This study aims to improve the electrical conductivity of aluminum wires by using carbon nanotubes (CNTs) as reinforcement. The research will investigate the possibility of carbon nanotubes as a conductive filler in aluminum-based composites, to enhance the overall conductivity of the wires. The study begins by looking into the properties and characteristics of carbon nanotubes, such as their electrical conductivity and mechanical strength. Following that, the behavior and performance of aluminum-carbon nanotube (Al-CNT) composites are investigated, with a focus on understanding the impacts of CNT integration on the material’s electrical conductivity. The Al-CNT composite production procedures are also investigated, including techniques for achieving uniform dispersion and strong bonding between the aluminum matrix and carbon nanotubes. A MATLAB program has been developed to simulate and generate data on the electrical conductivity of Al-CNT composite wires, allowing for further investigation and optimization. This research project’s findings contribute to the advancement of high-conductivity aluminum wires, potentially enabling considerable advancements in electrical transmission applications across a wide range of industries.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Effect of Carbon Nanotubes (CNTs) as a Reinforcement on Electrical Conductivity and Mechanical Strength of Aluminum-Carbon Nanotube Composite

  • Manu Satya Prakash Pathariya,
  • Himanshu Payal,
  • Pallav Gupta,
  • Vijay Chaudhary

摘要

This study aims to improve the electrical conductivity of aluminum wires by using carbon nanotubes (CNTs) as reinforcement. The research will investigate the possibility of carbon nanotubes as a conductive filler in aluminum-based composites, to enhance the overall conductivity of the wires. The study begins by looking into the properties and characteristics of carbon nanotubes, such as their electrical conductivity and mechanical strength. Following that, the behavior and performance of aluminum-carbon nanotube (Al-CNT) composites are investigated, with a focus on understanding the impacts of CNT integration on the material’s electrical conductivity. The Al-CNT composite production procedures are also investigated, including techniques for achieving uniform dispersion and strong bonding between the aluminum matrix and carbon nanotubes. A MATLAB program has been developed to simulate and generate data on the electrical conductivity of Al-CNT composite wires, allowing for further investigation and optimization. This research project’s findings contribute to the advancement of high-conductivity aluminum wires, potentially enabling considerable advancements in electrical transmission applications across a wide range of industries.