• 综述 •
贾航, 乔越, 张玉, 孟庆鑫, 刘程, 蹇锡高. 玄武岩纤维增强树脂基复合材料界面改性策略[J]. 化学进展, 2020, 32(9): 1307-1315.
Hang Jia, Yue Qiao, Yu Zhang, Qingxin Meng, Cheng Liu, Xigao Jian. Interface Modification Strategy of Basalt Fiber Reinforced Resin Matrix Composites[J]. Progress in Chemistry, 2020, 32(9): 1307-1315.
近年来,工业界和学术界都将注意力聚焦在可持续天然纤维复合材料的开发上。玄武岩纤维具有高强度、高模量、耐高温、耐酸碱、隔热隔音、热振稳定性好、介电性能优异、绿色无污染及成本低等优点,玄武岩纤维增强树脂基复合材料凭借其优异的机械性能和可设计性被广泛地应用于飞行器、汽车、船舶、建筑、石油化工管道及风力发电机叶片等领域。然而,玄武岩纤维与聚合物基底间差的相容性导致玄武岩纤维增强树脂基复合材料存在诸多缺陷和不足。其中,界面强度不够高、界面相易被破坏的问题成为制约玄武岩纤维增强树脂基复合材料发展的瓶颈之一,因此许多玄武岩纤维增强树脂基复合材料研究工作集中在提高其界面结合能力上。本文介绍了玄武岩纤维增强树脂基复合材料的主要研究方向,以及几种常见的复合材料界面作用机理,并综述了近年来国内外关于玄武岩纤维增强树脂基复合材料界面增强改性方面的研究工作。
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Properties | BF | CF | E-GF |
---|---|---|---|
Density(g/cm3) | 2.6~2.8 | 1.7~2.2 | 2.5~2.6 |
Temperature(℃) | -260~700 | -50~2000 | -60~350 |
Thermo-conductivity(W/m·K) | 0.031~0.038 | 5~185 | 0.034~0.040 |
Volume resistivity(Ω·m) | 1×1012 | 2×10-5 | 1×1011 |
Sound-absorption coefficient(%) | 0.9~0.99 | - | 0.8~0.93 |
Elastic modulus(GPa) | 79.3~93.1 | 230~600 | 72.5~75.5 |
Tensile strength(MPa) | 3000~4000 | 3500~6000 | 3100~3800 |
Diameter(μm) | 5~25 | 5~10 | 5~30 |
Elongation to fracture(%) | 1.5~3.2 | 1.3~2.0 | 2.7~3.0 |
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