用于光学应用的3D网格的激光增材制造。

Laser additive manufacturing of 3D meshes for optical applications.

作者信息

Essa Khamis, Sabouri Aydin, Butt Haider, Basuny Fawzia Hamed, Ghazy Mootaz, El-Sayed Mahmoud Ahmed

机构信息

School of Mechanical Engineering, University of Birmingham, Birmingham, United Kingdom.

Indstry Service Complex, Arab Academy for Science and Technology and Maritime Transport, Abu Qir, Alexandria, Egypt.

出版信息

PLoS One. 2018 Feb 7;13(2):e0192389. doi: 10.1371/journal.pone.0192389. eCollection 2018.

DOI:10.1371/journal.pone.0192389

PMID:29414982

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5802919/

Abstract

Selective laser melting (SLM) is a widely used additive manufacturing process that can be used for printing of intricate three dimensional (3D) metallic structures. Here we demonstrate the fabrication of titanium alloy Ti-6Al-4V alloy based 3D meshes with nodally-connected diamond like unit cells, with lattice spacing varying from 400 to 1000 microns. A Concept Laser M2 system equipped with laser that has a wavelength of 1075 nm, a constant beam spot size of 50μm and maximum power of 400W was used to manufacture the 3D meshes. These meshes act as optical shutters / directional transmitters and display interesting optical properties. A detailed optical characterisation was carried out and it was found that these structures can be optimised to act as scalable rotational shutters with high efficiencies and as angle selective transmission screens for protection against unwanted and dangerous radiations. The efficiency of fabricated lattice structures can be increased by enlarging the meshing size.

摘要

选择性激光熔化（SLM）是一种广泛应用的增材制造工艺，可用于打印复杂的三维（3D）金属结构。在此，我们展示了基于钛合金Ti-6Al-4V合金的3D网格的制造，其具有节点连接的类金刚石单元，晶格间距从400微米到1000微米不等。使用配备波长为1075nm、恒定光斑尺寸为50μm且最大功率为400W的激光器的Concept Laser M2系统来制造3D网格。这些网格充当光学快门/定向发射器，并显示出有趣的光学特性。进行了详细的光学表征，发现这些结构可以优化为高效的可扩展旋转快门以及用于防止有害和危险辐射的角度选择性透射屏。通过增大网格尺寸可以提高制造的晶格结构的效率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/62e1/5802919/b0faaf98d421/pone.0192389.g001.jpg

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用于光学应用的3D网格的激光增材制造。

Laser additive manufacturing of 3D meshes for optical applications.

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