Complex light in 3D printing

SPIE OPTO Pub Date : 2016-03-16 DOI:10.1117/12.2209603

C. Moser, P. Delrot, D. Loterie, Edgar E. Morales Delgado, M. Modestino, D. Psaltis

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Abstract

3D printing as a tool to generate complicated shapes from CAD files, on demand, with different materials from plastics to metals, is shortening product development cycles, enabling new design possibilities and can provide a mean to manufacture small volumes cost effectively. There are many technologies for 3D printing and the majority uses light in the process. In one process (Multi-jet modeling, polyjet, printoptical©), a printhead prints layers of ultra-violet curable liquid plastic. Here, each nozzle deposits the material, which is then flooded by a UV curing lamp to harden it. In another process (Stereolithography), a focused UV laser beam provides both the spatial localization and the photo-hardening of the resin. Similarly, laser sintering works with metal powders by locally melting the material point by point and layer by layer. When the laser delivers ultra-fast focused pulses, nonlinear effects polymerize the material with high spatial resolution. In these processes, light is either focused in one spot and the part is made by scanning it or the light is expanded and covers a wide area for photopolymerization. Hence a fairly “simple” light field is used in both cases. Here, we give examples of how “complex light” brings additional level of complexity in 3D printing.

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3D打印中的复杂光

3D打印作为一种工具，可以根据需要使用从塑料到金属的不同材料从CAD文件生成复杂的形状，缩短了产品开发周期，实现了新的设计可能性，并且可以提供一种低成本生产小批量产品的方法。3D打印有许多技术，其中大多数在打印过程中使用光。在一个工艺(Multi-jet modeling, polyjet, printoptical©)中，打印头打印出紫外线固化的液体塑料层。在这里，每个喷嘴沉积材料，然后用紫外线固化灯照射使其硬化。在另一种工艺(立体光刻)中，聚焦的紫外激光束提供了空间定位和树脂的光硬化。同样，激光烧结对金属粉末的作用是一点一点、一层一层地局部熔化材料。当激光输出超快聚焦脉冲时，非线性效应使材料聚合，具有高空间分辨率。在这些过程中，光要么聚焦在一个点上，然后通过扫描它来制造零件，要么将光扩展并覆盖广泛的区域进行光聚合。因此，在这两种情况下都使用了相当“简单”的光场。在这里，我们举例说明“复杂的光”如何在3D打印中带来额外的复杂性。

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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