基于LTCC的3D打印陶瓷结构:材料，工艺和表征

2017 21st European Microelectronics and Packaging Conference (EMPC) & Exhibition Pub Date : 2017-09-01 DOI:10.23919/EMPC.2017.8346861

A. Schulz, T. Welker, N. Gutzeit, Jens Müller, O. Goudouri, Dieter Nikolay, Niklas Kemmling, W. Kollenberg

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引用次数: 4

摘要

LTCC材料的3D多材料(3Dmm)打印结合基于粉末床结构的功能性金属油墨是一种新的创新技术，可以制造电子元件和即将推出的电路，在小批量中具有成本效益，提供快速原型制作能力，并且与其他常见技术相比，在设计过程中具有更少的几何限制。陶瓷粉末混合物、粘结剂和功能油墨的新材料组合开发成功，并在实验性3D打印机上使用。3D打印陶瓷化合物和功能油墨的表征表现出足够的物理和电学性能。此外，材料粉末成分有助于与SMT(表面贴装技术)和应用丝网印刷步骤的普通包装技术的兼容性，从而增强3D打印电子设备的附加功能。

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3D printed ceramic structures based on LTCC: Materials, processes and characterizations

3D Multi Material (3Dmm) printing of LTCC materials in combination with functional metallic inks based on powder bed structuring is a new and innovative technology which enables the fabrication of electronic components and upcoming circuits, cost efficiently in small series, offer rapid prototyping capabilities as well as will feature less geometrical restrictions during design process compared to other common technologies soon. Recent material compositions of the ceramic powder mixture, binder and functional ink were developed and utilized successfully using an experimental 3D printer. Characterizations of 3D printed ceramic compounds and functional inks exhibit adequate physical and electrical properties. Furthermore, the material powder composition facilitates compatibility to SMT (surface mounting technology) and to common packaging technologies applying a screen printing step which enhance additional functionality of 3D printed electronic devices.

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2017 21st European Microelectronics and Packaging Conference (EMPC) & Exhibition

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