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飞秒激光加工钛表面多尺度丘状结构的生长机制

Growth mechanisms of multiscale, mound-like surface structures on titanium by femtosecond laser processing.

作者信息

Peng Edwin, Bell Ryan, Zuhlke Craig A, Wang Meiyu, Alexander Dennis R, Gogos George, Shield Jeffrey E

机构信息

Department of Mechanical and Materials Engineering, University of Nebraska-Lincoln, Lincoln, Nebraska 68588, USA.

Department of Electrical and Computer Engineering, University of Nebraska-Lincoln, Lincoln, Nebraska 68588, USA.

出版信息

J Appl Phys. 2017;122(13). doi: 10.1063/1.4990709. Epub 2017 Oct 4.

DOI:10.1063/1.4990709
PMID:30410187
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6218944/
Abstract

Femtosecond laser surface processing (FLSP) can be used to functionalize many surfaces, imparting specialized properties such as increased broadband optical absorption or super-hydrophobicity/-hydrophilicity. In this study, the subsurface microstructure of a series of mound-like FLSP structures formed on commercially pure titanium using five combinations of laser fluence and cumulative pulse counts was studied. Using a dual beam Scanning Electron Microscope with a Focused Ion Beam, the subsurface microstructure for each FLSP structure type was revealed by cross-sectioning. The microstructure of the mounds formed using the lowest fluence value consists of the original Ti grains. This is evidence that preferential laser ablation is the primary formation mechanism. However, the underlying microstructure of mounds produced using higher fluence values was composed of a distinct smaller-grained -Ti region adjacent to the original larger Ti grains remaining deeper beneath the surface. This layer was attributed to resolidification of molten Ti from the hydrodynamic Marangoni effect driven fluid flow of molten Ti, which is the result of the femtosecond pulse interaction with the material.

摘要

飞秒激光表面处理(FLSP)可用于使许多表面功能化,赋予其诸如增加宽带光吸收或超疏水/超亲水性等特殊性能。在本研究中,研究了使用五种激光能量密度和累积脉冲数组合在商业纯钛上形成的一系列丘状FLSP结构的亚表面微观结构。使用配备聚焦离子束的双束扫描电子显微镜,通过切片揭示了每种FLSP结构类型的亚表面微观结构。使用最低能量密度值形成的丘的微观结构由原始钛晶粒组成。这证明优先激光烧蚀是主要形成机制。然而,使用较高能量密度值产生的丘的底层微观结构由与表面下方更深处残留的原始较大钛晶粒相邻的明显较小晶粒的β-Ti区域组成。该层归因于由飞秒脉冲与材料相互作用导致的流体动力学马兰戈尼效应驱动的熔融钛流体流动使熔融钛再凝固。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6793/6218944/b18080265d75/nihms-993727-f0001.jpg

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Ripple formation on nickel irradiated with radially polarized femtosecond beams.用径向偏振飞秒光束辐照镍时产生的波纹形成。
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