斜壁无支撑结构激光熔丝增材制造的驼峰形成机理

陈贤达; 母中彦; 罗曼乐兰; 黄安国

doi:10.7512/j.issn.1001-2303.2021.12.05

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斜壁无支撑结构激光熔丝增材制造的驼峰形成机理
Hump formation mechanism of laser wire deposition 3D printing on 316L stainless steel for inclined wall unsupported structure
2021年51卷第12期页码：23-27
DOI： 10.7512/j.issn.1001-2303.2021.12.05

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陈贤达, 母中彦, 罗曼乐兰, 等. 斜壁无支撑结构激光熔丝增材制造的驼峰形成机理[J]. 电焊机, 2021,51(12):23-27.

CHEN Xianda, MU Zhongyan, LUO Manlelan, et al. Hump formation mechanism of laser wire deposition 3D printing on 316L stainless steel for inclined wall unsupported structure[J]. 2021,51(12):23-27.
陈贤达, 母中彦, 罗曼乐兰, 等. 斜壁无支撑结构激光熔丝增材制造的驼峰形成机理[J]. 电焊机, 2021,51(12):23-27. DOI： 10.7512/j.issn.1001-2303.2021.12.05.

CHEN Xianda, MU Zhongyan, LUO Manlelan, et al. Hump formation mechanism of laser wire deposition 3D printing on 316L stainless steel for inclined wall unsupported structure[J]. 2021,51(12):23-27. DOI： 10.7512/j.issn.1001-2303.2021.12.05.

摘要

以316L不锈钢为实验丝材,采用高速摄像研究了斜壁无支撑结构激光熔丝增材制造的驼峰缺陷形成规律。结果表明:即使丝材最初能够以液桥过渡的方式在基板上进行沉积,但在进行到多层堆积的过程中仍容易产生驼峰缺陷;在文中工艺实验条件下所产生的驼峰缺陷大小为4～9 mm,其形成周期约为430 ms;在倾斜条件下,熔池内由于液体重力所导致的流淌效应增强,液体在表面张力的剪切作用下形成驼峰。

Abstract

Using high-speed camera, experimentally studied the formation mechanism of hump defects of laser wire deposition 3D printing on 316L stainless steel for inclined wall unsupported structure. The results show that although the wire is deposited on the substrate in the manner of liquid bridge transition, it is still prone to hump defects when stacked in multiple layers; the size of the hump defects is about 4～9 mm,and the formation period is about 430 ms; under inclined conditions, the flow effect caused by the gravity of the liquid in the weld pool is enhanced, and the shear action of the liquid on the surface tension forms the hump.

关键词

激光熔丝增材熔池流动驼峰缺陷斜壁无支撑结构多层堆积

Keywords

laser additive manufacturingweld pool flowhump defectinclined wall unsupported structuremultilayer deposition

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