Диссертация (1025543), страница 17
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2013. №63. P. 370 – 378.20.Study on energy input and its influences on single-track, multi-track, and multi-layer in SLM / D. Wang [et al.] // Int J Adv Manuf Technol. 2012. №58. P. 1189–1199.21.Selective laser sintering of high carbon steel powders studied as a function ofcarbon content / T. Nakamoto [et al.] // Journal of Materials Processing Technology.2009. №209. P.
5653–5660.22.316L Stainless Steel with Gradient Porosity Fabricated by Selective LaserMelting / R. Li [et al.] //JMEPEG. 2010. №19. P. 666–671.23.Delgado J., Ciurana J., Ciro A. Influence of process parameters on part qualityand mechanical properties for DMLS and SLM with iron-based materials// Int J AdvManufacturing Technology. 2012.
№ 60. Р. 601–610.24.Baicheng Z., Hanlin L., Coddet C. Effects of processing parameters on propertiesof selective laser melting Mg–9%Al powder mixture// Materials and Design. 2012. №34. Р. 753–758.13125.Guan K. Effects of processing parameters on tensile properties of SLM 304 SS //Materials and Design. 2013.
№50. P. 581–586.26.Delgado J., Curana J., Ciro A. R. Influence of process parameters on part qualityand mechanical properties for DMLS and SLM with iron-based materials // Int J AdvManuf Technol. 2012. №60. P. 601–610.27.Optimization of powder layer density in selective laser sintering // Karapatis N.[and oth.] P. 255-264.28.Olakanmi E.O. Selective laser sintering / melting (SLS/SLM) of pure Al, Al–Mg,and Al–Si powders: Effect of processing conditions and powder properties // Journal ofMaterials Processing Technology.
2013. №213. P. 1387– 1405.29.Simchi A. The Role of Particle Size on the Laser Sintering of Iron Powder //Metallurgical and materials transactions B. 2004. №35B. P. 937-948.30.Boisselier D., Sankaré S. Influence of powder characteristics in laser direct metaldeposition of SS316L for metallic parts manufacturing // Physics Procedia. 2012.
№39.P. 455 – 463.31.Childs T., Hauser С., Badrossamay M. Mapping and modelling single scan trackformation in direct metal selective laser melting // CIRP Annals – ManufacturingTechnology. 2004. №53(1). Р. 191-194.32.Rombouts M. Selective laser sintering / melting of iron-based powders/ PhDthesis // Katholieke Universiteit Leuven.
Leuven. 2006. P. 2-15.33.Karapatis P. A sub-process approach of selective laser sintering / PhD thesis //Ecole Polytechnique Federal de Lausanne. Lausanne. 2002. P. 5-10.34.Manthiram A., Bourell D.L., Marcus H.L. Nanophase materials in solid freeformfabrication // JOM. 1993.
№45. Р. 66-70.35.Rock S.J., Misiolek W.Z. Distortion control for P / M-based rapid prototyping ofadvanced material components // Powder Metallurgy and Particulate MaterialsProceedings of the World Congress. Washington, DC, 1996. P. 237-241.36.Microstructural and mechanical approaches of the selective laser melting processapplied to a nickel – based superalloy / T. Vilaro [et al.] // Materials Science andEngineering A. 2012. № 534. P.446 – 451.13237.Influence of powder pаrticle size on properties of MIM parts / T. Tingskog [et al.]// Advances in Powder Metallurgy and Particulate Materials Proceedings of theInternational Conference in Princeton. NJ.
MPIF, 2000. P. 73-80.38.Yadroitsev I. Selective Laser Melting: Direct Manufacturing of 3D-Objects bySelective Laser Melting of Metal Powders, Lambert Academic Publishing, AG & Co.KG, Saarbrucken. 2009. P. 89-92.39.Taylor C. M.; Childs T. H., Hauser C. Morphology of direct SLS-processedstainless steel layers. Proc. Solid Freeform Fabrication Symposium. 2002. P.
530-537.40.Binding mechanisms in selective laser sintering and selective laser melting /Kruth J-P. [et al.] // Rapid Prototyping Journal. 2005. №11(1). Р. 26–36.41.Residual stress within metallic model made by Selective Laser Melting Process /Shiomi M [et al.] // CIRP Annals - Manufacturing Technology. 2004.№ 53(1). Р. 195198.42.Assessing influencing factors of residual stresses in Selective Laser Melting usinga novel analysis method / J-P. Kruth [et al.] // Proc. 16th International Symposium onElectromachining (ISEM XVI).
