Formation of Nodular Bainite in a Fe-9.10ni-0.06c (Wt. %) Alloy: A New Microstructure for Cryogenic Steels

Y. Bagheri, H. Kamali, Erfan Kamali, S. Hossein Nedjad
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引用次数: 1

Abstract

Quenched and tempered Fe-9Ni (wt. %) steels have been widely used in cryogenic applications. For the first time, the formation of nodular bainite in an Fe-9Ni-0.06C (wt. %) steel during isothermal transformation at 550 and 500 °C for 24 h is reported. Electron microscopy revealed that proeutectoid ferrite forms predominantly by a massive transformation at prior austenite grain boundaries or at intragranular inclusions as the first stage of austenite decomposition. Then, nodular bainite composed of a ferritic matrix and rows of fine cementite precipitates forms by interphase boundary precipitation during decomposition of adjacent C-enriched austenite. Both the Bagarayatskii and Isaichev orientation relationships between ferrite and cementite were observed. Also, the microhardness of nodular bainite in the sample transformed at 500 °C (214 ± 4 VHN) was higher than that in the sample transformed at 550 °C (195 ± 5 VHN), due to smaller sizes of cementite precipitates in the former.
Fe-9.10ni-0.06c (Wt. %)合金中球墨贝氏体的形成:一种低温钢的新组织
淬火和回火的Fe-9Ni (wt. %)钢已广泛用于低温应用。本文首次报道了Fe-9Ni-0.06C (wt. %)钢在550和500℃等温相变24h时形成的球状贝氏体。电镜观察发现,原共析铁素体的形成主要是在奥氏体分解的第一阶段,在奥氏体晶界处或在晶内夹杂处发生大量转变。然后,在相邻富c奥氏体分解过程中,通过相界面析出形成由铁素体基体和成排细渗碳体组成的球状贝氏体。铁素体与渗碳体之间存在Bagarayatskii取向关系和Isaichev取向关系。500℃(214±4 VHN)相变试样的显微硬度高于550℃(195±5 VHN)相变试样,这是由于前者的渗碳体析出物尺寸较小。
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