Microstructure evolution of mg-4.3zn0-7y-0.6zr alloy during solution heat treatment

Junjie Li; Yacong Zhang; Jincheng Wang; Zhongming Zhang

doi:10.2320/matertrans.M2013378

Microstructure evolution of mg-4.3zn0-7y-0.6zr alloy during solution heat treatment

Junjie Li, Yacong Zhang, Jincheng Wang, Zhongming Zhang

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

The microstructure evolution in a Mg4-3Zn-0.7Y-0.6Zr (mass%) alloy was investigated during solution heat treatment from 300 to 500°C for 12 h. In the as-cast and solution-treated at 300°C for 12 h states, the microstructures are consisting of I-phase and α-Mg. After solution treated at 400°C for 12 h, besides I-phase and α-Mg, some long strip precipitates-which are determined as Zn₂Zr phase-, also appear in the microstructure. In the solution-treated sample at 500°C for 12 h, small amounts of Zn₂Zr and Mg_0.97Zn_0.03 phases have been found. With the increase of heat treatment temperature, the phase constituents for different states are: α-Mg + I-phase (as-cast) →α-Mg + I-phase (300°C for 12 h)→α-Mg + I-phase + W-phase + Zn2Zr (400°C for 12 h)→α-Mg + Zn2Zr + Mg _0.97Zn0.03 (500°C for 12 h).

Original language	English
Pages (from-to)	264-269
Number of pages	6
Journal	Materials Transactions
Volume	55
Issue number	2
DOIs	https://doi.org/10.2320/matertrans.M2013378
State	Published - 2014

Keywords

Magnesiumzincyttriumzirconium alloy
Microstructure evolution
Phase component
Solution treatment

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title = "Microstructure evolution of mg-4.3zn0-7y-0.6zr alloy during solution heat treatment",

abstract = "The microstructure evolution in a Mg4-3Zn-0.7Y-0.6Zr (mass%) alloy was investigated during solution heat treatment from 300 to 500°C for 12 h. In the as-cast and solution-treated at 300°C for 12 h states, the microstructures are consisting of I-phase and α-Mg. After solution treated at 400°C for 12 h, besides I-phase and α-Mg, some long strip precipitates-which are determined as Zn2Zr phase-, also appear in the microstructure. In the solution-treated sample at 500°C for 12 h, small amounts of Zn2Zr and Mg0.97Zn0.03 phases have been found. With the increase of heat treatment temperature, the phase constituents for different states are: α-Mg + I-phase (as-cast) →α-Mg + I-phase (300°C for 12 h)→α-Mg + I-phase + W-phase + Zn2Zr (400°C for 12 h)→α-Mg + Zn2Zr + Mg 0.97Zn0.03 (500°C for 12 h).",

keywords = "Magnesiumzincyttriumzirconium alloy, Microstructure evolution, Phase component, Solution treatment",

author = "Junjie Li and Yacong Zhang and Jincheng Wang and Zhongming Zhang",

year = "2014",

doi = "10.2320/matertrans.M2013378",

language = "英语",

volume = "55",

pages = "264--269",

journal = "Materials Transactions",

issn = "1345-9678",

publisher = "Japan Institute of Metals (JIM)",

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T1 - Microstructure evolution of mg-4.3zn0-7y-0.6zr alloy during solution heat treatment

AU - Li, Junjie

AU - Zhang, Yacong

AU - Wang, Jincheng

AU - Zhang, Zhongming

PY - 2014

Y1 - 2014

N2 - The microstructure evolution in a Mg4-3Zn-0.7Y-0.6Zr (mass%) alloy was investigated during solution heat treatment from 300 to 500°C for 12 h. In the as-cast and solution-treated at 300°C for 12 h states, the microstructures are consisting of I-phase and α-Mg. After solution treated at 400°C for 12 h, besides I-phase and α-Mg, some long strip precipitates-which are determined as Zn2Zr phase-, also appear in the microstructure. In the solution-treated sample at 500°C for 12 h, small amounts of Zn2Zr and Mg0.97Zn0.03 phases have been found. With the increase of heat treatment temperature, the phase constituents for different states are: α-Mg + I-phase (as-cast) →α-Mg + I-phase (300°C for 12 h)→α-Mg + I-phase + W-phase + Zn2Zr (400°C for 12 h)→α-Mg + Zn2Zr + Mg 0.97Zn0.03 (500°C for 12 h).

AB - The microstructure evolution in a Mg4-3Zn-0.7Y-0.6Zr (mass%) alloy was investigated during solution heat treatment from 300 to 500°C for 12 h. In the as-cast and solution-treated at 300°C for 12 h states, the microstructures are consisting of I-phase and α-Mg. After solution treated at 400°C for 12 h, besides I-phase and α-Mg, some long strip precipitates-which are determined as Zn2Zr phase-, also appear in the microstructure. In the solution-treated sample at 500°C for 12 h, small amounts of Zn2Zr and Mg0.97Zn0.03 phases have been found. With the increase of heat treatment temperature, the phase constituents for different states are: α-Mg + I-phase (as-cast) →α-Mg + I-phase (300°C for 12 h)→α-Mg + I-phase + W-phase + Zn2Zr (400°C for 12 h)→α-Mg + Zn2Zr + Mg 0.97Zn0.03 (500°C for 12 h).

KW - Magnesiumzincyttriumzirconium alloy

KW - Microstructure evolution

KW - Phase component

KW - Solution treatment

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U2 - 10.2320/matertrans.M2013378

DO - 10.2320/matertrans.M2013378

M3 - 文章

AN - SCOPUS:84893669516

SN - 1345-9678

VL - 55

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EP - 269

JO - Materials Transactions

JF - Materials Transactions

IS - 2

ER -

Microstructure evolution of mg-4.3zn0-7y-0.6zr alloy during solution heat treatment

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Keywords

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