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Preparation of AZ91D magnesium alloy semi-solid billet by new strain induced melt activated method 被引量:5
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作者 姜巨福 罗守靖 邹经湘 《中国有色金属学会会刊:英文版》 EI CSCD 2006年第5期1080-1085,共6页
New strain induced melt activated (new SIMA) method for preparing AZ91D magnesium alloy semi-solid billet is introduced by applying equal channel angular extrusion into strain induced step in SIMA method, by which sem... New strain induced melt activated (new SIMA) method for preparing AZ91D magnesium alloy semi-solid billet is introduced by applying equal channel angular extrusion into strain induced step in SIMA method, by which semi-solid billet with fine spheroidal grains and average grain size of 18 μm can be prepared. Furthermore, average grain size of semi-solid billet is reduced with increasing extrusion pass of AZ91D magnesium alloy obtained in ECAE process. By using semi-solid billet prepared by new SIMA, thixoforged magazine plates component with high mechanical properties such as yield strength of 201.4 MPa, ultimate tensile strength of 321.8 MPa and elongation of 15.3%, can be obtained. 展开更多
关键词 等通道角挤压 半固体坯料 机械性能 镁合金
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Effects of pre-deformation on microstructure and tensile properties of Al-Zn-Mg-Cu alloy produced by modified strain induced melt activation 被引量:1
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作者 Behzad Mohasel AFSHARI Seyed Sajad MIRJAVADI +4 位作者 Yousef Askari DOLATABAD Mojtaba AGHAJANI Mohammad Kazem Besharati GIVI Mohammad ALIPOUR M.EMAMY 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2016年第9期2283-2295,共13页
The effects of Al-8B grain refiner on microstructure and tensile properties of an Al-12Zn-3Mg-2.5Cu alloy produced by modified strain induced melt activation process were investigated. Pre-deformation of 60% was used ... The effects of Al-8B grain refiner on microstructure and tensile properties of an Al-12Zn-3Mg-2.5Cu alloy produced by modified strain induced melt activation process were investigated. Pre-deformation of 60% was used by hot working at 300 ℃. After pre-deformation, the samples were heated to a temperature above the solidus and below the liquidus point and maintained in the isothermal conditions at three different temperatures(500, 550 and 590 ℃) for varying time(10, 20 and 40 min). It was observed that strain induced melt activation has caused the globular morphology of α(Al) grains. Microstructural study was carried out on the alloy by using optical microscope and scanning electron microscope in both unrefined and B-refined conditions. The results showed that for the desired microstructures of the alloy during SIMA process, the optimum temperature and time are 550 ℃ and 10 min, respectively. After the T6 heat treatment, the average tensile strengths increased from 278 to 585 MPa and 252 to 560 MPa for samples refined with 3.75% Al-8B before and after SIMA process, respectively. The ultimate strength of SIMA specimens is lower than that of B-refined specimens. 展开更多
