A microscopic examination of the precipitation phenomena occuring during the isothermal pearlitic transformation in high carbon-copper nickel steels

G. Fourlaris , A.J. Baker , G.D. Papademitriou
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引用次数: 6

Abstract

During isothermal pearlitic transformation of high carbon austenite, the formation of proeutectoid phases precedes that of pearlite. Widmanstatten cementite is the major proeutectoid phase that forms at all temperatures. Within this constituent the precipitation of ε-Cu always occurs, together with the formation of stabilized coarse austenite entrapments. Within pearlitic cementite interphase precipitation of ε-Cu occurs at all transformation temperatures, while within pearlitic ferrite a banded interphase precipitation of ε-Cu occurs only at temperatures close to the eutectoid point. As the temperature of the isothermal pearlitic transformation is lowered the formation of non-partitioned pearlitic ferrite is possible and ε-Cu precipitation only forms within this ferrite as a result of ageing occurring during prolonged isothermal holding. It was concluded that interphase precipitation of ε-Cu always occurred on the migrating austenite/cementite interphase boundaries, but ε-Cu interphase precipitation occurred on the migrating austenite/ferrite boundaries only at temperatures close to the eutectoid point.

高碳铜镍钢等温珠光体转变过程中析出现象的显微观察
高碳奥氏体等温珠光体转变过程中,准共析相先于珠光体形成。魏氏渗碳体是在所有温度下形成的主要共析相。在这一组分中,ε-Cu总是析出,同时形成稳定的粗奥氏体包裹。在珠光体渗碳体中,ε-Cu在所有相变温度下都有相析出,而在珠光体铁素体中,ε-Cu只在接近共析点的温度下才有带状相析出。随着等温珠光体相变温度的降低,非分形珠光体铁素体的形成成为可能,而ε-Cu的析出仅在该铁素体内部形成,这是长时间等温保温时效的结果。结果表明,ε-Cu的析出总是发生在迁移的奥氏体/渗碳体界面上,而ε-Cu的析出只发生在靠近共析点的迁移的奥氏体/铁素体界面上。
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