机构地区:[1]北京化工大学机电工程学院,北京100029 [2]中国化学纤维工业协会,北京100022
出 处:《纺织学报》2023年第11期36-44,共9页Journal of Textile Research
基 金:国家自然科学基金面上项目(52073012)。
摘 要:为实现玻璃纤维的导电功能化应用,分别采用聚对苯二甲酸乙二醇酯(PET)和聚氯乙烯(PVC)为聚合物固态碳源,利用化学气相沉积在玻璃纤维基体表面制备碳纳米涂层得到导电玻璃纤维。借助扫描电子显微镜、拉曼光谱仪、X射线光电子能谱仪、单纤维强力仪、电阻率测试仪研究不同碳源及制备温度对碳纳米涂层导电玻璃纤维的表面化学结构、结合性能、力学性能及导电性能的影响规律。结果表明:利用聚合物固态碳源沉积的碳纳米涂层可以紧密包覆在玻璃纤维表面,且没有裂纹等结构缺陷,涂层在热震循环10~15次内表现出较好的结合性能,不易出现脱落、起泡等结构缺陷,且以PVC为碳源制备的碳纳米涂层与玻璃纤维的结合性优于以PET为碳源制备的碳纳米涂层;导电玻璃纤维的力学性能较原纤维存在一定的降低,形成的碳纳米涂层为具有一定缺陷的sp^(2)杂化多层类石墨烯结构;碳纳米涂层赋予玻璃纤维优异的导电性,在700~950℃的制备温度区间内,玻璃纤维的电阻随温度升高而显著下降,在950℃时以PET为碳源制备的碳纳米涂层玻璃纤维电阻为602.10Ω/cm,以PVC为碳源制备的碳纳米涂层玻璃纤维电阻为181.65Ω/cm。说明在玻璃纤维表面制备碳纳米涂层可赋予玻璃纤维优异的导电性,固态碳源的使用为废弃塑料垃圾的高价值回收提供一定参考。Objective The glass fiber belongs to non-metallic insulation materials,and carbon nanomaterials have excellent electrical conductivity.In order to study the influence of carbon nanocoating on glass fiber with common plastics as carbon source and to further expand the application fields of carbon nanomaterials and glass fiber,glass fiber and carbon nanomaterials were combined to obtain carbon nanocoated glass fibers.Method Polyethylene terephthalate(PET)or polyvinyl chloride(PVC)polymer was used as a solid carbon source to prepare carbon nanocoating on glass fiber by chemical vapor deposition.Carbon nanocoated glass fibers were prepared at 700,750,800,850,900 and 950℃.Scanning electron microscopy(SEM),Raman spectroscopy,X-ray photoelectron spectroscopy(XPS),thermal shock experiment,single fiber strength instrument and resistivity instrument were adopted to characterize the fiber properties.Results The surface of glass fiber was obviously observed at 700℃but carbon nanocoating was not obvious.The black carbon nanocoating with metallic luster became more obvious and the preparation effect became better with the increase of preparation temperature(Fig.2).SEM characterization further confirmed that the carbon nanocoating was successfully prepared and the coating surface was smooth and tightly coated on the surface of glass fiber(Fig.3).For the carbon nanocoating on glass fiber prepared from PET and PVC,the intensity ratios of D peak to G peak were 0.9426 and 0.9046,respectively.The carbon nanocoating had a multilayer graphene-like structure with a tendency to pile up,and the defect density of carbon nanocoating prepared from PVC was smaller in Raman spectra(Fig.4).The ratios of sp 2 C C to sp 3 C—C were 6.4281 and 6.8213,respectively,further indicating that the carbon nanocoating prepared from PVC had fewer defects in XPS(Fig.5 and Tab.1).In the thermal shock experiment,no structural defect appeared in 10 cycles,the carbon nanocoating prepared from PET began to show structural defects after 15 cycles.The carbon
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