关键词 aluminium alloy CASTING grain refinement strain induced melt activation semisolid processing tensile properties
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Effects of compressing and remelting in SIMA processing on semi-solid structure evolution of an Al-Zn wrought alloy 被引量:6
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作者 LIUChangming ZOUMaohua 《Rare Metals》 SCIE EI CAS CSCD 2003年第3期185-191,共7页
Structure evolution of an Al-Zn wrought alloy in remelting processing in thestrain induced melt activated (SIMA) serai-solid procedure was observed, and effects of factors, theremelting temperature, the holding time, ... Structure evolution of an Al-Zn wrought alloy in remelting processing in thestrain induced melt activated (SIMA) serai-solid procedure was observed, and effects of factors, theremelting temperature, the holding time, and the compression strain, on structures and grain sizesof the alloy were investigated. The results show that (1) the proper temperature of remelting is inthe range of 610 to 615℃; (2) the grain size in specimen with greater compression strain is smallerthan that with smaller compression strain in condition of the same remelting temperature andholding time, and the grain size in local area with great local equivalent strain is smaller thanthat with small one; (3) liquid occurs in form of cluster in matrix during remelting and itsquantity increases with remelting time increasing; liquid in specimen with great compression strainoccurs earlier than that with small one, and quantity of liquid in the center of specimen withgreater local equivalent strain is greater than that in the two ends of it; (4) distortion energyafter deforming in matrix of the alloy is the significant factor to activate melting of matrix atlocal area with great local equivalent strain. 展开更多
关键词 semi-solid structure evolution strain induced melt activated processing semi-solid remelting Al-Zn alloy
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Microstructure and mechanical properties of AZ61 magnesium alloy parts achieved by thixo-extruding semisolid billets prepared by new SIMA 被引量:13
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作者 姜巨福 王迎 +3 位作者 柳君 曲建俊 杜之明 罗守靖 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2013年第3期576-585,共10页
New strain induced melt activation(new SIMA) method was employed to prepare high-quality semisolid billet of AZ61 magnesium alloy.Optical microscopy and tensile test were used to study the microstructure and mechani... New strain induced melt activation(new SIMA) method was employed to prepare high-quality semisolid billet of AZ61 magnesium alloy.Optical microscopy and tensile test were used to study the microstructure and mechanical properties of the thixo-extruded component.The results showed that the optimal process parameters for achieving the complete filling status involved the applied pressure of 784 MPa,the pressure holding time of 