Methods and systems for vacuum and oil austempering in producing bainite

1 . method of obtaining bainite comprising: heating a metal component in a vacuum chamber of a vacuum furnace to raise an internal temperature of the metal component to an austenitizing temperature; transferring the metal component from the vacuum chamber to a quench chamber of the vacuum furnace; quenching the metal component in oil that is maintained at a bainite-forming temperature range within a quench reservoir of the quench chamber; and removing the metal component from the quench chamber after a predetermined period of time. 2 . The method of claim 1 , wherein the bainite-forming temperature range has a lower threshold of at least about 200° C. 3 . The method of claim 1 , wherein the bainite-forming temperature range has an upper threshold at or less than about 230° C. 4 . The method of any one of claim 1 , wherein the metal component is a steel alloy containing at least 0.4% carbon and the austenitizing temperature of the metal component is between 815° C. and 880° C. 5 . The method of claim 1 , further comprising introducing carbon into the vacuum chamber during heating of the metal component to produce case-hardened bainite from the metal component, wherein the metal component is a steel alloy containing 0.3% carbon or less. 6 . The method of claim 5 , wherein the austenitizing temperature of the metal component is between 815° C. and 950° C. 7 . The method of any one of claim 1 , further comprising maintaining an inflow of inert gas into the quench chamber for a period of time before, during, and after the furnace is opened to remove the metal component from the quench chamber. 8 . The method of claim 7 , further comprising maintaining the inert gas to entirely cover a surface of the oil within the quench reservoir to reduce oxidation or degradation of the oil. 9 . The method of any one of claim 1 , further comprising washing the metal component after removing the metal component from the quench chamber. 10 . The method of any one of claim 1 , wherein the oil has a flash point of greater than 230° C. 11 . A vacuum furnace for producing bainite by austempering, the vacuum furnace comprising: a vacuum chamber configured to heat a metal component to raise an internal temperature of the metal component to an austenitizing temperature; and a quench chamber including a quench reservoir configured to store oil that is maintained at a bainite-forming temperature range to be used to quench the metal component after the metal component is transferred from the vacuum chamber to the quench chamber until bainitic transformation of the metal component is complete. 12 . The vacuum furnace of claim 11 , wherein the quench chamber further comprises an elevator configured to transport the metal component from the quench chamber to the quench reservoir. 13 . The vacuum furnace of claim 11 , wherein the quench chamber further comprises a gas injector configured to maintaining an inflow of inert gas into the quench chamber for a period of time before, during, and after the furnace is opened to remove the metal component from the quench chamber. 14 . The vacuum furnace of claim 13 , wherein the quench chamber or the gas injector is configured to maintain the inert gas to entirely cover a surface of the oil within the quench reservoir to reduce oxidation or degradation of the oil. 15 . A bainite component formed by the method of any one of claim 1 , wherein the bainite component has a hardness of between 50HRC and 60HRC with no retained austenite, and a surface of the bainite component has no defect formed as a result of oxidation that is visible to a naked eye. 16 . The bainite component of claim 15 , wherein the surface of the bainite component has no defect formed as the result of oxidation that is visible under 10× magnification.