Dynamic Recrystallization Behavior of Bimodal Size SiCpReinforced Mg Matrix Composite during Hot Deformation

被引：0

作者：

Cui-Ju Wang ^{[1
]}

Kun-Kun Deng ^{[1
]}

Shan-Shan Zhou ^{[1
]}

Wei Liang ^{[1
]}

机构：

[1] Shanxi Key Laboratory of Advanced Magnesium-based Materials, College of Materials Science and Engineering,Taiyuan University of Technology

来源：

ActaMetallurgicaSinica(EnglishLetters) | 2016年 / 29卷 / 06期

基金：

中国国家自然科学基金;

关键词：

Magnesium matrix composite; Deformation; Dynamic recrystallization; Microstructure; Thermodynamic analysis;

D O I：

暂无

中图分类号：

TB333 [金属－非金属复合材料];

学科分类号：

0805 ; 080502 ;

摘要：

The(submicron+micron) bimodal size Si Cp-reinforced Mg matrix composite was compressed at the temperature of 270–420 °C and strain rate of 0.001–1 s. Then, dynamic recrystallization(DRX) behavior of the composite was investigated by thermodynamic method and verified by microstructure analysis. Results illustrated that the composite possess the lower critical strain and higher DRX ratio as compared to monolithic Mg alloys during hot deformation process. The predicted DRX ratio increased with the proceeding of compression, which was well consistent with the experimental value. Results from thermodynamic calculation suggested that the occurrence of DRX could be promoted by Si Cp, which would be further proved by microstructure analysis. Formation of particle deformation zone around micron Si Cp played a significant role in promoting DRX nucleation. Nevertheless, the distribution of submicron Si Cp was increasingly uniform with the proceeding of compression, which could fully restrain grain growth. Therefore, the corporate effects of micron and submicron Si Cp on DRX contributed to the improvement of DRXed ratio and the refinement of grain size for the composite during compression process.

引用

页码：527 / 537

页数：11

共 20 条

[1] EffectsofdynamicrecrystallizationinextrudedandcompressedAZ31magnesiumalloy[J].XiaohuiFAN,WeiqinTANG,ShaoruiZHANG,DayongLIandYinghongPENGSchoolofMechanicalEngineering,ShanghaiJiaoTongUniversity,Shanghai200240,China. ActaMetallurgicaSinica(EnglishLetters).2010(05)
[2] EffectofforgingtemperatureonthemicrostructuresandmechanicalpropertiesoftheSiCp/AZ91magnesiummatrixcomposite[J].KunWU,KunkunDENG,HaiCHANG,YeweiWU,XiaoshiHUandMingyiZHENGSchoolofMaterialsScienceandEngineering,HarbinInstituteofTechnology,Harbin150001,China. ActaMetallurgicaSinica(EnglishLetters).2010(02)
[3] Microstructureandstrengtheningmechanismofbimodalsizeparticlereinforcedmagnesiummatrixcomposite[J].KunkunDeng,JuyanShi,CuijuWang,XiaojunWang,YeweiWu,KaiboNie,KunWu. CompositesPartA.2012(8)
[4] EffectofparticlesizeonmicrostructureandmechanicalpropertiesofSiCp/AZ91magnesiummatrixcomposite[J].K.K.Deng,X.J.Wang,Y.W.Wu,X.S.Hu,K.Wu,W.M.Gan. MaterialsScience&EngineeringA.2012
[5] MicrostructureandelevatedtensilepropertiesofsubmicronSiCp/AZ91magnesiummatrixcomposite[J].KunkunDeng,CuijuWang,XiaojunWang,KunWu,MingyiZheng. MaterialsandDesign.2012
[6] AnewkineticsmodelofdynamicrecrystallizationformagnesiumalloyAZ31B[J].J.Liu,Z.Cui,L.Ruan. MaterialsScience&EngineeringA.2011
[7] Microstructureevolutionandmechanicalpropertiesofaparticulatereinforcedmagnesiummatrixcompositesforgedatelevatedtemperatures[J].K.K.Deng,K.Wu,X.J.Wang,Y.W.Wu,X.S.Hu,M.Y.Zheng,W.M.Gan,H.G.Brokmeier. MaterialsScience&EngineeringA.2009(6)
[8] EffectofMg17Al12precipitatesonthemicrostructuralchangesandmechanicalpropertiesofhotcompressedAZ91magnesiumalloy[J].S.W.Xu,N.Matsumoto,S.Kamado,T.Honma,Y.Kojima. MaterialsScience&EngineeringA.2009(1)
[9] EnhancedpropertiesofMg-basednano-compositesreinforcedwithAl2O3nano-particles[J].M.Habibnejad-Korayem,R.Mahmudi,W.J.Poole. MaterialsScience&EngineeringA.2009(1)
[10] HotdeformationbehaviorofSiCp/AZ91magnesiummatrixcompositefabricatedbystircasting[J].X.J.Wang,X.S.Hu,K.Wu,K.K.Deng,W.M.Gan,C.Y.Wang,M.Y.Zheng. MaterialsScience&EngineeringA.2008(1)

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