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dc.contributor.authorWidyanto, Susilo Adi
dc.contributor.authorTontowi, Alva Edy
dc.contributor.authorJamasri, Jamasri
dc.contributor.authorRochardjo, Heru Santosa
dc.date.accessioned2012-04-24T04:53:04Z
dc.date.available2012-04-24T04:53:04Z
dc.date.issued2007-10
dc.identifier.citationALTECO KOREA INC, 1997 Beaman, J.J., Barlow, J.W., Bourell, D.L., Crawford, R.H., Marcus, H.L. and McAlea, K.P. 1997, "Solid Freeform Fabrication: A New Direction in Manufacturing", Kluwer Academic, Boston, MA. German,R.M., 1994, “Powder Metallurgy Science”,2nd Ed., 245-246. German, R.M., “Sintering Teory and Practice,” John Wiley & Sons, Inc., 1996., New York, NY Gurland, J., 1962,” Powder Metallurgy in the Nuclear Age,” F.Benesovsky, ed., Springer- Verlag, Vienna, pp.507-08 Huppmann, W.J., “Sintering in the Presence of a Liquid Phase,” Sintering and Catalysis, G.C. Kuczynski, Ed., Plenum Press, pp 359-378. Lenel, F.V., 1980, “Powder Metallurgy Principle and Applications,” Metal Powder Industries Federation, pp 211-267 Liu, J and German, R.M., 1999, “Densification and Shape Distrosion in Liquid Phase Sintering,” Metallurgical and Materials Transactions., vol. 30A, pp. 3211-3219. Tseng, A.A., Tanaka, A., 2001, “Advanced deposition techniques for freeform fabrication of metal and ceramic parts”, Rapid Prototyping Journal, 7(1), 6-17en_US
dc.identifier.issn0853-2850
dc.identifier.urihttp://hdl.handle.net/11617/956
dc.description.abstractDue to the pressure-less sintering process, products of the SFF are commonly weak so that the strengthening process is needed. This paper reports a SFF product strengthening method with glue infiltration. Material of the specimen used the powders of Cast iron-PE and Silica-PE blend with particles size of 100µm (150 mesh) and 150µm (100 mesh) while cyanoacrylate glue was used as infiltrant. The sintering process was run at the temperature of 1350C and holding time of 2.5 hours. The product was shaped in the tensile strength, the density and the shrinkage test specimens. Before infiltration, a part of the specimens were burned out to increase the pores. The experiment was also conducted to observe the influence of curing process after infiltration on the tensile strength with varying curing temperature which includes 500C, 750C and 1000C. The experiment results show that the tensile strength of the cast iron-PE as well as silica-PE composite is significantly increased by glue infiltration. An increase in the tensile strength achieves around of 1100%.en_US
dc.subjectinfiltrationen_US
dc.subjectcyanocrylateen_US
dc.subjectcuringen_US
dc.subjectsinteringen_US
dc.titleGLUE INFILTRATION OF FREEFORM FABRICATION PRODUCT OF CAST IRON-PE/SILICA-PE COMPOSITEen_US
dc.typeArticleen_US


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