Product description
Iso-molded graphite, also named isostatically pressed graphites or isostatic graphiteisotropic graphite. It is produced by the method of cold isostatic pressing (cip). Graphite is iso-statically pressed is because it allows for uniform properties in all grain directions. This differs from extruded which is pushed through a die and has varying properties in different grain directions. Iso-molded graphite is used for specific applications where uniform is required.
Djx graphite obtain a high finished product yield rate due to our unique process and quality control, this enable us to produce high quality consistent isotropic graphite.
Features
1.Good machinability
Compared with metallic materials, the bulk density of graphite is lower. It has excellent mechanical machining properties.
2.Strong thermal stability
It is possible to be used even at 3000 in inert atmosphere or more.
3.Low expansion ratio
Low thermal expansion ratio will ensure dimensional stable, even rapid change in temperature.
4.Excellent chemical resistance
Graphite has good chemical stability at room temperature. Resistance to acid, alkali, and organic solvents.
5.Excellent electrical conductivity and thermal conductivity
With strong thermal resistance, which means graphite is the ideal material for certain applications like heating element.
Graphite block Our highly purified graphite has the following advantages: good wearing resistance, high temperature resistance, good oxidation resistance and corrosion resistance. Highly purified graphite from our company has been widely used in paper making, machine, pump, pharmacy, petroleum and chemical industries. Carton, wooden box
Applications Casting molds for railroad wheels. Heat exchangers for chemical industries. Electrodes and linings in some industrial furnaces (such as graphitization furnace) . Cathodes in aluminum electrolysis cells. Programmable properties High thermal and chemical resistance. Good thermal conductivity. Low coefficient of thermal expansion. Minimal wettability to molten metals.
Graphite Black Block
Graphite Black Block
Product description All high purity molded pressed graphite have individual properties that will help you to choose the perfect grade that best suits your needs. Molded pressed graphite provides an extremely wide range of properties in terms of mechanical strength, friction, density, hardness and conductivity, which is even further enhanced by impregnation with resin or metal. Due to their fine grain size and homogeneous structure, it can often replace isostatic graphite if dimensions is not taken into consideration. Features 1.Good machinability Compared with metallic materials, the bulk density of graphite is lower. It has excellent mechanical machining properties. 2.Strong thermal stability It is possible to be used even at 3000 in inert atmosphere or more. 3.Low expansion ratio Low thermal expansion ratio will ensure dimensional stable, even rapid change in temperature. 4.Excellent chemical resistance Graphite has good chemical stability at room temperature. Resistance to acid, alkali, and organic solvents. 5.Excellent electrical conductivity and thermal conductivity With strong thermal resistance, which means graphite is the ideal material for certain applications like heating element.
Supplier: Graphite disc (graphite molded round), graphite blocks, graphite plate, graphite electrode, granular graphite, graphite block, electrode
Supplier: Graphite stone, tiles
Molded graphite Molded graphite materials we supplied are divided into two series: fs series /fb series . They have high anisotropy. The materials provide extremely wide characteristics such as mechanical strength, friction and conductivity, which can be further enhanced by impregnation with resins or metals. Special materials can be processed by pressing components directly close to final sizes. The press-to-size-technology reduces the cost of machining in large quantities. Wooden box
Supplier: Graphite electrode, plate, block, tiles, bricks, bushes, rod, graphite granules, powder lumps
Buyer: Graphite and carbon materials
