標題: | 鐵-8.8鋁-30.0錳-6.0鉬-1. 1碳合金相變化 Phase transformations in an Fe-8.8Al-30.0Mn-6.0Mo-1.1C alloy |
作者: | 楊勝裕 Sheng-Yu Yang 劉增豐 T. F. Lui 材料科學與工程學系 |
關鍵字: | 相變化;顯微組織;M2C碳化物;M6C碳化物;K碳化物;phase transformation;microstructure;M2C-carbides;M6C-carbides;K-carbides |
公開日期: | 1999 |
摘要: | 摘 要
我們利用光學顯微鏡(OM)、穿透式顯微鏡(TEM)以及X-光能量散佈儀(EDS),研究鐵-8.8鋁-30.0錳-6.0鉬-1.1碳合金的相變化。當合金在淬火狀態下,其顯微結構為單相的沃斯田鐵相。隨後此合金在500℃時效處理兩小時後,其顯微結構為沃斯田鐵相與細微的κ'相的混合。其中細微的κ'相具有L'12的結構。隨著增加時效時間,我們發現在沃斯田鐵相的κ'相沿著<100>方向成長,而並未觀察到有析出物在晶界上產生。當時效時間增加到8小時後,不但在沃斯田鐵基地的κ'相碳化物成長而且在晶界上有晶粒狀的κ相碳化物開始非均質的析出,此κ相亦為(Fe,Mn)3AlCX碳化物。為了方便起見,將κ'相和κ相分別表示形成在沃斯田鐵基地內及晶界上之(Fe,Mn)3AlCX碳化物。
當此合金在600℃時效兩小時後,在晶界上可以觀察到一個γ→α+B2+M2C+M6C的反應,此B2相在鐵鋁錳鉬碳合金中未被發現過。另外此合金在750℃時效兩小時後,在晶界上可以觀察到 一個γ→α+B2+M6C的反應,在這裡我們可以觀察到 M6C-type 碳化物存在的溫度比M2C-type碳化物還高。依據實驗的結果,我們知道當此合金在500℃到750℃範圍間做時效處理時,隨著溫度的增加在晶界上連續的相變化為γ→γ+κ-carbides→α+B2+M2C+M6C→α+B2+M6C。 Abstract Phase transformations in an Fe-8.8Al-30.0Mn-6.0Mo-1.1C alloy have been examined by means of optical microscopy (OM) transmission electron microscopy (TEM) and energy-dispersive X-ray spectrometer (EDS). When the alloy was solution heat-treated and then quenched, the microstructure of the alloy was single-phase austenite. When the alloy was aged at 500℃ for 2 hours, the microstructure of the alloy was austenite phase containing extremely fine (Fe,Mn)3AlCX carbides (κ'-carbides), The κ'-carbides having an L'12 –type structure were formed within the austenite matrix during quenching by a spinodal decomposition. With increasing aging time at 500℃, the κ'-carbides existing in the austenite matrix grew preferentially along [100] directions, but no grain boundary precipitates could by observed. When the aging time was increased to 8 hours, not only the κ'-carbides grew within the austenite matrix but also granular-shaped κ-carbides started to form heterogeneously on the γ/γ grain boundaries, the κ-carbide is also (Fe,Mn)3AlCx carbide. For convenience, the κ and κ'-carbides represent the (Fe,Mn)3AlCx carbide formed within the austenite matrix and on the grain boundaries, respectively. When the alloy was aged at 600℃ for 2 hours, a heterogeneous reaction γ→α+B2+M2C+M6C could be observed on the grain boundaries. It is noted here that the B2 phase has never been observed by other workers in the Fe-Al-Mn-Mo-C alloy. When the alloy was aged at 750℃ for 2 hours, a heterogeneous reaction γ→α+B2+M6C could be observed on the grain boundaries. It is worthy to note that the M6C-type carbide could be reserved up to a higher temperature than the M2C-type carbide. Based on the experimental result, it is seen that when the alloy was aged at temperatures ranging from 500℃ to 750℃, the phase transition sequence on the grain boundaries as the temperature increased, was found to be γ→γ+κ-carbides→α+B2+M2C+M6C→α+B2+M6C. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#NT880159009 http://hdl.handle.net/11536/65285 |
Appears in Collections: | Thesis |