A preliminary study into the effect of oxide chemistry on the bonding mechanism of cold-sprayed titanium dioxide coatings on SUS316 stainless steel substrate

IF 2.9 Q2 ELECTROCHEMISTRY
N. Omar, Suhana Mohamed, Y. Yusuf, Toibah Abdul Rahim, Z. Mustafa, S. Ismail, I. Abu Bakar, Santirraprahkash Selvamani
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引用次数: 2

Abstract

Current attention has focused on the preparation of thick ceramic coating of nano­structured materials as feedstock material using the thermal spray process. The cold spray method has appeared as a promising process to form ceramic nanostructured coating without significantly changing the microstructure of the initial feedstock materials due to its low processing temperature. However, deposition of ceramic powders by cold spray is not easy due to the brittle characteristics of the material. In this study, TiO2 coatings were deposited on unannealed stainless steel substrates and substrates that were annealed from room temperature to 700 °C prior to spraying. The adhesion strength was evaluated to investigate the bonding mechanism. The influence of the remaining surface oxide layer of chromium oxide, Cr2O3, which is thermodynamically preferred for stainless steel, on the bonding mechanism involved was investigated. The results showed that by increasing the annealing substrate temperature of stainless steel, the adhesion strength of the coatings (thicker oxide) is also increased. As a result, the bonding between the cold-sprayed TiO2 particle and the steel substrate is given by the chemical bonding of an inter-oxide reaction.  
初步研究了氧化物化学对SUS316不锈钢基体冷喷涂二氧化钛涂层结合机理的影响
目前的研究重点是利用热喷涂工艺制备纳米结构材料的厚陶瓷涂层。冷喷涂法由于其加工温度低,在不显著改变初始原料微观结构的情况下,成为一种很有前途的制备陶瓷纳米结构涂层的方法。然而,由于材料的脆性,采用冷喷涂方法沉积陶瓷粉末并不容易。在本研究中,将TiO2涂层沉积在未退火的不锈钢基片和喷涂前从室温退火到700℃的基片上。通过对粘接强度的评价来探讨粘接机理。研究了不锈钢的首选氧化铬(Cr2O3)表面残余氧化层对键合机理的影响。结果表明,随着不锈钢退火温度的升高,涂层的结合强度(氧化层厚度)也有所提高。因此,冷喷涂后的TiO2颗粒与钢基体之间的结合是通过氧化间反应的化学键合实现的。
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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来源期刊
CiteScore
3.60
自引率
27.30%
发文量
90
审稿时长
6 weeks
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