%0 Journal Article
%T Characterization of low-alloy steels by means of different techniques Caracterizaci車n de aceros de baja aleaci車n por medio de diferentes t谷cnicas
%A Juan Carlos Gonz芍lez
%A Ney Luiggi
%J Revista Latinoamericana de Metalurgia y Materiales
%D 2013
%I Universidad Sim車n Bol赤var
%X Two low carbon steels with different concentrations of carbon, one with manganese as its principal alloy component, were studied using electrical resistivity, Differential Scanning Calorimetry (DSC), Optical Microscopy (OM) and Scanning Electron Microscopy (SEM) as experimental techniques to study the kinetic of phase changes occurring during a non-isothermal heating in normalized and austenized microstructures. The measurements of electrical resistivity were used to test the austenization process at 1100oC, showing how sensitive this method is to the concentration of solute in the samples. The resistivity being slightly larger at the onset, possibly due to the precipitation of carbides, and becoming slightly erratic and diminished as the aging time increases. For DSC, measurements were taken at different heating rates, which demonstrated different exothermic and endothermic transformations, indicative of the initial microstructure of the samples. Austenization introduces a new endothermic reaction, not present in the normalized samples, very localized and basically associated with the dissolution of martensite. Optical and scanning electron microscopy allowed us to visualize the granular state of the samples and follow the sequence of evolution of phases present in these steels, the normalized state showing a matrix rich in ferrite and pearlite, and all the treated samples showing a matrix rich in martensite, product of rapid tempering. The activation energies, for the endothermic reactions corresponding to the allotropic transformations 汐 -  汐 + 污 and 汐 + 污 -  污., calculated by isoconversi車n methods are in the neighborhood of 22.2 y 26.7 Kcal/mol for the first and second endothermic processes, respectively. Dos aceros-bajos en carbono- con diferentes concentraciones de carbono, uno de ellos con manganeso como aleante principal, fueron estudiados usando resistividad el谷ctrica, calorimetr赤a diferencial de barrido (DSC), microscop赤a 車ptica (MO) y microscop赤a electr車nica de barrido (MEB) como t谷cnicas de medici車n experimental para caracterizar la cin谷tica de los cambios de fase que se producen durante un calentamiento no isot谷rmico en microestructuras normalizadas y austenizadas. Las mediciones de resistividad el谷ctrica se usaron para chequear la austenizaci車n a 1100 oC, reflejando la sensibilidad de este m谷todo a la variaci車n de la concentraci車n de soluto en las muestras. La resistividad es ligeramente superior en el inicio, posiblemente debido a la precipitaci車n de carburos, fluct迆a y disminuye a medida que aumenta el tiempo de envejecimiento. Para DSC,
%K Acero de baja aleaci車n
%K DSC
%K MEB
%K Energ赤a de Activaci車n
%K Low-Alloy Steels
%K DSC
%K SEM
%K Activation Energy
%U http://wwww.scielo.org.ve/scielo.php?script=sci_arttext&pid=S0255-69522013000100016