Modification of a desktop FFF printer via NIR laser addition for upconversion 3D printing

IF 2 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Adilet Zhakeyev , Rohith Devanathan , Jose Marques-Hueso
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引用次数: 0

Abstract

Traditional photopolymer-based 3D printing methods require sequential printing of thin layers, due to short penetration depths of UV or blue light sources used by these techniques. In contrast, upconversion 3D printing circumvents the layer-by-layer limitation by taking advantage of upconversion luminescence processes and the high penetration depths offered by near-infrared (NIR) lasers, allowing for selective crosslinking of voxels at any depth or position within the resin container. The implementation of this technique required the construction of a 3D printer with the ability of focusing the laser on any point of the space. For this, a low-cost fused filament fabrication (FFF) printer was modified by incorporating a 980 nm laser and laser control circuit. The total cost of the parts required for modification was £180. With enhanced penetration depths up to 5.8 cm, this method also allows for printing inside or through existing 3D printed parts. This opens doors for restoration of broken items, in situ bioprinting, 3D-circuitry, and notably, 3D printing inside cavities of a different material, illustrating numerous opportunities for practical applications.

Abstract Image

通过添加近红外激光器改装台式 FFF 打印机,用于上转换 3D 打印
传统的基于光聚合物的三维打印方法需要连续打印薄层,这是因为这些技术使用的紫外线或蓝光光源穿透深度较短。相比之下,上转换三维打印技术利用上转换发光过程和近红外激光器提供的高穿透深度,规避了逐层打印的限制,可以在树脂容器内的任何深度或位置选择性地交联体素。要实现这一技术,需要制造一台能够将激光聚焦到空间任意点的三维打印机。为此,我们改装了一台低成本的熔丝制造(FFF)打印机,并在其中安装了 980 纳米激光器和激光控制电路。改装所需部件的总成本为 180 英镑。这种方法的穿透深度最高可达 5.8 厘米,还可以在现有 3D 打印部件内部或穿过现有部件进行打印。这为修复破损物品、原位生物打印、三维电路,尤其是在不同材料的空腔内进行三维打印打开了大门,为实际应用提供了大量机会。
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来源期刊
HardwareX
HardwareX Engineering-Industrial and Manufacturing Engineering
CiteScore
4.10
自引率
18.20%
发文量
124
审稿时长
24 weeks
期刊介绍: HardwareX is an open access journal established to promote free and open source designing, building and customizing of scientific infrastructure (hardware). HardwareX aims to recognize researchers for the time and effort in developing scientific infrastructure while providing end-users with sufficient information to replicate and validate the advances presented. HardwareX is open to input from all scientific, technological and medical disciplines. Scientific infrastructure will be interpreted in the broadest sense. Including hardware modifications to existing infrastructure, sensors and tools that perform measurements and other functions outside of the traditional lab setting (such as wearables, air/water quality sensors, and low cost alternatives to existing tools), and the creation of wholly new tools for either standard or novel laboratory tasks. Authors are encouraged to submit hardware developments that address all aspects of science, not only the final measurement, for example, enhancements in sample preparation and handling, user safety, and quality control. The use of distributed digital manufacturing strategies (e.g. 3-D printing) is encouraged. All designs must be submitted under an open hardware license.
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