关键词: 国产, 高导热中间相沥青基碳纤维, 复合材料, 性能

Abstract: In order to consolidate the engineering application foundation of domestic high thermal conductivity mesophase asphalt-based carbon fiber (MPCF) in aerospace field, the properties of domestic MPCF and its composites were studied. The micro-morphology of domestic MPCF was characterized by scanning electron microscopy (SEM) and atomic force microscopy (AFM). The surface chemical elements, wettability and surface energy of domestic MPCF were measured by X-ray photoelectron spectroscopy (XPS), optical microscopy and surface interface testing instrument. The preparation process of domestic MPCF prepreg was investigated. The mechanical properties, physical and chemical properties and thermal vacuum degassing properties of domestic MPCF composites were evaluated. The results show that the roughness of domestic MPCF is higher than that of imported MPCF. The surface chemical activity, wettability and surface energy of domestic MPCF are better than those of imported MPCF. The forming process of domestic MPCF prepreg is subpar, and the interlayer shear strength of domestic MPCF composite (46.69 MPa) is comparable to that of imported MPCF composite, but other properties such as tensile, compression and bending properties are slightly lower than those of imported composite. The thermal vacuum degassing performance of domestic MPCF composite meets the requirements of space environment. The average in-plane thermal conductivity of domestic MPCF isotropic composite material is 152.1 W·m^-1·K^-1, and the thermal conductivity is slightly lower than that of imported materials, but it has more advantages of lightweight and structural-functional integration than the traditional 6063 aluminum alloy heat-expanding structure.

Key words: domestic, MPCF, composite, property