Page - 50 - in 3D Printing of Metals

Metals 2016,6, 284 6. Kok, Y.; Tan, X.P.; Tor, S.B.; Chua, C.K. Fabrication and microstructural characterisation of additive manufacturedTi-6Al-4Vpartsbyelectronbeammelting.VirtualPhys. Prototyp. 2015,10, 13–21. [CrossRef] 7. Yadroitsev, I.; Yadroitsava, I. Evaluation of residual stress in stainless steel 316L andTi6Al4V samples producedbyselective lasermelting.VirtualPhys. Prototyp. 2015,10, 67–76. [CrossRef] 8. Sun,Z.J.;Tan,X.P.;Tor,S.B.;Yeong,W.Y.Selective lasermeltingofstainless steel316Lwith lowporosityand highbuildrates.Mater.Des. 2016,104, 197–204. [CrossRef] 9. Do,D.K.;Li,P.Theeffectof laserenergy inputonthemicrostructure,physicalandmechanicalpropertiesof Ti-6Al-4Valloysbyselective lasermelting.VirtualPhys. Prototyp. 2016,11, 41–47. [CrossRef] 10. Al-Bermani, S.S.; Blackmore,M.L.; Zhang,W.; Todd, I. TheOriginofMicrostructuralDiversity, Texture, andMechanicalProperties inElectronBeamMeltedTi-6Al-4V.Metall.Mater. Trans.A2010,41, 3422–3434. [CrossRef] 11. Rafi,H.K.;Karthik,N.V.;Gong,H.; Starr,T.L.; Stucker,B.E.Microstructureandmechanicalpropertiesof Ti6Al4Vparts fabricatedbyselective lasermeltingandelectronbeammelting. J.Mater. Eng. Perform. 2013, 22, 3872–3883. [CrossRef] 12. Lewandowski, J.; Seifi,M.Metaladditivemanufacturing:Areviewofmechanicalproperties.Annu. Rev. Mater. Res. 2016,46, 151–186. [CrossRef] 13. Qian,M.; Xu,W.; Brandt,M.; Tang,H.P.Additivemanufacturing andpostprocessing of Ti-6Al-4V for superiormechanicalproperties.MRSBull. 2016,41, 775–783. [CrossRef] 14. Attar,H.; Prashanth,K.G.; Chaubey,A.K.; Calin,M.; Zhang,L.C.; Scudino, S.; Eckert, J. Comparisonof wearpropertiesofcommerciallypure titaniumpreparedbyselective lasermeltingandcastingprocesses. Mater.Lett. 2015,142, 38–41. [CrossRef] 15. Budinski,K.G.Tribologicalpropertiesof titaniumalloys.Wear1991,151, 203–217. [CrossRef] 16. Molinari,A.;Straffelini,G.;Tesi,B.;Bacci,T.Dryslidingwearmechanismsof theTi6Al4Valloy.Wear1997, 208, 105–112. [CrossRef] 17. Wang,P.;Nai,M.L.S.;Sin,W.J.;Wei, J.EffectofBuildingHeightonMicrostructureandMechanicalProperties of Big-SizedTi-6Al-4VPlate Fabricated byElectronBeamMelting. MATECWebConf. 2015, 30, 02001. [CrossRef] 18. Tan,X.P.;Kok,Y.;Tan,Y.J.;Vastola,G.;Pei,Q.X.;Zhang,G.;Zhang,Y.W.;Tor,S.B.;Leong,K.F.;Chua,C.K. An experimental and simulation studyonbuild thickness dependentmicrostructure for electronbeam meltedTi-6Al-4V. J.Alloy. Compd. 2015,646, 303–309. [CrossRef] 19. Tan, X.P.; Kok, Y.; Tan, Y.J.; Descoins, M.; Mangelinck, D.; Tor, S.B.; Leong, K.F.; Chua, C.K. GradedmicrostructureandmechanicalpropertiesofadditivemanufacturedTi-6Al-4Vviaelectronbeam melting.ActaMater. 2015,97, 1–16. [CrossRef] 20. Wang, P.; Tan, X.P.; Nai, M.L.S.; Tor, S.B.; Wei, J. Spatial and geometrical-based characterization of microstructureandmicrohardness foranelectronbeammeltedTi-6Al-4Vcomponent.Mater.Des. 2016,95, 287–295. [CrossRef] 21. Kok,Y.;Tan,X.P.;Loh,N.H.;Tor,S.B.;Chua,C.K.Geometrydependenceofmicrostructureandmicrohardness forselectiveelectronbeammeltedTi-6Al-4Vparts.VirtualPhys. Prototyp. 2016,11, 183–191. [CrossRef] 22. Hutchings, I.M.Tribology: FrictionandWearofEngineeringMaterials;EdwardArnold: London,UK,1992. 23. Zeng, L.; Bieler, T.R. Effects of working, heat treatment, and aging on microstructural evolution and crystallographic textureofα,α′,α”andβphases inTi-6Al-4Vwire.Mater. Sci. Eng.A.2005,392, 403–414. [CrossRef] 24. Jovanovic´,M.T.;Tadic´, S.;Zec,S.;Miškovic´,Z.;Bobic´, I.Theeffectofannealingtemperaturesandcooling ratesonmicrostructureandmechanicalpropertiesof investmentcastTi-6Al-4Valloy.Mater.Des. 2006,27, 192–199. [CrossRef] 25. Karlsson, J.; Snis,A.;Engqvist,H.;Lausmaa, J.Characterizationandcomparisonofmaterialsproducedby electronbeammeltingof twodifferentTi-6Al-4Vpowder fractions. J.Mater. Process. Technol. 2013, 213, 2109–2118. [CrossRef] 26. Lim,S.;Ashby,M.OverviewNo. 55wear-mechanismmaps.ActaMetall. 1987,35, 1–24. [CrossRef] 27. Ashby,M.;Lim,S.Wear-mechanismmaps.Scr.Metall.Mater. 1990,24, 805–810. [CrossRef] 28. Zhang,Q.Y.;Zhou,Y.;Wang,L.;Cui,X.H.;Wang,S.Q. Investigationontribo-layersandtheir functionofa titaniumalloyduringdrysliding.Tribol. Int. 2016,94, 541–549. [CrossRef] 50