Carbon nanotube nanocomposites represent a breakthrough in the field of sensor applications due to their high sensitivity. Their stability is also influenced by certain thermo-mechanical limitations. The result of the research has shown the dominant effect of temperature on the mechanical and electrical properties of the nanocomposites, while material overload can cause the interruption of conductive paths and transition to a non-conductive or highly unstable state. The research highlights the correlation between input variables and the material's response, enabling the development of tailored sensor solutions for various applications.
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