Heat-resistant adhesive / Ceramic adhesive (inorganic) "Ceramabond" series

basic information

Heat-resistant adhesive / Ceramic adhesive (inorganic) 【Ceramabond Series】 - Ceramabond 503: Available in 100ml, 1 pint (approximately 500ml), 1 quart (approximately 1 liter) can - Ceramabond 552: Available in 1 pint (approximately 500ml), 1 quart (approximately 1 liter) can - Ceramabond 569: Available in 100ml, 1 pint (approximately 500ml), 1 quart (approximately 1 liter) can - Ceramabond 571: Available in 1 pint (approximately 500ml), 1 quart (approximately 1 liter) can - Ceramabond 671: Available in 1 pint (approximately 500ml), 1 quart (approximately 1 liter) can - Ceramabond 668: Available in 1 pint (approximately 500ml), 1 quart (approximately 1 liter) can - Ceramabond 618N: Available in 1 pint (approximately 500ml), 1 quart (approximately 1 liter) can - Ceramabond 835: Available in 1 pint (approximately 500ml), 1 quart (approximately 1 liter) can - Ceramabond 865: Available in 1 pint (approximately 500ml), 1 quart (approximately 1 liter) can

Price range

Delivery Time

Applications/Examples of results

We offer a wide range of products suitable for various applications, including a versatile type for bonding ceramics and metals, as outlined below: ● Bonding of ceramics, metals, and semiconductors that require high heat resistance and high thermal conductivity ● Assembly and bonding of high-temperature thermocouples and cases used in heating furnaces and boilers ● Bonding of ceramics and metal parts used at ultra-high temperatures, as well as coating and bonding of platinum resistance heaters and alumina tubes ● Bonding of solder gun tips and electrical/mechanical assembly parts ● Deep bonding and sealing of thermocouples used in high-temperature ranges ● Assembly work during mass production of high-output halogen lamps ● Bonding of ceramics, glass, quartz, etc. ● Control sensors for incinerators, etc.

Detailed information

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  Ceramabond 503 Alumina-based. Maximum heat resistance: 1650°C It has a low expansion coefficient and is commonly used for bonding ceramics. It is also suitable for bonding materials such as platinum.

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  Ceramabond 552 Alumina-based. Maximum heat resistance: 1650°C Suitable for bonding metals with low expansion coefficients, such as molybdenum and tungsten, as well as ceramics and glass.

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  Ceramabond 569 Alumina-based. Heat resistance limit: 1650°C A general-purpose type that can be processed at room temperature. Widely used for bonding ceramics to ceramics, ceramics to metals, and for preventing screw loosening, among other applications.

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  Ceramabond 571 Magnesia-based, with the highest thermal expansion coefficient among ceramic adhesives. Maximum heat resistance: 1760°C Ideal for bonding metals together. Suitable for heaters, sensors, ignition devices, etc.

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  Ceramabond 618N is silica-based, characterized by a small thermal expansion coefficient and strong adhesion. Maximum heat resistance: 1650°C. It is suitable for bonding ceramics, glass, and quartz.

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  Ceramabond 668 Based on alumina and silica. Maximum heat resistance: 1371°C Can be processed at room temperature. Used for bonding ceramics to ceramics and ceramics to metals. Used for bonding and encapsulating small electronic components.

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  Ceramabond 671 It is alumina-based, has strong adhesive properties, and is suitable for bonding ceramics and steel. Heat resistance limit: 1760°C Applications include assembly of high-temperature thermocouple cases and insulation and fixation of high-temperature sensors.

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  Ceramabond 835 Zirconium-based, reinforced with ceramic fibers. Maximum heat resistance: 1371°C For bonding ceramics to ceramics and ceramics to metals. Example of use: halogen lamps.

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  Ceramabond 865 is based on aluminum nitride, has high thermal conductivity, and is insulating. Maximum temperature resistance: 1650°C. It is used for bonding ceramics to metals and ceramics to ceramics, such as in sensors where thermal conductivity is required.

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