LUCIO SALGADO
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Livro IPEN-doc 07907 Powder technology: Advanced powder technology. 21999 - SALGADO, L.; AMBROZIO FILHO, F.; MUCCILO, R.Resumo IPEN-doc 04240 A obtencao do po de aco inoxidavel por atomizacao a agua1991 - SALGADO, L.; VICENTE, J.G.; AMBROZIO FILHO, F.Resumo IPEN-doc 15875 Caracterizacao quanto a corrosao de titanio (HDH) sinterizado a vacuo e em argonio dinamico para utilizacao como biomaterial2010 - BARBOSA, L.P.; SALGADO, L.; COSTA, I.Resumo IPEN-doc 18447 Avaliação de Ti(cp) sinterizado, após tratmento térmico2012 - BARBOSA, L.P.; KANSOKAS, N.; SALGADO, L.Resumo IPEN-doc 18437 Tratamento térmico e avaliação microestrutural de Tl(CP) sinterizado2012 - BARBOSA, L.; SALGADO, L.Resumo IPEN-doc 18130 Compósitos de hidroxiapatita óssea bovina disperso em biovidro2011 - SALGADO, L.; BRAGA, F.J.C.Resumo IPEN-doc 17941 The influence of heat treatment on the corrosion behavior of titanium (cp) obtained by the hdh process2011 - BARBOSA, L.B.; SALGADO, L.; KARSOKAS FILHO, N.; DUVAIZEM, J.H.; COSTA, I.Resumo IPEN-doc 13324 Water atomization of stainless steel - coarse powder to sintered filter2008 - KARSOKAS FILHO, N.; RODRIGUES, D.; TOSETTI, J.P.; AMBROZIO FILHO, F.; BENEDUCCE NETO, F.; SALGADO, L.Resumo IPEN-doc 12492 Evaluation of processes controls sintered parts - shim case study2007 - ROSSI, J.L.; SALGADO, L.; COLOSIO, M.A.Resumo IPEN-doc 11078 Sintering of AISI M3-2 high speed steel-Part II2005 - ARAUJO FILHO, O.O.; NEVES, M.D.M.; OLIVEIRA, E.E.; SILVA, L.C.E.; SALGADO, L.; AMBROZIO FILHO, F.Liquid phase sintering of high speed steels seems to be a cheaper processing route in the manufacturing of tool steels if compared to the well-known and expansive hot isostatic pressing high speed steels. In a previous work a M3:2 high speed steel was vacuum sintered from irregular water atomized powder and had its sintering temperature determined. In this work the same powder was uniaxially cold compacted and vaccum sintered by adding some small quantity of carbon (0.3% in weight) to prevent porosity and loss of carbon which result from the sintering cycle. The sintered samples from all these experimental procedures had their density evaluated. The microstructure was evaluated using optical-electronic techniques in order to investigate the best range of sintering temperature. At least five parallel samples were tested to each condition of sintering.