Influence of Two-Step Aging on Cluster Formation and Tensile Property in Al-Mg-Si Alloy

Takata Ken, Takahashi Jun, Saga Makoto, Ushioda Kohsaku, Hibino Akira, Kikuchi Masao

doi:10.2320/jinstmet.76.677

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Al-Mg-Si 合金における 2 段時効のクラスタ形成と機械的性質への影響
Al-Mg-Si ゴウキンニオケル 2ダンジコウノクラスタケイセイトキカイテキセイシツエノエイキョウ

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The change of the state of Mg-Si cluster with aging time at 303 K and 323 K after pre-aging at 363 K was studied by means of tensile test focusing on yield stress, 3DAP (3 Dimensional Atom Probe) and DSC (Differential Scanning Calorimetry) measurement. Mg-Si clusters formed during isothermal aging at the temperature of 363 K after solution treatment were different from the ones formed at the temperatures of 303 K and 323 K. During aging at 303 K and 323 K following pre-aging at 363 K, the cluster that was once formed at 363 K grew in size together with the new nucleation of another type of cluster formed at 303 K and 323 K. The increment of yield stress with aging time at 303 K and 323 K after pre-aging at 363 K was greater than the one without pre-aging at 363 K. This was considered to stem from the fact that the cluster formed during pre-aging at 363 K further grows during aging at 303 K and 323 K but at the same time the another type of cluster is supposed to newly nucleate and grow at 303 K or 323 K after pre-aging, both of which are inferred to contribute to the larger increase in yield strength.<br>

Journal

Journal of the Japan Institute of Metals and Materials

Journal of the Japan Institute of Metals and Materials 76 (12), 677-683, 2012

The Japan Institute of Metals and Materials

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