摘要
对含Er量为0%、0.2%、0.4%的7075铝合金在相同工艺下进行微弧氧化,利用X射线衍射(XRD)、扫描电子显微镜(SEM)分别研究了微弧氧化膜层的相组成和表面形貌,同时也研究了氧化层的显微硬度、厚度及耐蚀性。结果表明,不同Er含量的7075铝合金微弧氧化层都由γ-Al2O3相构成,且随含Er量增加,γ-Al2O3相峰值增加,Er在微弧氧化过程中形成了Al17Er2相进入膜层;随含Er量的增加,氧化膜表面平整度先增加后下降,当Er含量为0.2%时,表面堆积物细小均匀、孔隙直径小,粗糙度最低;含Er量由0%增加到0.4%,显微硬度及厚度也随之增加,耐蚀性明显增加,自腐蚀电流密度由4.280×10^-6A/cm^2降至2.405×10^-9A/cm^2。
The 7075 aluminum alloys with 0%,0.2%and 0.4%Er were subjected to micro-arc oxidation under the same parameters.The surface morphology and the phases of the oxide coating were analyzed using SEM and XRD respectively.The micro-hardness,thickness and corrosion resistance of the oxide coating were also studied simultaneously.The results show that the micro-arc oxidation coating of 7075 aluminum alloy with different Er contents is composed of gamma-Al2O3 phase.With the increase of Er content,the peak of γ-Al2O3 phase is enhanced.Er enters the oxide coating with the form of Al17 Er2,which is an unbalanced phase after micro-arc action.With the increase of Er content,the surface roughness of oxide coating decreases firstly and then increases.When Er content is 0.2%,the surface deposit is fine and uniform,the diameter of pore is small,and the roughness is the lowest.As the Er content increases from 0%to 0.4%,the micro-hardness and thickness of the oxide coating also increases,and then the corrosion resistance increases significantly.Consequently,the self-corrosion current density decreases from 4.280×10^-6 A/cm^2 to 2.405×10^-9 A/cm^2.
作者
张先菊
王宪琦
邓为豪
何佳静
ZHANG Xianju;WANG Xianqi;DENG Weihao;HE Jiajing(School of Materials Science and Engineering,Southwest Petroleum University,Chengdu 610500,China)
出处
《有色金属工程》
CAS
北大核心
2020年第5期12-16,共5页
Nonferrous Metals Engineering
基金
四川省高等学校油气田材料重点实验室项目(X151518KCL11)。
关键词
ER
7075铝合金
微弧氧化
硬度
耐蚀性
Er
7075 aluminum alloy
micro-arc oxidation
hardness
corrosion resistance