[Poster Presentation]Enhancing aesthetics, hardness and corrosion resistance of aluminum alloy via deposition of Al/Si/AlN coatings

Enhancing aesthetics, hardness and corrosion resistance of aluminum alloy via deposition of Al/Si/AlN coatings
ID:104 Submission ID:50 View Protection:ATTENDEE Updated Time:2024-10-15 01:05:25 Hits:301 Poster Presentation

Start Time:2024-10-19 09:20 (Asia/Shanghai)

Duration:20min

Session:[P0] Poster » [P0] Poster

Presentation File

Tips: The file permissions under this presentation are only for participants. You have not logged in yet and cannot view it temporarily.

Abstract
To address the low hardness, weak corrosion resistance and color homogeneity of Al alloys for mobile phone application, reactive magnetron sputtering was employed to deposit Al/Si/AlN coatings on the Al alloy substrate. The morphology, chemical composition, structure, optical properties, hardness and corrosion resistance of the as-deposited coatings were characterized using FESEM, XPS, GIXRD, colorimeter, spectrophotometer, nanoindentation, and electrochemical corrosion meter, respectively. The results show that the AlN layer is of a hexagonal crystal structure with the preferential orientation of (002). The stoichiometric formula is Al0.7N. The absence of substrate bias results in the porous surface of the coating. The Al alloy could display red, yellow, green, cyan, blue, and purple colors, as the AlN layer thickness is 283, 267, 243, 218, 202, and 184 nm, respectively. With the Al/Si/AlN coating, the hardness of the Al alloy reaches 12.0 GPa, about 7 times harder than the Al alloy; and the corrosion current density reduces to 2.09×10−8A/cm2, which is two orders of magnitude smaller than the Al alloy. The role of Si interlayer in developing the structural color by thin-film interference is studied systematically. The reasons for the enhanced hardness and corrosion resistance is discussed in details.  
 
Keywords
Aluminum alloy; AlN; Structural color, Hardness; Corrosion resistance
Speaker
Fengji Li
Associate Professor Southwest University, China

Submission Author
Fengji Li School of Materials and Energy, Southwest University
Comment submit
Verification code Change another
All comments
Mr. Duan Jindi,       Tel. 13971036507  

Mr. Jiang Chao,        Tel. 18971299299

E-mail:icse2024@126.com
Dr. Liu Mingming,  Tel. 19862516876

E-mail:mmliu@sdut.edu.cn

Dr. Zhu Jian,         Tel. 15810878528 E-mail: zhujian@sdut.edu.cn
Dr. Zhang Xiuli,     Tel. 15064351998

E-mail: zhangxiulli@163.com

Prof. Guo Qianjian,   Tel. 13969397001

Registration Submission