Dual-beam laser-matter interaction at overlap region during multi-laser powder bed fusion manufacturing
Jie Yin,Dengzhi Wang,Huiliang Wei,Liangliang Yang,Linda Ke,Mingyong Hu,Wei Xiong,Guoqing Wang,Haihong Zhu,Xiaoyan Zeng +9 more
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In this paper, a high-speed, high-resolution imaging technology and multi-laser powder bed fusion (ML-PBF) equipment was used to investigate the dual-beam laser-matter interaction at the overlap region.Abstract:
To meet the urgent demand of large-scale parts fabrication in aerospace and energy fields, laser powder bed fusion (LPBF) additive manufacturing is developing towards multi-laser powder bed fusion (ML-PBF). However, defects such as the surface quality degradation and lack of fusion are more prone to appear at the overlap region of the deposit printed by multiple laser beams, which is detrimental to the consistency and uniformity of parts formed using ML-PBF. Here, based on a high-speed, high-resolution imaging technology and our ML-PBF equipment, the dual-beam laser-matter interaction at the overlap region in ML-PBF was investigated. At the overlap region, the collision and interaction between two molten pools influences the flow pattern of the liquid metal, accompanied by the large-sized droplet spatter expelling out. Moreover, the collision and accumulation of the liquid metal and spatter are responsible for the formation of the surface and internal structure defects of overlap samples. Furthermore, we reveal multiple transitions of the dominant mechanisms of the spatter formation in ML-PBF, which can be interchanged from the vapor-induced recoil pressure dominant stage to the vapor-induced entrainment dominant stage. We also propose the growth rate of spatter number rs, which can be well correlated with the transient transition of spatter formation mechanism. This work is expected to provide the scientific basis for ML-PBF to achieve consistency and uniformity.read more
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A Review of Spatter in Laser Powder Bed Fusion Additive Manufacturing: In Situ Detection, Generation, Effects, and Countermeasures
Zheng Li,Hao Li,Jie Yin,Yan Li,Zheng Nie,Xiangyou Li,Deyong You,Kai Guan,Wei Duan,Long-han Cao,Dengzhi Wang,Linda Ke,Yang Liu,Ping Zhao,Lin Wang,Kunpeng Zhu,Zheng Rong Zhang,Liang Gao,Liang Hao +18 more
TL;DR: In this article , a review of the literature on in situ detection, generation, effects, and countermeasures of spatter in laser powder bed fusion (L-PBF) additive manufacturing is presented.
Journal ArticleDOI
Laser powder bed fusion additive manufacturing (LPBF-AM): the influence of design features and LPBF variables on surface topography and effect on fatigue properties
Joe Elambasseril,Jason W. Rogers,Christopher Duncan Wallbrink,David Munk,Martin Leary,Ma Qian +5 more
TL;DR: Using laser powder bed fusion (LPBF) of Ti-6Al-4V as a model additive manufacturing (AM) alloy system, the authors examines the characteristics of various types of LPBF surfaces including horizontal, vertical, inclined, upward, downward, internal isolated, and slotted surfaces, and the design features and LPBF variables that affect the surface topography.
Journal ArticleDOI
Particle-scale computational fluid dynamics simulation on selective parallel dual-laser melting of nickel-based superalloy
TL;DR: In this paper, a 3D high-fidelity particle-scale CFD modeling of a selective parallel dual-laser melting (SPDLM) process is developed, on which dynamics behavior of molten pools of Nickel-based superalloy during SPDLM is simulated.
Journal ArticleDOI
Microstructure evolution and magnetic shielding effect of permalloy deposition on molybdenum substrate by electron beam freeform fabrication
TL;DR: In this paper , 1J85 permalloy was deposited on molybdenum substrate by electron beam free-form fabrication to achieve magnetic shielding effect for molybenum substrate, which was demonstrated to be element segregation instead of the conventional dislocation-walls.
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A Layer-Dependent Analytical Model for Printability Assessment of Additive Manufacturing Copper/Steel Multi-Material Components by Directed Energy Deposition
TL;DR: In this paper, an analytical calculation model was proposed to predict the layer-dependent processing parameters when fabricating the 07Cr15Ni5 steel on the CuCr substrate at the fixed layer thickness and hatching space.
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