Silicone Rubber Heater "Samicon 230"
It is a thin and lightweight flexible rubber heater with both sides of the heating element bonded with a heat-resistant insulating layer (silicone rubber).
【Fast Heating Response】This heater has a very thin thickness of 1mm, including heat-resistant insulation layers on both sides centered around the heating element, allowing for a rapid temperature rise. 【High Heating Efficiency】The heating element is in a foil shape, providing a larger contact area with the heated surface compared to linear elements, enabling faster heat diffusion and resulting in a heater with extremely high heating efficiency and minimal heating unevenness. 【Uniform Temperature Distribution】Using a heating element manufactured with precise density design and intricate etching technology, this heater corrects the temperature difference between the center and the surrounding areas, achieving a uniform temperature distribution. 【Wide Design Compatibility】Multiple heating circuits can be accommodated on the same heater surface, allowing for flexible designs such as creating temperature gradients according to application needs. 【Easy Handling】Regardless of the shape of the object to be heated, whether flat or curved, it can be used by adhering it. It can be safely used in combination with temperature fuses, thermostats, and temperature controllers.
basic information
- Since it is a flexible heater, it can be perfectly adhered to curved or cylindrical objects for heating. - With a thickness of just 1mm, it can be used in even the smallest gaps. - It can be used in a wide temperature range from -55℃ to +230℃ (MAX). - It is also ideal for use in medical devices, such as for keeping syringes and blood warm. - There is also a proven track record of use in maintaining the temperature of aviation instruments, such as infrared photography devices and measuring instruments.
Price information
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Delivery Time
Model number/Brand name
Samicon 230
Applications/Examples of results
For image fixation in copiers, faxes, and printers; heating and maintaining temperature for medical devices such as blood analyzers, culture devices, and blood; moisture protection for television cameras and optical sensors; heating and maintaining temperature for hot plates used in semiconductors and for instruments and precision equipment; heating and maintaining temperature for storage and piping devices for various oils and paints; maintaining temperature for aircraft control devices; and cooking appliances, among others.
