High-accuracy thermophysical property measurement technique is crucial for the advancement of new materials and structures, particularly with the rise of nanomaterials. This study presents a Labview-3? technique that enhances the measurement speed, accuracy, and uncertainty for a wide range of nanomaterials through automated data acquisition and thermal measurement functions. This high-speed, automatic, and intelligent method holds great potential for thermophysical property measurement of various materials.
High-accuracy thermophysical property measurement technique plays a significant role in the development of new materials and structures. Especially with the emerging nanomaterials, techniques that can provide thermophysical property measurement for nanoscale structures become urgent needed. Here, a Labview-3? technique with automatic data acquisition and thermal measurement functions on the basis of the conventional 3? technique is developed, which greatly improves the measurement speed, accuracy, and uncertainty for a wide range of nanomaterials. This high-speed, automatic, and intelligent measurement method provides great application potential for a thermophysical property measurement of various materials.
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