90 s and the die temperature of 450 ℃.Compared to semisolid isothermal treatment,high mechanical properties such as the tensile strength of 300.5 MPa and elongation of 22% and fine microstructure were obtained in the thixo-extruded parts.With increasing the isothermal temperature and holding time,the tensile strength and elongation were increased firstly and then decreased.When the press pass was increased from 1 to 4,the tensile strength and elongation of the thixo-extruded parts were greatly enhanced and microstructure was refined obviously. 展开更多
关键词 AZ61 magnesium alloy semisolid billets new strain induced melt activation THIXO-EXTRUSION
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SIMA法处理AZ91D镁合金压缩形变及半固态等温组织的特征 被引量:17
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作者 姚亮宇 袁森 +2 位作者 王武孝 蒋百灵 唐文亭 《中国有色金属学报》 EI CAS CSCD 北大核心 2004年第4期660-664,共5页
研究了AZ91D镁合金在应变诱发熔化激活法处理过程中形变率和形变温度对组织的影响。结果表明:形变温度为280℃时,随着形变率增加,部分枝晶臂逐渐伸长,枝晶破断现象加剧;形变率为20%时,随着形变温度的提高,组织的形变方式逐渐由以枝晶断... 研究了AZ91D镁合金在应变诱发熔化激活法处理过程中形变率和形变温度对组织的影响。结果表明:形变温度为280℃时,随着形变率增加,部分枝晶臂逐渐伸长,枝晶破断现象加剧;形变率为20%时,随着形变温度的提高,组织的形变方式逐渐由以枝晶断裂为主转变为带有方向性的弯曲。AZ91D合金在580℃等温10min所获得的半固态组织,随着形变率增加,球状晶粒尺寸减小,圆整度提高;随形变温度的提高,固相颗粒的偏聚现象减轻。 展开更多
关键词 应变诱发熔化激活法 镁合金 压缩形变 半固态组织 sima
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ZA27合金在SIMA处理过程中形变量和等温温度对组织的影响 被引量:37
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作者 陈体军 郝远 +1 位作者 陆松 许广济 《金属热处理学报》 EI CSCD 2000年第1期26-31,共6页
研究了ZA2 7合金在应力诱发熔体激活法 (SIMA)处理过程中形变量和等温温度对组织的影响。结果表明 :在 2 50℃预变形时 ,随着形变量的增加 ,ZA2 7合金的原始组织由发达的树枝状晶逐渐演变为粗化的等轴晶和短树枝状晶 ;在等温处理中 ,形... 研究了ZA2 7合金在应力诱发熔体激活法 (SIMA)处理过程中形变量和等温温度对组织的影响。结果表明 :在 2 50℃预变形时 ,随着形变量的增加 ,ZA2 7合金的原始组织由发达的树枝状晶逐渐演变为粗化的等轴晶和短树枝状晶 ;在等温处理中 ,形变量越大和等温温度越高 ,初生α相逐渐形成球状颗粒 ;低温下 ,ZA2 7合金组织粒状化的原因是回复与再结晶的多边形晶界处形成低熔点Zn Al Cu三元共晶组织 ,较高温度则形成Zn Al二元共晶。 展开更多
关键词 sima 球状化组织 等温温度 锌合金 形变量
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SIMA法制备AZ91D镁合金非枝晶组织锭料 被引量:27
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作者 李元东 郝远 阎峰云 《甘肃工业大学学报》 北大核心 2002年第4期34-38,共5页
研究了利用应变诱发熔体激活法SIMA(Strain InducedMeltActivation)制备AZ91D镁合金半固态非枝晶时的组织转变过程.实验结果表明:具有树枝晶形态的AZ91D合金经20%及30%的预变形后,在半固态升温(540~580℃)或保温(570℃)过程中,其组织... 研究了利用应变诱发熔体激活法SIMA(Strain InducedMeltActivation)制备AZ91D镁合金半固态非枝晶时的组织转变过程.实验结果表明:具有树枝晶形态的AZ91D合金经20%及30%的预变形后,在半固态升温(540~580℃)或保温(570℃)过程中,其组织形貌由粗化的等轴晶及短树枝晶依次转变为小块状细晶粒→团块状→球状大晶粒.另外,在等温热处理过程中,试样内部体系寻求能量最低状态也是组织转变的一个不可忽略的因素.与未预变形的合金制备的非枝晶组织相比较,经预变形处理的试样是较好的半固态成型材料. 展开更多
关键词 sima AZ91D镁合金 非枝晶组织 锭料 应变诱发熔体激活法 半固态成形 组织演变 声像计算机通讯 AVCC
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SIMA法工艺参数对7075铝合金半固态组织的影响 被引量:4
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作者 李春晓 赵丹 +3 位作者 郑小平 田亚强 宋进英 陈连生 《热加工工艺》 CSCD 北大核心 2015年第11期22-24,32,共4页
利用应变诱发熔化激活法(SIMA)制备了7075铝合金半固态坯料。分别研究了变形程度、半固态加热温度与保温时间对7075铝合金半固态坯料显微组织的影响。结果表明:变形程度越大,再结晶形核率越高,获得的半固态固相颗粒越均匀、细小;半固态... 利用应变诱发熔化激活法(SIMA)制备了7075铝合金半固态坯料。分别研究了变形程度、半固态加热温度与保温时间对7075铝合金半固态坯料显微组织的影响。结果表明:变形程度越大,再结晶形核率越高,获得的半固态固相颗粒越均匀、细小;半固态加热温度越高,则半固态组织的固相颗粒越细小,液相率越高;当保温时间为30 min时,固相颗粒球化最好、最均匀。 展开更多
关键词 应变诱发熔化激活法(sima) 工艺参数 7075铝合金 半固态显微组织
