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SPECIFICATIONS
Description | Infrared Ceramic Heater |
Brand | Hugeworth |
Principle | Electric Heat exchange |
Volt/Size/Watts/Shape | Customized |
Max watt densities(w/cm2) | 17 |
Heating Material | Nickel chrome wire |
Insulation material | Ceramic |
Dielectric strength | 1000VRMS |
Max thickness | 0.5 inch thick |
Application temperature | -32 degree ~1000 degree |
Application Description | Embedded ceramic heater which be sintered under 1 2 0 0 degrees Celsius and made of glass ceramic substrate-heating wire-a radiation glaze layer overall. |
Infrared Ceramic Heater
Hugeworth designed more than 10,000 heating solutions,please feel free to request a brochure and sample.Embedded ceramic heater which be sintered under 1 2 0 0 degrees Celsius and made of glass ceramic substrate-heating wire-a radiation glaze layer overall. Structure is shown in figure 1.
It is made from mineral raw materials and industrial waste, radiation glaze layer is synthesized from industrial raw materials.Due to the this, the total power consumption is lower than silicon carbide elements.
This element radiation characteristics is very good , and with good thermal shock resistance and insulation performance, long service life and sterilization Capability is strong, the surface is bright and clean.
Product features:
- The radiation resistance
This product select the appropriate base glaze and different additives, made from the best formula of modified high radiation glaze.As shown in figure 2、3
2 Thermal shock resistance
Thermal shock resistance is an important indicator of ceramic heating elements.This product’s base material intensity is high and thermal expansion coefficient is small, with the proper draft process which obtain good thermal shock resistance.
3 Insulation performance
Embedded ceramic heater’s base material is glass ceramic, electric wire is embeded into base material, not exposed, which ensure the safety of the insulation performance and safely use.
4 The service life
Embedded ceramic heater working temperature is much lower than sintering temperature, glaze layer and the substrate has good radiation characteristics, and glaze is Clean, not easy to peel off, Components with nickel chromium alloy wire as heating element which ensure its long life.
5 Thermal inertia
Ceramic heating elements of thermal inertia is greater than the direct heat Radiation elements, similar as SIO element, as shown in figure 4.This product select best embedment depth for the heating wire, which ensure the components surface without cracks, and make the components with smaller thermal inertia and high surface temperature.
Technical parameters:
1, Matrix flexural strength can reach 440 kg/c ㎡
2 components of resistivity can reach 1012 Ω. M under room temperature
3, Good chemical stability, corrosion resistance is strong, antioxidant use effect is good
4, Less heat loss through using central
5, Not cracking substrate heated to 800 ℃ in cold water for times
6, Radiation rate can reach 0.9
7, Energy saving effect can improve the 10-35% than carbor undum
8,Times longer service life than the carborundum
Infrared thermographic testing professional accuracy and reliability
Typical applications:
- Medical diagnostic instruments:Heat sample trays, reagent bottles, etc and analyzers
- Stabilize optoelectronic components
- Test or simulate integrated circuits
- Enable cold weather operation of outdoor electronics such as card readers, LCDs
Rigorously Tested
Tested to withstand 10000 times cycles for long lasting durability and reliability.
4 Times 100% Testing in The Process
1. Heater visual inspection
2. Semi-finished product inspection
3. After dispensing
4. Before packing
HUGEWORTH is a leading manufacturer on comprehensive thermal, temperature sensing and control, and flexible circuit solutions for medical, aerospace, defense, oil and gas, power generation ,household and other high-reliability applications.
HUGEWORTH’s mission is to serving better life to worldwide family.
1、Best solution of cost control, process managing, time reducing.
2、Optimization from designing, molding, manufacturing production.