Mitigation of lack of fusion defects in powder bed fusion additive manufacturing

被引:188
作者
Mukherjee, T. [1 ]
DebRoy, T. [1 ]
机构
[1] Penn State Univ, Dept Mat Sci & Engn, University Pk, PA 16802 USA
来源
JOURNAL OF MANUFACTURING PROCESSES | 2018年 / 36卷
关键词
Powder bed fusion; Lack of fusion defect; Heat transfer and fluid flow; Marangoni convection; Non-dimensional temperature; RESIDUAL-STRESSES; STAINLESS-STEEL; LASER POWER; FLUID-FLOW; DISTORTION; HEAT;
D O I
10.1016/j.jmapro.2018.10.028
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Components manufactured by additive manufacturing often exhibit improper fusion among layers and hatches. Currently, there is no practical way to select process parameters and alloy systems based on scientific principles to mitigate these defects. Here, we develop, test and demonstrate a methodology to predict and prevent these defects based on a numerical heat transfer and fluid flow model for the laser powder bed fusion (PBF) additive manufacturing (AM). These defects are avoidable by adjusting laser power, scanning speed, layer thickness and hatch spacing. An easy to use parameter is proposed for practical use in shop floors. Relative susceptibilities of three widely used AM alloys are demonstrated using this parameter.
引用
收藏
页码:442 / 449
页数:8
相关论文
共 33 条
[1]  
Aboulkhair N.T., 2014, Addit. Manuf., V1-4, P77, DOI DOI 10.1016/J.ADDMA.2014.08.001
[2]   High Power Selective Laser Melting (HP SLM) of Aluminum Parts [J].
Buchbinder, D. ;
Schleifenbaum, H. ;
Heidrich, S. ;
Meiners, W. ;
Bueltmann, J. .
LASERS IN MANUFACTURING 2011: PROCEEDINGS OF THE SIXTH INTERNATIONAL WLT CONFERENCE ON LASERS IN MANUFACTURING, VOL 12, PT A, 2011, 12 :271-278
[3]   Determination of geometrical factors in Layerwise Laser Melting using optical process monitoring [J].
Craeghs, Tom ;
Clijsters, Stijn ;
Yasa, Evren ;
Bechmann, Florian ;
Berumen, Sebastian ;
Kruth, Jean-Pierre .
OPTICS AND LASERS IN ENGINEERING, 2011, 49 (12) :1440-1446
[4]   Synchrotron-Based X-ray Microtomography Characterization of the Effect of Processing Variables on Porosity Formation in Laser Power-Bed Additive Manufacturing of Ti-6Al-4V [J].
Cunningham, Ross ;
Narra, Sneha P. ;
Montgomery, Colt ;
Beuth, Jack ;
Rollett, A. D. .
JOM, 2017, 69 (03) :479-484
[5]   Reducing lack of fusion during selective laser melting of CoCrMo alloy: Effect of laser power on geometrical features of tracks [J].
Darvish, K. ;
Chen, Z. W. ;
Pasang, T. .
MATERIALS & DESIGN, 2016, 112 :357-366
[6]   Additive manufacturing of metallic components - Process, structure and properties [J].
DebRoy, T. ;
Wei, H. L. ;
Zuback, J. S. ;
Mukherjee, T. ;
Elmer, J. W. ;
Milewski, J. O. ;
Beese, A. M. ;
Wilson-Heid, A. ;
De, A. ;
Zhang, W. .
PROGRESS IN MATERIALS SCIENCE, 2018, 92 :112-224
[7]   Influences of energy density on microstructure and consolidation of selective laser melted bismuth telluride thermoelectric powder [J].
El-Desouky, Ahmed ;
Carter, Michael ;
Mahmoudi, Mohamad ;
Elwany, Alaa ;
LeBlanc, Saniya .
JOURNAL OF MANUFACTURING PROCESSES, 2017, 25 :411-417
[8]  
Gong H., 2014, SOLID FREEFORM FABRI, P256, DOI DOI 10.26153/TSW/15682
[9]  
Gong J, 2014, 2014 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATION SYSTEMS (ICCS), P87, DOI 10.1109/ICCS.2014.7024771
[10]   Evaluation of the relevance of melt pool dynamics in Laser Material Deposition process modeling [J].
Inaki Arrizubieta, Jon ;
Lamikiz, Aitzol ;
Klocke, Fritz ;
Martinez, Silvia ;
Arntz, Kristian ;
Ukar, Eneko .
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2017, 115 :80-91
1234