微观结构
材料科学
微尺度化学
弯月面
合金
木桶(钟表)
金属
3D打印
复合材料
冶金
光学
数学
入射(几何)
物理
数学教育
作者
Yutao Wang,Xin Xiong,Bing‐Feng Ju,Yuan-Liu Chen
摘要
We studied a multi-metallic microscale 3D printing based on the meniscus-confined electrodeposition (MCED). The composition of Cu/Pt alloys can be controlled by applying different bias voltages to the CuSO4/H2PtCl4 mixed solution in MCED. We find that a double-barrel system had higher Cu/Pt alloy purity (maximum 100% Cu or maximum 80% Pt) than a single-barrel system. A Λ-shaped microstructure was printed to verify the capability to multi-metal microstructures in a single printing process.
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