增强聚氨酯-多壁纳米碳管纳米复合材料的拉伸性能

Ghulam Abbas Gohar, Awais Akhtar, Hassan Raza, Ghulam Mustafa, Mahreen Fatima, Habib Ur Rehman, Muhammad Waqas Aslam, Abrar ul Haq, Waqar Manzoor
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摘要

与纯聚合物相比,聚合物纳米复合材料具有更高的强度、刚度和韧性,是一种很有前途的材料。将纳米颗粒(如碳纳米管、石墨烯、粘土纳米颗粒和金属氧化物)掺入聚合物基体中,已显示出增强所生产的纳米复合材料性能的巨大潜力。本文探讨了过滤多壁碳纳米管(MWCNTs)对溶液浇注聚氨酯(PU)纳米复合材料的影响。分别采用扫描电子显微镜(SEM)、X 射线衍射(XRD)、拉曼光谱、热重分析(TGA)和 X 射线光电子能谱(XPS)来表征样品的形貌、晶体结构、相、热稳定性和氧化态。与基础聚合物(PU)相比,MWCNTs 重量百分比较高的纳米复合材料具有更优越的机械性能。在所有制成的样品中,MWCNTs 含量为 1 wt% 和 PU 含量为 99 wt% 的纳米复合材料表现出最高的应力(19.25 N mm-2)和应变(700.22%)。此外,在聚氨酯基体中加入 0.5 wt%的 MWCNTs 后,弹性模量(∼25%)、极限拉伸强度(∼21%)和断裂伸长率(∼11%)均有所提高。这些优异机械性能的获得可归因于纳米复合材料中过滤的 MWCNTs 具有优异的分散性、界面结合性和结构稳定性。
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Achieving enhanced tensile properties of polyurethane-multiwall carbon nanotubes nanocomposites
Polymeric nanocomposites have emerged as a promising class of materials with improved strength, stiffness, and toughness compared to pure polymers. The incorporation of nanoparticles into polymer matrices, such as carbon nanotubes, graphene, clay nanoparticles, and metal oxides, has shown considerable potential for enhancing the properties of the produced nanocomposites. Herein, the influence of filtered multiwalled carbon nanotubes (MWCNTs) on solution-cast polyurethane (PU) nanocomposite is explored. Scanning electron microscopy (SEM), x-ray diffraction (XRD), Raman spectroscopy, thermogravimetric analysis (TGA), and x-rays photoelectron spectroscopy (XPS), respectively, were employed to characterize the morphology, crystal structure, phase, thermal stability, and oxidation states of the samples. MWCNTs with a higher weight% of MWCNTs showcased superior mechanical properties compared to base polymer (PU). The nanocomposite with 1 wt% of MWCNTs and 99 wt% of PU exhibited the highest stress (19.25 N mm−2) and strain (700.22%) among all fabricated samples. Also, Modulus of elasticity (∼25%), Ultimate tensile strength (∼21%), and elongation at break (∼11%) are increased by incorporating 0.5 wt% MWCNTs into PU matrix. The attainment of these remarkable mechanical properties could be attributed to excellent dispersion, interfacial bonding and structural stability of filtered MWCNTs in the nanocomposites.
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