Thin design (thickness 0.4mm) thermal flux sensor
The "gSKIN(R)" heat flux sensor is a heat flux sensor suitable for applications that require high sensitivity, a thin profile, and high quality. It measures the heat flux passing through the surface of the sensor itself using an ultra-sensitive thermocouple. <Features of the "gSKIN(R)" heat flux sensor> - Minimal invasiveness: The very thin sensor module and uniform thermal resistance enable highly precise and distortion-free measurement of heat flux values. - High sensitivity: The high sensitivity maximizes the measurable heat flux range. With a standard voltmeter, heat flux values can be measured in the range of -10 to +10 kW/m² with a resolution of 0.5 W/m². - High accuracy: High accuracy makes the analysis of heat flux measurement results meaningful and well-founded, significantly improving production processes and materials. □ For other functions and details, please contact us.
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basic information
The "gSKIN(R)" heat flux sensor helps to enhance energy efficiency and improve material quality, adding critically important functionality to products. It can be applied particularly in the following areas.
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Applications/Examples of results
■Textile/Spinning Industry Improving the value of textile products by increasing comfort and optimizing heat insulation/propagation. The very thin design enables measurements in dynamic environments. ■Building Technology Providing optimal building materials through in-situ and in-vitro heat flux measurements and more accurate thermal resistance values (R-Values). Increasing the energy efficiency of buildings through heat flux measurements of building structures and heating and ventilation automatic control systems. Optimizing heat transfer from solar modules to buildings. ■Experimental Equipment Characterizing and optimizing chemical processes in terms of temperature, heat output per volume, addition rate, holding time, and reaction rate. Heat profiles, enthalpy, and heat transfer under conditions similar to chemical transformations and industrial processes. ■Automotive Industry Maximizing comfort of vehicle materials (e.g., seat fabrics) and enhancing the efficiency of heating systems to improve the customer driving experience. Improving overall vehicle efficiency by measuring and controlling heat release from combustion and mechanical processes. ■Electronics Industry Measuring heat release and heat flux from IC chips to develop and control/monitor appropriate functions.
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