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SIMA处理工艺参数对AZ61镁合金组织和性能的影响 被引量:3
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作者 张发云 揭小平 +1 位作者 闫洪 杨国泰 《南昌大学学报(理科版)》 CAS 北大核心 2005年第5期489-492,496,共5页
采用应变诱发熔体激活法(SIMA)制备出AZ61镁合金半固态坯料,同时对其组织演变过程进行观察,并研究预形变量和等温处理对组织及其机械性能的影响。试验样品经过0%、22%、40%的预形变量和各种加热温度处理。结果表明:在相同的等温温度条件... 采用应变诱发熔体激活法(SIMA)制备出AZ61镁合金半固态坯料,同时对其组织演变过程进行观察,并研究预形变量和等温处理对组织及其机械性能的影响。试验样品经过0%、22%、40%的预形变量和各种加热温度处理。结果表明:在相同的等温温度条件下,预形变量越大,维氏硬度也越高。具有树枝晶形态的AZ61镁合金经22%预形变量后,在加热温度为595℃、保温时间40 min条件下,可以制备出理想的AZ61镁合金半固态非枝晶组织,而未经预变形的AZ61镁合金不宜进行半固态制坯。 展开更多
关键词 应变诱发熔体激活法 镁合金 组织演变
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SIMA法处理AZ61热、冷压形变及半固态等温组织的比较研究 被引量:4
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作者 陈国平 周天瑞 +2 位作者 闫洪 张发云 刘宏 《塑性工程学报》 CAS CSCD 北大核心 2008年第1期112-117,共6页
研究镁合金AZ61在SIMA法处理过程中压缩形变条件下,冷或热形变方式、形变率以及相应的等温热处理参数等对组织的影响规律。在同等热处理条件下,进行冷或热形变方式两套实验方案比较研究。结果表明,SI-MA法中,镁合金AZ61预变形采用热变... 研究镁合金AZ61在SIMA法处理过程中压缩形变条件下,冷或热形变方式、形变率以及相应的等温热处理参数等对组织的影响规律。在同等热处理条件下,进行冷或热形变方式两套实验方案比较研究。结果表明,SI-MA法中,镁合金AZ61预变形采用热变形或冷变形均可得到细小非枝晶组织,虽演变机理不同,但在储存能趋于饱和之前,增加镁合金试样的热形变率或冷形变率,可以使热处理后非枝晶化效果和质量提高,但必须选择适当的等温热处理温度和保温时间。 展开更多
关键词 sima 镁合金 半固态组织 热压形变 冷压形变 形变率
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新SIMA法制备AZ80合金半固态坯料的组织与性能(英文) 被引量:4
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作者 姜巨福 王迎 +1 位作者 杜之明 罗守靖 《中国有色金属学会会刊:英文版》 CSCD 2012年第S2期422-427,共6页
借助新应变诱导熔化激活方法制备AZ80合金半固态坯料。在新应变诱导熔化激活方法中,首先利用等通道角挤压对铸态AZ80镁合金进行预变形,然后将预变形的AZ80镁合金进行半固态等温处理。结果表明:利用等通道角挤压能够使AZ80合金获得很好... 借助新应变诱导熔化激活方法制备AZ80合金半固态坯料。在新应变诱导熔化激活方法中,首先利用等通道角挤压对铸态AZ80镁合金进行预变形,然后将预变形的AZ80镁合金进行半固态等温处理。结果表明:利用等通道角挤压能够使AZ80合金获得很好的应变诱导效果。这是由于等通道角挤压能够使AZ80合金微观组织细化,力学性能提高。新应变诱导熔化激活方法能够制备晶粒细小且球化程度高的半固态坯料。利用新应变诱导熔化激活方法制备的半固态坯料触变锻造的零件具有高的力学性能,其屈服强度达到216.9MPa,抗拉强度达到312.4MPa,伸长率达到26%。触变成形实验结果也证明,新应变诱导熔化激活方法是一种非常理想的AZ80半固态坯料制备方法。 展开更多
关键词 AZ80镁合金 半固态坯料 新应变诱导熔化激活法 触变锻造
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Al-3%Si半固态SIMA过程的微观组织演变 被引量:4
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作者 李东成 于思荣 +1 位作者 孙国滨 张永进 《锻压技术》 CAS CSCD 北大核心 2007年第3期103-106,共4页
对Al-3%Si的SIMA(Strain Induced Melt Activation-应变诱发熔化激活)半固态成形方法的组织演变过程进行了研究,以便为铝合金部件的SIMA半固态成形提供理论指导。研究结果表明:经压缩变形后的Al-3%Si合金在保温过程中的组织经过形状大... 对Al-3%Si的SIMA(Strain Induced Melt Activation-应变诱发熔化激活)半固态成形方法的组织演变过程进行了研究,以便为铝合金部件的SIMA半固态成形提供理论指导。研究结果表明:经压缩变形后的Al-3%Si合金在保温过程中的组织经过形状大小不同的多边形晶粒、均匀的粒状组织、球化组织最后演变为粗化颗粒。压缩形变量越大,半固态等温保温后,晶粒平均等积圆直径越小,球化程度越高。但是压缩形变量超过50%后,晶粒等积圆直径变化不大。随着半固态等温保温时间的延长,晶粒平均等积圆直径逐渐增大,圆度呈增加趋势,保温60到90 min时,圆度基本趋于常数。 展开更多
关键词 半固态成形 应变诱发熔化激活 组织演变 Al—3%Si
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SIMA制备半固态LY11合金的工艺研究 被引量:1
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作者 江海涛 李淼泉 《锻压技术》 CAS CSCD 北大核心 2003年第3期37-39,共3页
研究了应变诱发熔化激活法 (SIMA)制备半固态LY11合金过程中的变形温度、变形速度、等温温度和保温时间等工艺参数对LY11合金组织演变的影响。研究结果表明 ,要获得均匀、细小的非枝晶组织 。
关键词 应变诱发熔化激活法 半固态LYll合金 非枝晶组织 sima 工艺参数 组织演变 铝合金
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新SIMA法制备铝合金3A21半固态坯料 被引量:2
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作者 朱广余 薛克敏 +1 位作者 李萍 薛传妹 《精密成形工程》 2010年第4期32-35,共4页
