Influence of surface pretreatment on porosity and microstructure of laser welding in AlSi10Mg alloys sheets fabricated by laser powder bed fusion

[1]  Jinlong Pan,et al.  Plasma electrolytic oxidation coatings on additively manufactured aluminum–silicon alloys with superior tribological performance , 2022, Surface and Coatings Technology.

[2]  Xiong Zhang,et al.  Oxygen content and morphology of laser cleaned 5083 aluminum alloy and its influences on weld porosity , 2021 .

[3]  Zhao Zhao,et al.  Microstructure evolution and properties of nanoparticulate SiC modified AlSi10Mg alloys , 2021, Materials Science and Engineering: A.

[4]  A. Rollett,et al.  Critical instability at moving keyhole tip generates porosity in laser melting , 2020, Science.

[5]  Yongbing Li,et al.  Effect of surface treatments and storage conditions on resistance spot weldability of aluminum alloy 5182 , 2020 .

[6]  X. Zhan,et al.  Investigate on the porosity morphology and formation mechanism in laser-MIG hybrid welded joint for 5A06 aluminum alloy with Y-shaped groove , 2020 .

[7]  H. Jing,et al.  Selective laser melting of low-content graphene nanoplatelets reinforced 316L austenitic stainless steel matrix: Strength enhancement without affecting ductility , 2020 .

[8]  Xiaojia Nie,et al.  A comparison between laser and TIG welding of selective laser melted AlSi10Mg , 2019 .

[9]  R. Hague,et al.  3D printing of Aluminium alloys: Additive Manufacturing of Aluminium alloys using selective laser melting , 2019, Progress in Materials Science.

[10]  C. Biffi,et al.  Laser Weldability of AlSi10Mg Alloy Produced by Selective Laser Melting: Microstructure and Mechanical Behavior , 2019, Journal of Materials Engineering and Performance.

[11]  T. Niendorf,et al.  On the low-cycle fatigue behavior of friction stir welded Al–Si12 parts produced by selective laser melting , 2019, Materials Science and Engineering: A.

[12]  E. Aghion,et al.  Microstructural assessment and mechanical properties of electron beam welding of AlSi10Mg specimens fabricated by selective laser melting , 2019, Journal of Materials Processing Technology.

[13]  Chee Kai Chua,et al.  Influence of re-melting on surface roughness and porosity of AlSi10Mg parts fabricated by selective laser melting , 2019, Journal of Alloys and Compounds.

[14]  R. Misra,et al.  Role of melt pool boundary condition in determining the mechanical properties of selective laser melting AlSi10Mg alloy , 2019, Materials Science and Engineering: A.

[15]  Chee Kai Chua,et al.  Investigation of porosity reduction, microstructure and mechanical properties for joining of selective laser melting fabricated aluminium composite via friction stir welding , 2018, Journal of Manufacturing Processes.

[16]  Zheli Feng,et al.  Thermofluid field of molten pool and its effects during selective laser melting (SLM) of Inconel 718 alloy , 2018 .

[17]  J. S. Zuback,et al.  Additive manufacturing of metallic components – Process, structure and properties , 2018 .

[18]  J. Światowska,et al.  Influence of surface pretreatments on the quality of trivalent chromium process coatings on aluminum alloy , 2017 .

[19]  E. Aghion,et al.  Structural Properties of EB-Welded AlSi10Mg Thin-Walled Pressure Vessels Produced by AM-SLM Technology , 2017, Journal of Materials Engineering and Performance.

[20]  T. Pollock,et al.  3D printing of high-strength aluminium alloys , 2017, Nature.

[21]  Lin Li,et al.  Microstructure and mechanical properties of laser beam-welded AA2060 Al-Li alloy , 2016 .

[22]  Nicola Senin,et al.  Surface texture metrology for metal additive manufacturing: a review , 2016 .

[23]  I. Ashcroft,et al.  The microstructure and mechanical properties of selectively laser melted AlSi10Mg: The effect of a conventional T6-like heat treatment , 2016 .

[24]  A. Sternb,et al.  Electron beam welding of AlSi10Mg workpieces produced by selected laser melting additive manufacturing technology , 2015 .

[25]  S.M.A. Shibli,et al.  A review on recent approaches in the field of hot dip zinc galvanizing process , 2015 .

[26]  J. Eckert,et al.  Friction welding of Al–12Si parts produced by selective laser melting , 2014 .

[27]  R. Poprawe,et al.  Laser additive manufacturing of metallic components: materials, processes and mechanisms , 2012 .

[28]  G. Thompson,et al.  Quantification of oxide film thickness at the surface of aluminium using XPS , 2002 .

[29]  Publisher’s , 1999, Pathobiology.

[30]  C. Emmelmanna,et al.  Optimization of the weldability of laser additive manufactured aluminum by means of hydrogen minimization in the component and welding parameter optimization , 2019 .

[31]  From Wiley Rapid Manufacturing: An Industrial Revolution for the Digital Age , 2017 .

[32]  Brian R. Strohmeier,et al.  An ESCA method for determining the oxide thickness on aluminum alloys , 1990 .