How do you measure the thermal resistance of composite materials used in communication electronics ?(VIDEO)
Date: - Categories: Applications & Technologies
Communication electronics industry challenges
Quartz fibre composites are widely used in RF sensors, radomes, and embedded electronics across automotive, aerospace, defense and IoT sectors. Their low dielectric constant and excellent chemical stability make them ideal for wave-transparent applications, but ensuring their reliability under thermal exposure requires precise material characterization.
Why thermal resistance matters
From lab to life: the experiment explained
Watch a video presenting a case study on how to measure the thermal resistance of composite materials used in communication electronics.
Our Themys TGA: the perfect fit to study the thermal resistance of composite materials
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High accuracy & versatility
Hang-down symmetrical beam balance, specifically designed for TGA applications
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Ultra-high temperature capability
To 2400°C with a single furnace
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External coupling capability
Designed for evolved gas analyzers (FTIR, MS, GCMS, MSFTIR or FTIR-GCMS).
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Modular adaptions
Allowing TGA only, DTA only, TG-DTA, and TMA UP TO 2400°C, DSC only and TG-DSC up to 1600°C all in one instrument
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