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Atmosphere Influence on Decarburization of Parts During Steel Sintering
ElectronicHydraulic Control for a MultiPlaten Compacting
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admixed alloys aluminum as-sintered ATOMET carbon content carbon potential carbon sintered carbon transfer carbonyl iron carburization components contamination cooling rate copper decarburization densification dev point diffusion dimensional change ductility effect electrical conductivity elongated separating element endothermic endothermic atmospheres enhanced sintering evolution of carbon Fe-P alloys ferritic ferroboron ferrophosphorus Figure fracture furnace gas flow gases graphite green density green sample heat treatment hydrocarbon hydrogen improved increase infiltration iron powder compacts levels liquid phase sintering lithium oxide lithium stearate lubricant martensite mechanical properties microcrack microstructure MPIF nitrogen oxygen oxygen content P/M steels partial pressure particle particulate material pores porosity Powder Metallurgy production quantitative model R. M. German reduction reaction retort segregation sinter-hardened sintered compact sintered density sintered steels sintering atmosphere sintering cycle sintering temperature stainless steel stearate additions strength surface synthetic atmospheres Table tensile troughs tungsten vacuum water vapor Weibull modulus zinc stearate