Paraffin-filled boron carbide/polyvinyl alcohol scaffolds with enhanced thermal energy storage and form stability

Ma Chunyan; Wei Chun; Bai Junwei; Deng Jianguo

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Paraffin-filled boron carbide/polyvinyl alcohol scaffolds with enhanced thermal energy storage and form stability

机译：石蜡填充硼碳化物/聚乙烯醇支架，具有增强的热能储存和形成稳定性

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As a kind of inorganic filler, boron carbide powder-toughened polymer matrix has been widely studied. However, the layered boron carbide scaffold composites with large area orientation are rarely reported. A series of hierarchically aligned scaffolds of boron carbide and polyvinyl alcohol (B4C/PVA) with different B4C mass fractions are prepared by a bidirectional freeze-casting method. These ordered, lamellar B4C/PVA scaffolds allow paraffin wax to penetrate rapidly to form composite phase change materials (CPCMs). The molten paraffin trapped in this structure remains stable and has a little amount of leakage because of capillary effect. And the leakage rate is 1.1 wt% and 1.6 wt% after 25 cycles at the temperature interval of 25-80 degrees C and 25-90 degrees C, respectively. The highest retention of latent heat is up to 90% for specimen of 1%-a. And the thermal conductivity of CPCMs is 0.33 W m(-1) K-1 for 8%-e.

机译：碳化硼粉体增韧聚合物基体作为一种无机填料得到了广泛的研究。然而，具有大面积取向的层状碳化硼支架复合材料却鲜有报道。采用双向冷冻浇铸法制备了一系列具有不同B4C质量分数的碳化硼和聚乙烯醇（B4C/PVA）分级排列支架。这些有序的层状B4C/PVA支架允许石蜡快速渗透形成复合相变材料（CPCMs）。由于毛细管效应，困在该结构中的熔融石蜡保持稳定，并有少量泄漏。在25-80℃和25-90℃的温度间隔下，25次循环后的泄漏率分别为1.1 wt%和1.6 wt%。对于1%-a的试样，潜热保持率最高可达90%。对于8%-e的试样，CPCMs的导热系数为0.33 W m（-1）K-1。

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《Journal of Materials Science》 |2021年第23期|共12页
作者
Ma Chunyan; Wei Chun; Bai Junwei; Deng Jianguo;
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China Acad Engn Phys Inst Chem Mat Mianyang 621900 Sichuan Peoples R China;

China Acad Engn Phys Inst Chem Mat Mianyang 621900 Sichuan Peoples R China;

China Acad Engn Phys Inst Chem Mat Mianyang 621900 Sichuan Peoples R China;

China Acad Engn Phys Inst Chem Mat Mianyang 621900 Sichuan Peoples R China;

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正文语种 eng
中图分类工程材料学;
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Paraffin-filled boron carbide/polyvinyl alcohol scaffolds with enhanced thermal energy storage and form stability

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