3D printing of multi-metallic microstructures by meniscus-confined electrodeposition.

IF 0.6 3区艺术学 0 FILM, RADIO, TELEVISION

FILM QUARTERLY Pub Date : 2022-02-01 DOI:10.1063/5.0076677

Yutao Wang, Xin Xiong, Bing-Feng Ju, Yuan-Liu Chen

引用次数: 0

Abstract

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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通过月饼状封闭电沉积技术实现多金属微结构的三维打印。

我们研究了一种基于半月板约束电沉积（MCED）的多金属微尺度三维打印技术。通过对 MCED 中的 CuSO4/H2PtCl4 混合溶液施加不同的偏置电压，可以控制铜/铂合金的成分。我们发现，双管系统比单管系统具有更高的铜/铂合金纯度（最高100%铜或最高80%铂）。我们打印了Λ形微结构，以验证在单一打印工艺中打印多金属微结构的能力。

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

FILM QUARTERLY FILM, RADIO, TELEVISION-

CiteScore

0.40

自引率

40.00%

发文量

期刊介绍： Film Quarterly has been publishing substantial, peer-reviewed writing on motion pictures since 1958, earning a reputation as the most authoritative academic film journal in the United States. Its wide array of topics, perspectives, and approaches appeals to film scholars and film buffs alike. If you love all types of movies and are eager to encounter new ways of thinking about them, then Film Quarterly is the journal for you! Scholarly analyses of international cinemas, current blockbusters and Hollywood classics, documentaries, animation, and independent, avant-garde, and experimental film and video fill the pages of the journal.