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Al-Zn-Mg-Cu aluminium alloys

1. 奈米尺度析出物:

Revised Fig_edited.jpg

Ref: Tsai-Fu Chung, Y.-L. Yang, B.-M. Huang, Z. Shi, J. Lin, T. Ohmura, J.-R. Yang, Transmission electron microscopy investigation of separated nucleation and in-situ nucleation in AA7050 aluminium alloy, Acta Mater. 149 (2018) 377-387.

2. 析出物晶體結構鑑定:

最常見成長於(1 -1  1)鋁合金基地平面之析出物: GPII zone、η' precipitate和η2 precipitate,若由析出物的尺寸大小來鑑定,往往會造成誤判。而本研究藉由析出物與鋁合金基地方位關係(orientation relationship)之不同準確鑑定析出物晶體結構。

Revised Fig_edited.jpg

Ref: Tsai-Fu Chung, Y.-L. Yang, B.-M. Huang, Z. Shi, J. Lin, T. Ohmura, J.-R. Yang, Transmission electron microscopy investigation of separated nucleation and in-situ nucleation in AA7050 aluminium alloy, Acta Mater. 149 (2018) 377-387.

3. 析出物相互之間相變態轉換機制:

HRTEM易誘發原子位移特性,捕捉瞬間奈米級析出物成核成長過程,進一步釐清GPII zone → η' precipitate 和 η' precipitate → η2 precipitate 相變態轉換機制。​

2.1 相同位置下,不同時間點之HRTEM觀察GPII zones溶解且於不同位置上相轉換為η' precipitate,稱此相變態轉換機制separated nucleation

1_edited.jpg

2.2 HRTEM與快速傅立葉轉換之繞射圖譜鑑定,其同時擁有兩種析出物結構,證實η' precipitate → η2 precipitate 相變態轉換為in-situ nucleation機制。

1_edited.jpg

Ref: Tsai-Fu Chung, Y.-L. Yang, B.-M. Huang, Z. Shi, J. Lin, T. Ohmura, J.-R. Yang, Transmission electron microscopy investigation of separated nucleation and in-situ nucleation in AA7050 aluminium alloy, Acta Mater. 149 (2018) 377-387.

4. η precipitate三維方向上的原子排列結構:

η precipitate (more than 13 types, η1-η13)與基地擁有不同方位關係(orientation relatipnship)特性下。順沿[1 0 -1 0]η2和[1 1 -2 0]η2晶軸方向,可觀察到sandwiched和zig-zag原子排列結構。另外,順沿[0 0 0 1]η4晶軸方向,可觀察到six-fold原子排列結構。

Graphical abstract-green_edited.jpg

(Ref: Tsai-Fu Chung Y.-L. Yang, M. Shiojiri, C.-N. Hsiao, W.-C. Li, C.-S. Tsao, Z. Shi, J. Lin, J.-R. Yang, An atomic scale structural investigation of nanometre-sized η precipitates in the 7050 aluminium alloy, Acta Mater. 174 (2019) 351-368.)

第一原理模型建構下,單一顆η precipitate之不同HCP晶體方位下觀察,即[0001]η、[1 0 -1 0]η和[1 1 -2 0]η晶軸方向,呈現不同原子排列結構。

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