Selective laser melting 3D printing using non-traditional laser beam: A review

LONG Yu; HUANG Wei; GUO Xing; ZHOU Guibing; DIAO Pengyuan

doi:10.16080/j.issn1671-833x.2022.01/02.034

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Selective laser melting 3D printing using non-traditional laser beam: A review

更新时间：2025-07-30

- Selective laser melting 3D printing using non-traditional laser beam: A review
- Aeronautical Manufacturing Technology Vol. 65, Issue 1/2, (2022)
- 作者机构：
  
  1. 广西大学,南宁,530004
  2. 大族激光科技产业集团有限公司,深圳,518103
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2022.01/02.034
  CLC：
- Published：2022
- 稿件说明：
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龙雨，黄玮，郭兴，周桂兵，刁鹏源. 非传统激光束激光选区熔化 3D 打印的研究现状及展望[J]. 航空制造技术, 2022, 65(1/2): 34-48. LONG Yu,HUANG Wei,GUO Xing,ZHOU Guibing,DIAO Pengyuan . Selective laser melting 3D printing using non-traditional laser beam: A review[J]. Aeronautical Manufacturing Technology, 2022, 65(1/2): 34-48.

LONG Yu, HUANG Wei, GUO Xing, et al. Selective laser melting 3D printing using non-traditional laser beam: A review[J]. Aeronautical Manufacturing Technology, 2022, 65(1/2).
龙雨，黄玮，郭兴，周桂兵，刁鹏源. 非传统激光束激光选区熔化 3D 打印的研究现状及展望[J]. 航空制造技术, 2022, 65(1/2): 34-48. LONG Yu,HUANG Wei,GUO Xing,ZHOU Guibing,DIAO Pengyuan . Selective laser melting 3D printing using non-traditional laser beam: A review[J]. Aeronautical Manufacturing Technology, 2022, 65(1/2): 34-48. DOI： 10.16080/j.issn1671-833x.2022.01/02.034.

LONG Yu, HUANG Wei, GUO Xing, et al. Selective laser melting 3D printing using non-traditional laser beam: A review[J]. Aeronautical Manufacturing Technology, 2022, 65(1/2). DOI： 10.16080/j.issn1671-833x.2022.01/02.034.

摘要

将非传统激光束激光选区熔化（SLM）作为调研对象，介绍了非传统激光束整形原理及其SLM设备情况，以椭圆高斯光、平顶光、反高斯光和细光斑为分类，总结了不同激光形状类型在生产过程中对制品热历史、微观组织和缺陷的影响。对集成光束整形器件和非传统激光SLM打印研究后发现，椭圆形高斯光打印由于改变了光束椭圆度可使制品在不同部位具有不同的受热情况，从而实现特定位置的微结构控制，提高等轴晶比例；平顶光打印因为均匀的能量分布使熔池在传导模式下加热，可以有效抑制裂纹和飞溅的产生，得到表面光洁的制品；反高斯光打印因为宽的工艺窗口，适合在高扫描速度和大激光功率下生产，可以最大限度提高SLM的生产效率；细光斑打印因为生产时大的温度梯度和细光束直径，可以细化晶粒，提高制品精度。最后，基于前述的分析讨论，对非传统激光束SLM的未来发展进行了展望。

Abstract

In this paper

the non-traditional laser beam of selective laser melting (SLM) is taken as the object of investigation

the principle of non-traditional laser beam shaping and its SLM equipment are introduced

the elliptical Gaussian laser beam

flat-top laser beam

inverse Gaussian laser beam and micro Gaussian laser beam are classified. Besides

the effects of different laser shape types on the thermal history

microstructure and defects of the products during SLM process are summarized. The study of integrated beam shaping devices and non-traditional laser beam SLM printing reveals that elliptical Gaussian laser beam printing allows for convenient microstructure control and improved equiaxed crystal ratios because of the change of beam ellipticity

which gives the product different heat profiles in different parts. Flat-top laser beam

because of uniform energy distribution

enables the particles melted in conduction mode

which can effectively suppress the generation of cracks and spatters and obtain products with sound surface. Inverse Gaussian laser beam

because of the wide process window

is suitable for production at high scan speeds and high laser power

which can maximize the productivity of SLM. Micro Gaussian laser beam can refine the grain and improve the accuracy of the product because of the large temperature gradient and fine beam diameter during SLM. Finally

this paper provides an outlook on the future development of non-traditional laser beams’ SLM based on the aforementioned analysis and discussion.

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