Precipitation and recrystallisation in Al-Mn-Zr with and without Sc

Borge Forbord; Hakon Hallem; Nils Ryum; Knut Marthinsen

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Precipitation and recrystallisation in Al-Mn-Zr with and without Sc

机译：有和没有Sc的Al-Mn-Zr中的沉淀和重结晶

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The transition elements Zr and Mn form dispersoids in aluminium alloys and are extensively used in order to control the microstructure during heat exposure, i.e. to prevent recrystallisation and strength loss after deformation hardening. Additions of Zr have, through the formation of a dense dispersion of coherent and metastable Al_3Zr-dispersoids, proved to be beneficial in many alloys. In the Al-Mn-Zr-alloy studied here, TEM-investigations of homogenised material have shown that these phases are heterogeneously distributed. However, by adding Sc a high density of small and well-dispersed Al_3(Sc, Zr)-dispersoids is obtained during homogenisation, and the Sc-containing variant consequently displays a higher recrystallisation resistance after cold rolling.

机译：过渡元素Zr和Mn在铝合金中形成分散体，并被广泛使用以控制热暴露期间的微观结构，即防止再结晶和变形硬化后的强度损失。 Zr的添加已通过形成相干且亚稳态的Al_3Zr-弥散体的致密分散体而被证明对许多合金都是有益的。在这里研究的Al-Mn-Zr合金中，均质材料的TEM研究表明，这些相是不均匀分布的。然而，通过添加Sc，在均质化过程中获得了高密度的小且分散良好的Al_3（Sc，Zr）-分散质，因此，含Sc的变体在冷轧后显示出更高的抗再结晶性。

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来源
《Materials Science and Engineering. A, Structural Materials》 |2004年第12期|p.936-939|共4页
作者
Borge Forbord; Hakon Hallem; Nils Ryum; Knut Marthinsen;
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作者单位

Department of Materials Technology, Norwegian Univerisity of Science and Technology, Trondheim, Norway;

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正文语种 eng
中图分类工程材料学;
关键词
aluminium alloys; precipitation; zirconium; scandium; dispersoids; recrystallisation;

机译：铝合金;沉淀;锆;scan;弥散体;重结晶;

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Precipitation and recrystallisation in Al-Mn-Zr with and without Sc

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