Shanghai, 2010. P. 531-540.43.Yasa E., Kruth J-P., Deckers J. Manufacturing by Combining Selective LaserMelting and Selective Laser Erosion / Laser Re-Melting. CIRP Annals – ManufacturingTechnology. 2011. № 60. Р. 263-266.44.Kruth J-P, Yasa E, Deckers J. Roughness improvement in Selective LaserMelting: Proc.
of 3rd International PMI. Gent, 2008. P. 65-68.45.Dadbakhsh S., Hao L. Effect of hot isostatic pressing (HIP) on Al composite partsmade from laser consolidated Al/Fe2O3 powder mixtures// Journal of MaterialsProcessing Technology. 2012. № 212. Р. 2474– 2483.46.H. Meier, Ch. Haberland. Experimental studies on selective laser melting ofmetallic parts// Mat.-wiss. u. Werkstofftech. 2008. №39 (9). P. 89-92.47.B.
Vrancken, R. Wauthle, J.-P. Kruth. Study of the influence of the materialproperties on residual stress in SLM. P.34-38.13348.Effect of molten pool boundaries on the mechanical properties of selective lasermelting parts / Shifeng W. [et al.] // Journal of Materials Processing Technology. 2014.№214. Р. 2660–2667.49.Fine-structured aluminium products with controllable texture by Selective LaserMelting of pre-alloyed AlSi10Mg powder / L. Thijs [et al.] // Acta MaterialiaManuscript. Number: A. №12.Р. 2020-2025.50.Krauss H. Investigations on manufacturability and process reliability of selectivelaser melting // Physics Procedia.
2013. № 41. P. 815–822.51.Microstructures and Mechanical Properties of Ti6Al4V Parts Fabricated bySelective Laser Melting and Electron Beam Melting / H. Rafi [et al.] // JMEPEG. 2013.№22. P. 3872–3883.52.Inconel 939 processed by selective laser melting: Effect of microstructure andtemperature on the mechanical properties under static and cyclic loading / P.Kanagarajah [et al.] // Materials Science & Engineering A. 2013. №588. P.
188–195.53.Jhabvala J., Boillat E., Glardon R. On the use of EBSD analysis to investigate themicrostructure of gold samples built by selective laser melting // Gold Bull. 2011. №44.Р. 113–118.54.Yasa E., Kruth J.-P., Deckers J. Manufacturing by combining Selective LaserMelting and Selective Laser Erosion/laser re-melting // CIRP Annals - ManufacturingTechnology. 2011. № 60. Р.
263–266.55.Luca Facchini / Doctoral thesis Microstructure and mechanical properties ofbiomedical alloys produced by Rapid Manufacturing technologies. P.115-145.56.Strong morphological and crystallographic texture and resulting yield strengthanisotropy in selective laser melted tantalum / L. Thijs [et al.] // Acta Materialia. 2013.№ 61. Р. 4657–4668.57.Effects of processing parameters on tensile properties of selective laser melted304 stainless steel / K.
Guan [et al.] // Materials and Design. 2013. №50. Р. 581–586.58.Highly Anisotropic Steel Processed by Selective Laser Melting / Т. Niendorf [etal.] // Metallurgical and materials transactions B. 2013. №794 (44B). P. 1058-1070.13459.The influence of the laser scan strategy on grain structure and cracking behaviourin SLM powder-bed fabricated nickel superalloy / L. Carter [et al.] // Journal of Alloysand Compounds. 2014. №615.
Р. 338–347.60.Texture, anisotropy in microstructure and mechanical properties of IN738LCalloy processed by selective laser melting (SLM) / K. Kunze [et al.] // Materials Science& Engineering A. 2015. №620. Р. 213–222.61.Effect of heat treatment on the microstructure and mechanical properties ofInconel 718 processed by selective laser melting / E. Chlebus [et al.] // MaterialsScience & Engineering A. 2015. №639. Р. 647–655.62.The microstructure and mechanical properties of deposited-IN718 by selectivelaser melting / Z.
Wang [et al.] // Journal of Alloys and Compounds. 2012. №513. Р.518– 523.63.Microstructure Characteristics of Inconel 625 Superalloy Manufactured bySelective Laser Melting / S. Li [et al.] // Journal of Materials Science & Technology.2015. P. 17.64.Microstructural and mechanical approaches of the selective laser melting processapplied to a nickel-base superalloy / T.
Vilaro [et al.] // Materials Science andEngineering A. 2012. №534. Р. 446– 451.65.Microstructures and mechanical behavior of Inconel 718 fabricated by selectivelaser melting / K. Amato [et al.] // Acta Materialia. 2012. №60. Р. 2229–2239.66.Fine-structured aluminium products with controllable texture by Selective LaserMelting of prealloyed AlSi10Mg powder / L.
Thijs [et al.] //Acta Materialia ManuscriptDraft.67.Buchbinder D., Schleifenbaum H., Heidrich S. High Power Selective LaserMelting (HP SLM) of Aluminum Parts // Physics Procedia. 2011. №12. Р. 271–278.68.Hardened austenite steel with columnar sub-grain structure formed by lasermelting / K. Saeidi [et al.] // Materials Science & Engineering A. 2015. №625.
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