Properties of Carbon Microsphere/MgBOw Hybrid ReinforcedCarbon Foam Composites

WANG Bin; WANG Heng; CAO Yue; SU Bingyao; HOU Linwei; ZHAO Jianwei

doi:10.16080/j.issn1671-833x.2023.15.118

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Properties of Carbon Microsphere/MgBOw Hybrid ReinforcedCarbon Foam Composites

更新时间：2025-10-30

- Properties of Carbon Microsphere/MgBOw Hybrid ReinforcedCarbon Foam Composites
- Aeronautical Manufacturing Technology Vol. 66, Issue 15, Pages: 118-124(2023)
- 作者机构：
  
  1. 西安工程大学,西安,710048
  2. 中国纺织工业联合会功能感知纤维及异型织造技术重点实验室,西安,710048
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2023.15.118
  CLC：
- Published：2023
- 稿件说明：
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王斌，王恒，曹越，苏秉尧，侯林伟，赵建伟. 碳微球/ 硼酸镁晶须混杂增强碳泡沫复合材料的性能研究[J]. 航空制造技术, 2023, 66(15): 118-124.

WANG Bin, WANG Heng, CAO Yue, SU Bingyao, HOU Linwei, ZHAO Jianwei. Properties of Carbon Microsphere/ Mg2B2O5w Hybrid ReinforcedCarbon Foam Composites[J]. Aeronautical Manufacturing Technology, 2023, 66(15): 118-124.
王斌，王恒，曹越，苏秉尧，侯林伟，赵建伟. 碳微球/ 硼酸镁晶须混杂增强碳泡沫复合材料的性能研究[J]. 航空制造技术, 2023, 66(15): 118-124. DOI： 10.16080/j.issn1671-833x.2023.15.118.

WANG Bin, WANG Heng, CAO Yue, SU Bingyao, HOU Linwei, ZHAO Jianwei. Properties of Carbon Microsphere/ Mg2B2O5w Hybrid ReinforcedCarbon Foam Composites[J]. Aeronautical Manufacturing Technology, 2023, 66(15): 118-124. DOI： 10.16080/j.issn1671-833x.2023.15.118.

摘要

碳泡沫存在力学性能较差等问题，为改善其综合性能，以航空领域的应用需求为导向，以改性酚醛树脂为碳源，空心碳质微球为分散相，硼酸镁晶须（Mg

w）为增强相，通过压塑成型– 碳化工艺制备了碳微球/Mg

w混杂增强碳泡沫复合材料。采用扫描电子显微镜、万能试验机等研究了碳质微球与不同质量分数的Mg

w 混杂增强下碳泡沫的力学性能、热氧化性能和电磁屏蔽特性。结果表明，受压过程中，Mg

w 起到裂纹偏转作用和弯弓效应，增加了裂纹扩展路径，Mg

w 与空心碳微球协同作用，提高了碳泡沫复合材料的抗压缩性能；当Mg

w 质量分数为2% 时，复合材料的压缩强度达11.8 MPa，较纯碳泡沫提高了157%。碳泡沫复合材料在X波段的电磁屏蔽性能随Mg

w 含量的增加，亦提升明显。Mg

w 分散在基体及微球相表面，增加了复合材料内部的孔结构，延长了电磁波的传播路径，增大了复合材料对电磁波的吸收；当其质量分数8% 时，复合材料的电磁屏蔽效能高达53.8 dB，较改性前提高了68%。Mg

w 具有优异的抗氧化性能，其分散在基体及微球相表面上，阻止了热氧与基体和微球相的接触，使复合材料的耐氧化性能提高；当其质量分数5% 时，质量损失率为24%，复合材料的耐高温氧化性能最优，较纯碳泡沫提高了12.1%。

Abstract

Carbon foams always show the poor mechanical properties. For application demand-oriented in the field of aerospace

carbon microspheres/Mg

w hybrid reinforced carbon foam composites

were

prepared by the process of compression molding and carbonization

using modified phenolic resin as carbon source

hollow microspheres as dispersed phase

and magnesium borate whisker (Mg

w) as reinforcement

respectively

to improve their comprehensive performance. The mechanical properties

electromagnetic shielding effectiveness and oxidation resistance properties of carbon foam composites reinforced by carbon microspheres and different mass fractions of Mg

were investigated by SEM

and universal testing machine

respectively. The results showed that Mg

w played the role of crack deflection and bending bow

and increased the crack propagation path during compression

leading to Mg

w and hollow carbon microspheres improving the compressive properties of carbon foam composites synergistically. When the mass fraction of Mg

w is 2%

the compressive strength of the composites reached 11.8 MPa

157% higher than that of pure carbon foam. The electromagnetic shielding effectiveness of carbon foam composites in the X-band increased significantly

with the increase of Mg

w content. Mg

w dispersed on the surface of the matrix and microsphere phases

that increased the pore structure inside the composite material

prolonged the propagation path of electromagnetic waves

and increased the absorption of electromagnetic waves. When the mass fraction of Mg

w is 8%

the electromagnetic shielding performance reached 53.8 dB

68% higher than that of pure carbon foam. Mg

wpresented excellent antioxidant performance. They dispersed on the surface of the matrix and microsphere phase

preventing the contact of hot oxygen with the matrix and microsphere phase

and thus improving the oxidation resistance.

When the mass fraction of Mg

w is 5%

the mass loss rate of carbon foam composites is 24%

and the high-temperature oxidation resistance is the best

which is 12.1% higher than that of pure carbon foam.

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