| Customization: | Available |
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| Type: | Heat Press Machine |
| Certification: | CE, RoHS |
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Silicone Rubber Fiberglass Flexible Heater For High Temperature
Silicone rubber fiberglass flexible heaters are advanced heating solutions designed to withstand high temperatures and provide even and efficient heat distribution. These heaters are commonly used in industrial applications where precise and reliable heating is essential.
Silicone rubber fiberglass flexible heaters for high-temperature environments offer a reliable and efficient solution for industrial heating needs. Their ability to withstand extreme temperatures, combined with flexibility and uniform heating capabilities, makes them invaluable in a wide range of industrial applications.
| Dimension | Dimensions on request | |
| Thickness | 4.5mm Note: There is an extra thickness at the connection point. | |
| Heating element | Nickel-Chromium or Copper-Nickel resistance wire wound around a fiberglass core | |
| Voltage | Any voltage on request (Any AC or DC) |
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| Output | Up to 5KW/M2 | |
| Tolerance | ±10% on resistance | |
| Max surface temperature | 250 degree | |
| Min exposure temperature | -60 degree | |
| Size/Shape Limitations | Maximum width of 48 inches, no maximum length |
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This drawing explains the surface temperature of a silicone rubber heater when it is not insulated and be put vertically at 20 ºC still air. The data is supported as reference tool according to the standard structure of 1.4mm thickness.
1-High-Temperature Resistance
Designed to withstand extremely high temperatures, making them suitable for applications where heating elements are exposed to heat-intensive environments.
2-Flexible and Lightweight
3-Uniform Heating
Even heat distribution across the entire surface ensures consistent and uniform heating, preventing hotspots and ensuring product quality.
4-Moisture and Chemical Resistance:
1-Food Processing:Employed in industrial ovens, cooking equipment, and food processing machinery to ensure consistent and reliable heating of food products.
2-Plastic Molding Industry:Used in injection molding and extrusion processes to heat molds and improve the flow properties of plastic materials.
3-Oil and Gas Industry:Applied in pipelines, tanks, and equipment in the oil and gas sector to prevent freezing and ensure the flow of viscous substances.
4-Medical Devices:Integrated into medical equipment like sterilizers and diagnostic devices that require controlled and high-temperature heating.
5-Plastic Molding Industry:Used in injection molding and extrusion processes to heat molds and improve the flow properties of plastic materials.
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