{"id":6444,"date":"2024-11-02T00:02:55","date_gmt":"2024-11-02T00:02:55","guid":{"rendered":"https:\/\/jinsuncarbon.com\/?post_type=product&p=6444"},"modified":"2025-01-18T23:16:22","modified_gmt":"2025-01-18T23:16:22","slug":"graphite-heating-element","status":"publish","type":"product","link":"https:\/\/jinsuncarbon.com\/hi\/product\/graphite-heating-element\/","title":{"rendered":"Graphite Heating Elements"},"content":{"rendered":"
Graphite heating element is a device component carefully made of high purity graphite material for heating.\u00a0With excellent high temperature resistance, electrical conductivity and chemical stability, it has\u00a0important applications in vacuum furnaces, metal casting and semiconductors.\u00a0And it is designed with performance requirements in mind. It is a reliable and durable heating element that can well meet the heating needs of different working conditions.<\/p>\n
Graphite heaters usually have a variety of forms such as rod<\/a>, plate and tube.<\/span>\u00a0It offers a number of significant advantages.<\/p>\n Excellent high temperature resistance<\/strong><\/p>\n Graphite heating element has stable operation at temperatures up to 1000\u00b0C and beyond.<\/p>\n Good resistance<\/strong><\/p>\n It can efficiently convert current into heat energy, and the heat conversion rate is very impressive.\u00a0And it can meet the heating needs of different scenarios.<\/p>\n Extremely stable chemical properties<\/strong><\/p>\n It will not react in most chemical environments, corrosion resistance is strong.<\/p>\n High mechanical strength<\/strong><\/p>\n It is not easy to be damaged by conventional external force.<\/p>\n High heat conduction efficiency<\/strong><\/p>\n The heating speed is fast, and the target heating temperature can be quickly achieved.<\/p>\n In addition, it also has good plasticity and is easy to process into various shapes. Under suitable processing conditions, we can shape it by mechanical stamping, molding or CNC machining to meet your needs.<\/p>\n Rod graphite heating element:<\/strong><\/p>\n This structure is simple and elongated rod. Because of its shape characteristics, you can widely use it in some scenarios that need to be heated deep in a specific space. Such as in small experimental furnaces, tubular reactors and other equipment, which can accurately heat local areas.<\/p>\n Plate-like graphite heating element:<\/strong><\/p>\n The appearance is flat plate-like, with a large heating area. It is suitable for the occasion of uniform heating of a large area of objects. Such as in some heat treatment equipment and drying equipment. It can make the material heat more evenly and improve the heating effect.<\/p>\n Tubular graphite heating element:<\/strong><\/p>\n A hollow tubular structure, this structure makes it obvious advantages in heating fluid media. It can let the fluid flow in the tube and be uniformly heated. It is common in the fluid heating process in the chemical industry, petroleum and other industries.<\/p>\n Graphite heating elements can efficiently convert electrical energy into heat. The vacuum environment is mainly based on heat radiation transfer, graphite radiation ability is strong, can create a uniform high temperature environment. It is suitable for metal melting, sintering, like special alloy melting, to ensure uniform alloy heat, improve material quality. Moreover, it does not react with process gases such as argon and nitrogen in the vacuum furnaces<\/a>.<\/p>\n You can use graphite heaters for metal quenching, tempering and annealing. It heats up fast and controls temperature accurately. For example, when the tool is quenched, it can make the tool reach the appropriate temperature. Then improve the hardness and wear resistance of the tool.<\/p>\n In metal melting, forging, graphite heating element provides high temperature, so that the metal to reach the appropriate processing temperature. To ensure processing quality and efficiency. Like small electric furnaces in the steel industry, it can stabilize the melting of metal raw materials.<\/p>\n Chemical reactions often require specific temperatures. You can use it to heat reactor materials, and their chemical stability ensures safe operation in various chemical environments. Such as precise temperature control in organic synthesis reactions.<\/p>\n The lithography and annealing processes of semiconductor chip manufacturing require extremely high heating accuracy and stability, it can meet the needs. To ensure the accuracy of chip manufacturing processes and product quality.<\/p>\n Its design needs to take into account many aspects. The shape depends on the equipment, such as rod, plate. The size is determined according to power and space to ensure the heating effect. Select material of high purity graphite, in order to obtain good high temperature resistance and electrical conductivity. The connection method is also important, to facilitate installation and circuit connection, to achieve efficient heating.<\/p>","protected":false},"excerpt":{"rendered":" Graphite heating elements are made of high-purity graphite materials and are used as heating elements in vacuum furnaces, such as single crystal furnaces and polycrystalline furnaces. It uses resistance heating to convert electrical energy into thermal energy. Graphite heating elements can be designed into a variety of shapes and can meet your customized needs.<\/p>\nTypes of graphite heating elements<\/h2>\n
Uses of graphite heating elements<\/h2>\n
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Vacuum furnaces<\/h3>\n<\/li>\n<\/ul>\n
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Heat treatment<\/h3>\n<\/li>\n<\/ul>\n
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Metal processing:<\/h3>\n<\/li>\n<\/ul>\n
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Chemical production:<\/h3>\n<\/li>\n<\/ul>\n
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Electronic photovoltaic semiconductors:<\/h3>\n<\/li>\n<\/ul>\n
Graphite heating element design<\/h2>\n
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