期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 24, 期 9, 页码 -出版社
MDPI
DOI: 10.3390/ijms24098221
关键词
boron nitride; polyurethane; thermal conductivity; mechanical properties
This study presents a method to fabricate BN/PU composites using an improved nonsolvent-induced phase separation method with binary solvents, aiming to improve the thermal performance and flexibility of PU. The BN/PU composites exhibited high thermal conductivity and maintained good integrity after 1000 bending cycles, demonstrating good mechanical and thermal reliability for practical use.
Thermal insulating composites are indispensable in electronic applications; however, their poor thermal conductivity and flexibility have become bottlenecks for improving device operations. Hexagonal boron nitride (BN) has excellent thermal conductivity and insulating properties and is an ideal filler for preparing thermally insulating polymer composites. In this study, we report a method to fabricate BN/polyurethane (PU) composites using an improved nonsolvent-induced phase separation method with binary solvents to improve the thermal performance and flexibility of PU. The stress and strain of BN60/PU are 7.52 +/- 0.87 MPa and 707.34 +/- 38.34%, respectively. As prepared, BN60/PU composites with unordered BN exhibited high thermal conductivity and a volume resistivity of 0.653 W/(m.K) and 23.9 x 10(12) Omega.cm, which are 218.71 and 39.77% higher than that of pure PU, respectively. Moreover, these composite films demonstrated a thermal diffusion ability and maintained good integrity after 1000 bending cycles, demonstrating good mechanical and thermal reliability for practical use. Our findings provide a practical route for the production of flexible materials for efficient thermal management.
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