In recent years, influenced by industrial development and technological progress, synthetic lipid thermal conductive materials have
been widely used in many fields and played an important role. However, this material is easily affected by temperature. In a low-temperature
environment, the fluidity of this material will decrease, thereby affecting its performance. This paper focuses on the synthesis of ester-based
thermal conductive materials and studies the optimization of their low-temperature fluidity, hoping to provide reference for relevant personnel.

Synthetic ester thermal conductive materials; Low temperature; Liquidity

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