2Mg6Zn3顆粒彌散分布于基體中。晶粒細(xì)化是劇烈塑性變形、動(dòng)態(tài)再結(jié)晶和細(xì)小彌散的Ca2Mg6Zn3相共同作用的結(jié)果。ECAP變形使合金的力學(xué)性能顯著提高,2道次有最高的抗拉強(qiáng)度和延伸率,分別為275MPa和17%。隨著ECAP變形道次的增加,織構(gòu)強(qiáng)度逐漸減弱,基面織構(gòu)逐漸轉(zhuǎn)變?yōu)橐环N新的織構(gòu),并且ECAP變形合金有較高的非基面施密特因子,組織均勻細(xì)化,使得材料有更好的延伸率。"/>

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超細(xì)晶Mg-2.5Zn-1Ca合金制備及其組織性能研究
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作者單位:

蘭州理工大學(xué)材料科學(xué)與工程學(xué)院 甘肅 蘭州

作者簡(jiǎn)介:

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中圖分類(lèi)號(hào):

TG379

基金項(xiàng)目:

蘭州理工大學(xué)紅柳一流學(xué)科建設(shè)計(jì)劃項(xiàng)目


Preparation of High-strength, High-plasticity and Ultra-fine-grained Mg-2.5Zn-1Ca Magnesium Alloy and Research on Its Microstructure and Properties
Author:
Affiliation:

School of Material Science and Engineering,Lanzhou University of Technology

Fund Project:

Program for Hongliu First-Class Discipline Con‐ struction Plan of Lanzhou University of Technology

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    摘要:

    本文通過(guò)擠壓+等通道轉(zhuǎn)角擠壓(ECAP)復(fù)合加工工藝制備了超細(xì)晶Mg-2.5Zn-1Ca合金,采用OM、SEM、XRD、EBSD等手段分析變形過(guò)程中微觀結(jié)構(gòu)演變特征,結(jié)合力學(xué)性能變化,研究變形過(guò)程中合金強(qiáng)化機(jī)理。結(jié)果表明,經(jīng)擠壓+ECAP變形后,晶粒與第二相顆粒明顯細(xì)化,其中擠壓+2道次ECAP后獲得了均勻的細(xì)晶組織,平均晶粒尺寸約1.1μm;同時(shí),細(xì)小的Ca2Mg6Zn3顆粒彌散分布于基體中。晶粒細(xì)化是劇烈塑性變形、動(dòng)態(tài)再結(jié)晶和細(xì)小彌散的Ca2Mg6Zn3相共同作用的結(jié)果。ECAP變形使合金的力學(xué)性能顯著提高,2道次有最高的抗拉強(qiáng)度和延伸率,分別為275MPa和17%。隨著ECAP變形道次的增加,織構(gòu)強(qiáng)度逐漸減弱,基面織構(gòu)逐漸轉(zhuǎn)變?yōu)橐环N新的織構(gòu),并且ECAP變形合金有較高的非基面施密特因子,組織均勻細(xì)化,使得材料有更好的延伸率。

    Abstract:

    In this paper, an ultra-fine-grained Mg-2.5Zn-1Ca alloy was prepared by extrusion + equal channel angular extrusion (ECAP) composite processing technology. The microstructure evolution characteristics during the deformation process were analyzed by OM, SEM, XRD, EBSD etc., combined with mechanics performance changes, study alloy strengthening mechanism during deformation. The results show that after extrusion + ECAP deformation, the grains and the second phase grains are significantly refined, and the uniform fine grain structure is obtained after extrusion + 2 passes ECAP, with an average grain size of about 1.1μm; At the same time, the fine Ca2Mg6Zn3 particles are dispersed distributed in the matrix. The grain refinement is the result of the combined effect of severe plastic deformation, dynamic recrystallization, and the finely dispersed Ca2Mg6Zn3 phases. ECAP deformation significantly improves the mechanical properties of the alloy. The two passes have the highest tensile strength and elongation, which are 275MPa and 17% respectively. With the increase of ECAP deformation passes, the texture strength gradually weakens, and the basal texture gradually changes into a new texture. Moreover, ECAP deformation alloy has higher non-basal Schmid factor, and the microstructure is uniformly refined, which makes the material have better elongation.

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引用本文

丁雨田,雷健,張鴻飛,沈悅,李瑞民,高鈺璧,陳建軍.超細(xì)晶Mg-2.5Zn-1Ca合金制備及其組織性能研究[J].稀有金屬材料與工程,2022,51(6):2175~2184.[Ding Yutian, Lei Jian, Zhang Hongfei, Shen Yue, Li Ruimin, Gao Yubi, Chen Jianjun. Preparation of High-strength, High-plasticity and Ultra-fine-grained Mg-2.5Zn-1Ca Magnesium Alloy and Research on Its Microstructure and Properties[J]. Rare Metal Materials and Engineering,2022,51(6):2175~2184.]
DOI:10.12442/j. issn.1002-185X.20210439

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  • 收稿日期:2021-05-17
  • 最后修改日期:2021-06-17
  • 錄用日期:2021-07-12
  • 在線發(fā)布日期: 2022-07-06
  • 出版日期: 2022-06-29