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十二醇-十六醇-辛酸三元复合相变材料的制备及性能研究 被引量:2

Preparation and propert of LA-HA-OA ternary composite PCM
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摘要 采用熔融共混法制备了一种适用于0~3℃冷链物流领域的三元复合相变材料。首先以十二醇(LA)和十六醇(HA)为原料制备了不同配比的LA-HA二元混合体系,在LA-HA的最低共熔点体系中加入正辛酸(OA),形成LA-HA-OA三元体系。实验结果表明,LA与HA质量比为82∶18时形成二元共熔物,其共晶温度为16.6℃,未出现过冷现象;LA-HA与OA质量比为54∶46时形成三元复合相变材料,其相变温度为1.8℃,过冷度为1.3℃,相变潜热达到149.8J/g。红外光谱测试表明,二元和三元复合相变材料在分子力的作用下结合,并未发生化学反应。LA-HA-OA三元复合相变材料在经过100次-10~10℃热循环后,材料的相变温度的变化不大于0.2℃,未发生相分离现象,热稳定性良好,可应用于冷链物流领域。 A ternary composite phase change material(PCM)suitable for 0~3℃ cold chain logistics was prepared by melt blending method.Binary composite of LA-HA with different mass ratios were prepared with lauryl alcohol(LA)and hexadecyl alcohol(HA).Thenoctanoic acid(OA)was added to the lowest eutectic composite of LA-HA to form LA-HA-OA ternary composite.The experimental results shown that the lowest eutectic was formed when the mass ratio of LA and HA was 82∶18.The eutectic temperature of LA-HA was 16.6℃ and has no subcolding phenomenon occurred.When the mass ratio of LA-HA to OA was54∶46,a ternary eutectic PCM was formed.The phase change temperature of the ternary eutectic composite was 1.8℃,the subcooling degree was 1.3℃,and the latent heat was 149.8 J/g.Fourier Infrared Spectroscopy(FT-IR)shown that the binary and ternary composites were combined under the action of molecule force,and had no chemical reaction occurred.LA-HA-OA ternary composite PCM had no phase separation phenomenon,and the change of its phase change temperature was no more than 0.2℃ after 100 thermal cycles of between-10℃ and 10℃.It shown that the composite PCM had good thermal stability which can be used in the field of cold chain logistics system.
作者 常洋珲 孙志高 Chang Yanghui;Sun Zhigao(School of Environment Science and Engineering,Suzhou University of Science and Technology,Suzhou 215009)
出处 《化工新型材料》 CAS CSCD 北大核心 2022年第9期139-143,共5页 New Chemical Materials
基金 江苏省高校自然科学研究重大项目(16KJA480001) 江苏省研究生实践创新计划项目(SJCX20-1093)。
关键词 十二醇 十六醇 正辛酸 复合相变材料 相变潜热 热稳定性 dodecanol alcohol hexadecyl alcohol caprylic acid phase change material latent heat thermal stability
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