Frugal Imaging Technique of Capillary Flow through Three-Dimensional Polymeric Printing Powders

纳米技术 微流控 材料科学 3D打印 介观物理学 协议(科学) 计算机科学 量子力学 医学 物理 病理 复合材料 替代医学
作者
Katrina Donovan,J. Stasiak,Şebnem Özbek,Willie E. Rochefort,T. W. Walker
出处
期刊:Journal of Visualized Experiments [MyJoVE Corporation]
卷期号: (188)
标识
DOI:10.3791/63494
摘要

The development of novel imaging techniques of molecular and colloidal transport, including nanoparticles, is an area of active investigation in microfluidic and millifluidic studies. With the advent of three-dimensional (3D) printing, a new domain of materials has emerged, thereby increasing the demand for novel polymers. Specifically, polymeric powders, with average particle sizes on the order of a micron, are experiencing a growing interest from academic and industrial communities. Controlling material tunability at the mesoscopic to microscopic length scales creates opportunities to develop innovative materials, such as gradient materials. Recently, a need for micron-sized polymeric powders has been growing, as clear applications for the material are developing. Three-dimensional printing provides a high-throughput process with a direct link to new applications, driving investigations into the physio-chemical and transport interactions on a mesoscale. The protocol that is discussed in this article provides a non-invasive technique to image fluid flow in packed powder beds, providing high temporal and spatial resolution while leveraging mobile technology that is readily available from mobile devices, such as smartphones. By utilizing a common mobile device, the imaging costs that would normally be associated with an optical microscope are eliminated, resulting in a frugal-science approach. The proposed protocol has successfully characterized a variety of combinations of fluids and powders, creating a diagnostic platform for quickly imaging and identifying an optimal combination of fluid and powder.

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