Papers - Magnetic Transformation in Carbon Steels during Quenching

Austenite is often defined as a solid solution of carbon or carbide in a nonmagnetic form of iron. Conversely, magnetic measurements are often used by investigators for the purpose of detecting the degree of austenite decomposition after an iron alloy has been subjected to certain thermal or mechanical treatments. Association of the magnetic state with the gamma-phase decomposition is often extended to the alloys of iron with elements other than carbon. Definition of austenite as a nonmagnetic solid solution cannot be accepted in the light of available information without certain reservations. The relation of magnetic transformations with the gamma-phase decomposition in the complex alloys of iron has never been rigorously proved. The present investigation deals primarily with the magnetic transformation that occurs in carbon steels during the quenching process. The work was further limited to a study of magnetic transformation in carbon steels quenched at such rates as are necessary to retain the product of austenite decomposition in a martensitic state. Peevious Work Considerable information has accumulated in the literature with respect to the magnetic transformation in alloys of iron, but nearly all of it relates to transformations under the conditions of equilibrium between the phases of the alloy. Earlier studies of Hopkinson,$(') Curie,(2) and Honda'~) are well known. Investigations of the magnetic