Effects of seawater corrosion environment on the impact behavior of multi-walled carbon nanotube and SiO2reinforced basalt/epoxy hybrid nanocomposites

材料科学 玄武岩纤维 复合材料 极限抗拉强度 碳纳米管 海水 纳米复合材料 吸水率 腐蚀 纳米颗粒 环氧树脂 复合数 纤维 纳米技术 海洋学 地质学
作者
İbrahim Demirci,Ahmet Avcı
出处
期刊:Journal of Composite Materials [SAGE Publishing]
卷期号:56 (4): 627-643 被引量:7
标识
DOI:10.1177/00219983211060466
摘要

In this study, the impact behaviors of nano silica (SiO 2 nanoparticles), MWCNTs (multi-walled carbon nanotube), and SiO 2 +MWCNTs (nano silica vs multi-walled carbon nanotube hybrid) nanoparticle additives in basalt fiber reinforced composites exposed to seawater corrosion were investigated. The Mediterranean was chosen as the corrosive sea water due to its high salinity. Basalt fiber reinforced composites immersed in seawater have quick mass absorption during the first 30 days. However, it can also vary between the first 28 and 40 days depending on the structure of the composite and environmental conditions. Immersion times were determined as 0, 10, 20, and 40 days. Tensile and low velocity impact tests were performed to evaluate the mechanical performance after seawater corrosion. Low velocity impact tests were carried out at 10 and 20 J energy levels. The aim of this study was to examine the effects of corrosion caused by quick mass absorption on the tensile and impact behaviors of basalt fiber reinforced composites. And also to investigate the contribution of SiO 2 and MWCNT nanoparticle additives to the mass absorption mechanism and mechanical performance of basalt fiber reinforced composites. SiO 2 and MWCNT nanoparticle additives increased the tensile and impact strength of basalt fiber reinforced composites. However, the tensile and impact behaviors of nanoparticle filled and nanoparticles unfilled basalt fiber reinforced composites were adversely affected by the seawater corrosion environment. Due to the geometric structure of SiO 2 nanoparticles, the best mechanical performance was observed in SiO 2 filled basalt fiber reinforced composites.

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