Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5367421 | Applied Surface Science | 2011 | 7 Pages |
This paper is concerned with the influence of argon plasma on the interfacial adhesion of PBO fiber/bismaleimide composites and aging behaviors. The interlaminar shear strength (ILSS) was greatly increased to 62.3Â MPa with an increase of 39.7% after treatment for 7Â min at 80Â Pa, 200Â W. A small amount of O and N atoms was incorporated onto the fiber surface, but the plasma caused C-O bonds to break and generated OC-N groups. The fiber surface roughness increased, contributing much to the wettability. However, long-time treatment excessively destroyed the inherent and newly created structures. The SEM images suggested that the fracture shifted from the interface to the matrix. The modification effects degraded with storage time in the air and the ILSS decreased to approximately 54.0Â MPa after 10-30 days. The composite had low water absorption of 2.0Â wt% and a high retention of 90% in the ILSS at moisture conditions.
⺠The ILSS increased rapidly with the processing time, followed by a gradual decrease. ⺠The fiber surface elements had a small variation. The C-O bonds broke down and the amide groups generated. ⺠The surface roughness increased, contributing to the wettability. Proper roughness was needed for the enhanced adhesion. ⺠The adhesion degraded with the aging time in air. ⺠The composite had a good resistance to humidity.