Izod impact performance of hybrid carbon nanotube-alumina filled epoxy nanocomposites

机译：杂交碳纳米管 - 氧化铝填充环氧纳米复合材料的Izod冲击性能

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In this paper, multi-walled carbon nanotube (CNT) was hybridized with alumina (Al2O3) particles via chemical vapour deposition using nickel as a metal catalyst. The purpose of hybridization between CNT and Al2O3 particles is to prevent the agglomeration of the CNT due to van der Walls forces as well as to improve the impact performance of the epoxy nanocomposites. The Al2O3 particles work as "transport" for the CNT to homogenously disperse within the epoxy matrix. As a comparative study, the CNT-Al2O3 was also prepared through a physical mixing method. The assessment showed that the CNT-Al2O3 hybrid filler produced more homogeneous dispersion in the epoxy matrix with a higher Izod impact strength than the physically mixed CNT-Al2O3 filler. The izod impact strength of epoxy nanocomposites at 5 % wt of CNT-Al2O3 hybrid has increased up to 32 % compared to the neat epoxy.

机译：在本文中，使用镍作为金属催化剂，通过化学气相沉积与氧化铝（Al 2 O 3）颗粒与氧化铝（Al 2 O 3）颗粒杂交的多壁碳纳米管（CNT）。 CNT和Al 2 O 3颗粒之间杂交的目的是防止由于范德壁的力以及改善环氧纳米复合材料的冲击性能，以防止CNT的凝聚。 Al 2 O 3颗粒作为CNT的“转运”作为均匀分散在环氧基质中的“转运”。作为对比研究，CNT-Al2O3还通过物理混合方法制备。评估表明，CNT-AL2O3杂交填料在环氧基质中产生更均匀的分散，具有比物理混合的CNT-AL2O3填料更高的伊佐德冲击强度。与整齐的环氧树脂相比，环氧纳米复合物在5％的CNT-Al 2 O 3杂交物中的硫化物纳米复合物的冲击强度增加至32％。

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《International Conference on Innovation in Polymer Science and Technology》|2017年|570 p.|共7页
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M R Zakaria; H Md. Akil; M H Abdul Kudus;
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中图分类工程材料学;
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1. Compressive properties and thermal stability of hybrid carbon nanotube-alumina filled epoxy nanocomposites [J] . Zakaria Muhammad Razlan, Akil Hazizan Md., Kudus Muhammad Helmi Abdul, Composites . 2016,第apra期

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4. Izod impact performance of hybrid carbon nanotube-alumina filled epoxy nanocomposites [C] . M R Zakaria, H Md. Akil, M H Abdul Kudus International Conference on Innovation in Polymer Science and Technology . 2017

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5. Hybrid carbon-glass fiber/toughened epoxy thick composites subject to drop-weight and ballistic impacts [D] . Sevkat, Ercan 2009

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Izod impact performance of hybrid carbon nanotube-alumina filled epoxy nanocomposites

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