利用有限元模拟软件模拟不同路径下等径角挤压过程,分析材料等效应变分布情况,通过等径角挤压实验、半固态等温处理实验、金相显微镜、金相检验软件系统等实验方法和分析设备,研究铝合金3A21半固态坯料显微组织晶粒尺寸同等效应变的关系... 利用有限元模拟软件模拟不同路径下等径角挤压过程,分析材料等效应变分布情况,通过等径角挤压实验、半固态等温处理实验、金相显微镜、金相检验软件系统等实验方法和分析设备,研究铝合金3A21半固态坯料显微组织晶粒尺寸同等效应变的关系,分析不同工艺参数对晶粒等积圆直径和形状系数的影响。结果表明,随着材料经过ECAE后等效应变的增大,半固态坯料晶粒尺寸减小;随着保温时间的延长,晶粒尺寸增大、圆整度增加。 展开更多
关键词 应变诱发熔化激活法 等径角挤压 半固态坯料 等积圆直径 形状系数
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SIMA法制备半固态AM60-2Nd镁合金组织的演变 被引量:2
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作者 丁志强 苏桂花 +2 位作者 程世利 刘学然 陆展 《热加工工艺》 CSCD 北大核心 2018年第17期20-24,共5页
主要研究了等温温度和等温时间对应变诱导熔化激活法制备的半固态AM60-2Nd合金组织演变的影响。结果表明,在230℃以45%的压缩比压缩变形后,组织呈明显的纤维流线状,针状Al11)Nd3相被拉长、碎断成颗粒状不连续分布在晶界上。随着等温温... 主要研究了等温温度和等温时间对应变诱导熔化激活法制备的半固态AM60-2Nd合金组织演变的影响。结果表明,在230℃以45%的压缩比压缩变形后,组织呈明显的纤维流线状,针状Al11)Nd3相被拉长、碎断成颗粒状不连续分布在晶界上。随着等温温度的升高或等温时间的延长,固相颗粒圆整度增加,固相率减少。固相颗粒尺寸随等温温度的升高先减小后增大,随时间的延长一直增大。综合考虑,在590℃保温17~20 min或600℃保温15 min可获得最佳的半固态球状组织。在等温处理期间,呈颗粒状弥散分布的Al11Nd3相在高温下对晶界有明显的钉扎作用,通过阻碍再结晶过程以及减慢Ostwald熟化速度,获得细小的半固态球状组织。 展开更多
关键词 AM60合金 Nd元素 应变诱导熔化激活法 半固态 等温处理
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SIMA法工艺参数对6061铝合金半固态组织和性能的影响 被引量:2
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作者 谷立东 应韬 +1 位作者 曾小勤 丁文江 《铸造技术》 CAS 2018年第4期741-746,750,共7页
以15 mm的6061商业铝合金板材为原材料,采用室温镦粗为预变性方式的SIMA(应变诱导熔体激活)法制备了6061合金半固态坯料,研究了变形量和热处理工艺对半固态组织演变和性能的影响。结果表明,镦粗变形可使6061初始板材中的晶粒被打碎而细... 以15 mm的6061商业铝合金板材为原材料,采用室温镦粗为预变性方式的SIMA(应变诱导熔体激活)法制备了6061合金半固态坯料,研究了变形量和热处理工艺对半固态组织演变和性能的影响。结果表明,镦粗变形可使6061初始板材中的晶粒被打碎而细化,并储存变形能,而随变形量增加,半固态组织中固相颗粒尺寸减少、圆整度更好,当达到临界变形量33.3%后组织变化不大。提高热处理温度可以促使液相比例提高和加快晶粒圆整化进程,但也使晶粒尺寸长大的速度更快。随热处理时间延长,晶粒尺寸先减小后增大并逐渐圆整化。热处理后,6061半固态坯料的室温屈服强度比初始与墩粗后的板材低,但是伸长率得到明显提升,且屈服强度随着热处理时间的延长急剧下降。6061合金半固态坯料的最优SIMA法制备工艺参数是:变形量为33.3%,等温热处理温度为620℃,保温时间为45 min。 展开更多
关键词 6061合金 sima 半固态组织 热处理 力学性能
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Effect of compression ratio on microstructure evolution of Mg−10%Al−1%Zn−1%Si alloy prepared by SIMA process 被引量:3
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作者 Li-jie CAO Guo-rui MA +2 位作者 Chun-xia WANG Zheng-jian CHEN Jia-heng ZHANG 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2021年第9期2597-2605,共9页
A new Mg−10%Al−1%Zn−1%Si alloy with non-dendritic microstructure was prepared by strain induced melt activation(SIMA)process.The effect of compression ratio on the evolution of semisolid microstructure of the experime... A new Mg−10%Al−1%Zn−1%Si alloy with non-dendritic microstructure was prepared by strain induced melt activation(SIMA)process.The effect of compression ratio on the evolution of semisolid microstructure of the experimental alloy was investigated.The results indicate that the average size ofα-Mg grains decreases and spheroidizing tendency becomes more obvious with the compression ratios increasing from 0 to 40%.In addition,the eutectic Mg2Si phase in the Mg−10%Al−1%Zn−1%Si alloy transforms completely from the initial fishbone shape to globular shape by SIMA process.With the increasing of compression ratio,the morphology and average size of Mg2Si phases do not change obviously.The morphology modification mechanism of Mg2Si phase in Mg−10%Al−1%Zn−1%Si alloy by SIMA process was also studied. 展开更多
