Study on the effect of milling parameters on HE-MA nanostructured Al-Graphene cermet particles

Proceedings of 1st Coatings and Interfaces Web Conference Pub Date : 2019-03-14 DOI:10.3390/CIWC2019-06160

J. Sripada, Megil F. Gallant, G. Saha

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引用次数: 4

Abstract

Nanocrystalline grains have proven to be excellent reinforcing elements in nanostructured particulate materials. On the other hand, carbon allotropes, especially graphene and carbon nanotube (CNT), exhibit elastic modulus in the range of 1 TPa (theoretical) and tensile strength in multiple orders greater than that of steel. This study aims at synthesizing high-strength nanostructured ceramic-metallic (cermet) particle feedstock in a high-energy mechanical alloying (HE-MA) process based on an Al-graphene composite comprehensive design-of-experiments (DoE). The goal is to optimize milling process parameters, including milling time, batch composition, ball-to-power (BPR) ratio, and milling agent, for the particles to be eventually fed into a high-pressure cold spray coatings development. The milled powders are characterized using SEM, EDS, XRD, and laser particle diffractometer to study the morphology and microstructure, elemental composition, grain size and crystal orientation, and particle size distribution (PSD), respectively. Results show it was possible to attain required structure and PSD at a 10:1 BPR with 5-mm diameter ball, at 1200 rpm, and 4 h of milling.

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铣削参数对HE-MA纳米结构al -石墨烯陶瓷颗粒影响的研究

纳米晶颗粒已被证明是纳米结构颗粒材料中优良的增强元素。另一方面，碳同素异形体，特别是石墨烯和碳纳米管(CNT)，其弹性模量在1 TPa(理论)范围内，抗拉强度比钢高出多个数量级。本研究旨在以al -石墨烯复合材料综合实验设计(DoE)为基础，在高能机械合金化(HE-MA)工艺中合成高强度纳米结构陶瓷-金属(cermet)颗粒原料。目标是优化铣削工艺参数，包括铣削时间、批次组成、球功率比(BPR)和铣削剂，以便最终将颗粒送入高压冷喷涂涂层开发。采用SEM、EDS、XRD和激光颗粒衍射仪对粉体进行表征，分别研究了粉体的形貌和微观结构、元素组成、晶粒尺寸和晶体取向以及粒径分布(PSD)。结果表明，当球直径为5mm，转速为1200 rpm，铣削时间为4小时，BPR为10:1时，可以获得所需的结构和PSD。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 1st Coatings and Interfaces Web Conference

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