Deformation twinning induced decomposition of lamellar LPSO structure and its re-precipitation in an Mg-Zn-Y alloy

The high hardness or yield strength of an alloy is known to benefit from the presence of small-scale precipitation, whose hardening effect is extensively applied in various engineering materials. Stability of the precipitates is of critical importance in maintaining the high performance of a materia...

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Veröffentlicht in:	Scientific reports 2016-07, Vol.6 (1), p.30096-30096, Article 30096
Hauptverfasser:	Shao, X. H., Zheng, S. J., Chen, D., Jin, Q. Q., Peng, Z. Z., Ma, X. L.
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Sprache:	eng
Schlagworte:	639/301/1023/1026 639/301/930/328/2082 Alloys Decomposition Deformation Fourier transforms Humanities and Social Sciences Interfaces Mechanical properties Misfit dislocations multidisciplinary Precipitation hardening Science Spatial distribution Zinc
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creator	Shao, X. H. Zheng, S. J. Chen, D. Jin, Q. Q. Peng, Z. Z. Ma, X. L.
description	The high hardness or yield strength of an alloy is known to benefit from the presence of small-scale precipitation, whose hardening effect is extensively applied in various engineering materials. Stability of the precipitates is of critical importance in maintaining the high performance of a material under mechanical loading. The long period stacking ordered (LPSO) structures play an important role in tuning the mechanical properties of an Mg-alloy. Here, we report deformation twinning induces decomposition of lamellar LPSO structures and their re-precipitation in an Mg-Zn-Y alloy. Using atomic resolution scanning transmission electron microscopy (STEM), we directly illustrate that the misfit dislocations at the interface between the lamellar LPSO structure and the deformation twin is corresponding to the decomposition and re-precipitation of LPSO structure, owing to dislocation effects on redistribution of Zn/Y atoms. This finding demonstrates that deformation twinning could destabilize complex precipitates. An occurrence of decomposition and re-precipitation, leading to a variant spatial distribution of the precipitates under plastic loading, may significantly affect the precipitation strengthening.
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Using atomic resolution scanning transmission electron microscopy (STEM), we directly illustrate that the misfit dislocations at the interface between the lamellar LPSO structure and the deformation twin is corresponding to the decomposition and re-precipitation of LPSO structure, owing to dislocation effects on redistribution of Zn/Y atoms. This finding demonstrates that deformation twinning could destabilize complex precipitates. 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subjects	639/301/1023/1026 639/301/930/328/2082 Alloys Decomposition Deformation Fourier transforms Humanities and Social Sciences Interfaces Mechanical properties Misfit dislocations multidisciplinary Precipitation hardening Science Spatial distribution Zinc
title	Deformation twinning induced decomposition of lamellar LPSO structure and its re-precipitation in an Mg-Zn-Y alloy
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