systems, precision constant temperature can be obtained, curve temperature control can be obtained too according to the needs of production
W Type SiC Heating Elements Silicon Carbide Heater Advantages 1. Withstands as high as 1500�°C (surface temperature). 2. Various shapes, like Rod shape, U shape, W shape, Single Spiral & Double Spiral shape, are available to meet your demand. 3. Large size range. 4. Generates high heat output per unit surface area.
DB ( Dumbbell ) Type Silicon Carbide Heating Element Silicon carbide (SiC) Heating Element is a kind of non-metal rod or tube shape high temperature electric heating element.It is made of selected super purity green hexagonal silicon carbide as main material, which is made into blank and silicon crystal under high temperature of 2400�ºC. In oxidizing atmosphere, its service temperature can reach 1450�°C and continuous use life can reach 2000 hours. The Dumbbell style elements, with the enlarged cold ends, were one of the earliest designs of the heating elements, which were originally made oversized to increase the cold end cross section, lowering electrical resistance so as to lower the operating temperature of the cold ends. Modern Dumbbell elements, by contrast, all employ an advanced technology to keep the terminal ends cool by virtue of the decreased resistivity of the lower resistance of the material of the cold ends in the manufacturing process. Therefore, oversized cold ends are no longer necessary. Non-dumbbell or ED type elements can substituted for Dumbbell elements.
