RApid prototyping of 3D microstructures by direct printing of liquid metal at temperatures up to 500°C using the starjet technology

机译：通过使用星喷技术在高达500°C的温度下直接印刷液态金属来快速进行3D微观结构的原型制作

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We present a novel approach for 3D-prototyping of porous metal structures by direct non-contact liquid metal printing, based on the StarJet technology [1]. In contrast to our previous work, the presented droplet generator features an improved nozzle chip design and actuator housing that allows operation at temperatures up to Tmax = 500°C (formerly Tmax = 250°C). This enables the ejection of single droplets of metals with higher melting points like for example magnesium or zinc alloys like ZAMAK. The droplet generation frequency could be increased by a factor of 10 to fmax = 4 kHz. Furthermore, deviations of the droplet trajectory from the symmetry axis of the nozzle are reduced to Δdeg = 0.28° by the new design. This paper reports on experimental results obtained with the improved device and presents 3D metal structures with various porosities.

机译：我们基于StarJet技术[1]，提出了一种通过直接非接触液态金属印刷对多孔金属结构进行3D原型制作的新颖方法。与我们之前的工作相反，本发明的液滴发生器具有改进的喷嘴芯片设计和执行器壳体，可在最高T max = 500°C（以前为T max = 250°C）。这使得能够喷射具有较高熔点的金属的单个液滴，例如诸如ZAMAK的镁或锌合金。液滴的产生频率可以增加10倍，达到f max = 4 kHz。此外，通过新设计，液滴轨迹与喷嘴对称轴的偏差减小到Δdeg= 0.28°。本文报告了使用改进型设备获得的实验结果，并提出了具有不同孔隙率的3D金属结构。

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《The 16th International Conference on olid-State Sensors, Actuators and Microsystems》|2011年|p.1452-1455|共4页
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Lass N.; Tropmann A.; Ernst A.; Zengerle R.; Koltay P.;
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中图分类 TB907;
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Liquid metal; StarJet; contactless printing; high melting; micro droplets; porous metal structures; rapid prototyping; solder printing;

机译：液态金属; StarJet;非接触印刷;高熔点;微滴;多孔金属结构;快速成型;焊料印刷;

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专利

1. Pneumatic dispensing of nano- to picoliter droplets of liquid metal with the StarJet method for rapid prototyping of metal microstructures [J] . A. Tropmann, N. Lass, N. Paust, Microfluidics and nanofluidics . 2012,第1a4期

机译：使用StarJet方法对纳米级至皮升级液态金属液滴进行气动分配，以快速成型金属微结构
2. “Additive Manufacturing Technologies: 3D Printing, Rapid Prototyping, and Direct Digital Manufacturing”, 2nd Edition [J] . Jonathan Edgar*, Saxon Tint Johnson Matthey Technology Review . 2015,第3期

机译：“增材制造技术：3D打印，快速原型制作和直接数字制造”，第二版
3. Direct metal printing of 3D electrical circuit using rapid prototyping [J] . Min-Saeng Kim, Won-Shik Chu, Yun-Mi Kim, International Journal of Precision Engineering and Manufacturing . 2009,第5期

机译：使用快速原型制作3D电路的直接金属印刷
4. RAPID PROTOTYPING OF 3D MICROSTRUCTURES BY DIRECT PRINTING OF LIQUIDMETAL AT TEMPERATURES UP TO 500°C USING THE STARJET TECHNOLOGY [C] . N. Lass, A. Tropmann, A. Emst, International Conference on Solid-State Sensors, Actuators and Microsystems . 2011

机译：使用STARJET技术直接在高达500°C的温度下直接印刷3D微观结构的快速原型
5. Additive Patterning of Gallium-based Liquid Metal Alloys at Room Temperature for Rapid Prototyping of Multilayered Microfluidics and 3D Printed Soft Electronics [D] . Parekh, Dishit Paresh 2018

机译：镓基液态金属合金在室温下的添加图案，用于多层微流控和3D打印软电子产品的快速原型制作
6. Analysis of FDM and DLP 3D-Printing Technologies to Prototype Electromagnetic Devices for RFID Applications [O] . Riccardo Colella, Francesco Paolo Chietera, Luca Catarinucci 2021

机译：FDM和DLP 3D打印技术对RFID应用原型电磁装置的分析
7. Status and Direction of Development on the 3D Printing Technology for BRP(Building Rapid Printing) [O] . Dong-Hyun Kim, Jae-Hong Lee 2015

机译：BRP的3D打印技术的发展现状和发展方向（建筑快速打印）
8. Aluminum/Magnesium 3D-Printing Rapid Prototyping. [R] . Jandeska, W. F., Hetzner, J. E. 2004

机译：铝/镁3D打印快速成型。

RApid prototyping of 3D microstructures by direct printing of liquid metal at temperatures up to 500°C using the starjet technology

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