连续纤维增强含二氮杂萘酮联苯结构聚芳醚砜酮树脂基复合材料的界面

利用射频感性耦合冷等离子体(ICP)处理技术改性连续纤维表面,分别采用X射线光电子能谱(XPS)、原子力显微镜(AFM)及动态接触角分析(DCA)系统研究了等离子体处理时间、放电气压、放电功率等工艺参数对连续碳纤维、芳纶纤维和对亚苯基苯并二噁唑(PBO)纤维的表面化学成分、表面形貌、表面粗糙度及表面自由能的影响.研究结...

INTERFACIAL STUDIES OF CONTINUOUS FIBERS REINFORCED POLY (AROMATIC ETHERS) CONTAINING PHTHALAZINONE MOIETIES

The surface modification of continuous fiber was conducted by the inductive coupling radio frequency cold plasma (ICP) technique.The influence of the plasma parameters,such as treatment time,discharge pressure,power,etc.on the surface chemical composition,surface morphology,surface roughness and surface free energy of continuous fiber was systematically studied by X-ray photoelectron spectroscopy (XPS),atomic force microscopy (AFM) and dynamic contact angle analysis (DCAA),respectively.Results showed that the plasma treatment introduced some polar groups such as O—CO onto the continuous fiber surface,increasing the percentage of surface polar groups; the plasma etched the fiber surface obviously,enhancing the surface roughness and surface free energy and improving the wettability of the fiber distinctly.Plasma treatment conditions should be appropriate during surface modification of fibers by clod plasma.After CF was treated for 5 min,CF surface polar group was increased to a relatively higher level.However,the effect of plasma etching on CF surface is relatively slower.After CF was treated for 5 min,CF surface roughness was changed a little.However,after CF was treated for more than 15 min CF surface roughness was increased significantly.Based on the study above,the interfacial adhesion and fracture mechanism of continuous fiber reinforced soluble polyaromatic ether resin composites was also systematically analysed by interlaminar shear strength (ILSS),water absorption and scanning electron microscopy (SEM) measurements.It was found that CF reinforced poly(phthalazinone ether sulfone ketone) (PPESK) composite interfacial adhesion mechanism analysis indicats that both chemical bonding and mechanical interlocking interaction has a positive effect on composite interfacial adhesion,however,mechanical interaction has a dominant effect on composite interfacial adhesion than chemical bonding interaction.Armos aramid fiber composite interlaminar shear strength increased from 59.5 MPa for untreated sample to 68.8 MPa for plasma treated for 10 min under discharge power at 200 W,with an increase of 15.6%.The water absorption decrease of composite also indirectly showed that oxygen plasma treatment improved composite interfacial adhesion.The primary failure mode of Armos aramid or PBO/PPESK composites shifted from interface failure to matrix fracture after oxygen plasma treatment.The interfacial adhesion of Armos aramid or PBO/PPESK composites was improved by oxygen plasma treatment due to the chemical linkage and mechanical bonding between Armos aramid or PBO fibers and PPESK matrices,and the chemical linkage effect exhibits more contribution than the mechanical bonding.