关键词 Mg−Al−Zn−Si alloy compression ratio microstructure evolution eutectic Mg2Si phase strain induced melt activation(sima)process
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Microstructure of AZ91D magnesium alloy semi-solid billets prepared by SIMA method from chips 被引量:1
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作者 许红雨 吉泽升 +1 位作者 胡茂良 王振宇 《中国有色金属学会会刊:英文版》 CSCD 2010年第S3期749-753,共5页
AZ91D magnesium alloy chips were adopted to prepare semi-solid billets.The chips were subjected to a series ofisothermal treatments for various holding times at 783?843 K after being compressed into billet at 523 K.Th... AZ91D magnesium alloy chips were adopted to prepare semi-solid billets.The chips were subjected to a series ofisothermal treatments for various holding times at 783?843 K after being compressed into billet at 523 K.The semi-solid microstructure of AZ91D magnesium alloy containing spherical solid particles was studied.The effects of reheating temperature and holding time on microstructures were investigated.And the semi-solid forming mechanism was discussed.The result shows that semi-solid billets with highly spheroidal and homogeneous grains can be prepared from chips by strain induced melt activation(SIMA) method.Meanwhile,it is found that increasing the heating temperature can accelerate the spheroidizing process and reduce the solid volume fraction.With the increase of the holding time,the solid particles become more globular,the grains grow slowly and the solid volume fraction slightly changes.At the same time,owing to the decrease ofinterfacial energy,the intragranular liquid phases form by the diffusion of solute atoms,the grain boundaries melt and grains separate from each other during the isothermal treatment.The grains gradually spheroidize and begin to merge with a further increase of the holding time.It is considered that the semi-solid forming process includes three stages:the recrystallization and the growth of grain stage,the semi-solid microstructure forming stage controlled by the diffusion of solute,and the spheroidization of solid particle stage controlled by the liquid-solid interface tension. 展开更多
关键词 AZ91D MAGNESIUM alloy chip strain induced melt activation(sima) SEMI-SOLID MICROSTRUCTURE evolution mechanism
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EFFECT OF PREDEFORMATION MANNER ON SEMI-SOLID STRUCTURE OF AZ61 MAGNESIUM ALLOY IN SIMA PROCESS 被引量:3
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作者 G.P. Chen T.R. Zhou H. Yan 《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2008年第3期197-204,共8页
The effect of predeformation manner, predeformation ratio and isothermal heat-treat parameter on the non-dendrite structure of AZ61 magnesium alloy in SIMA process was studied. Under coequal heat-treat condition, the ... The effect of predeformation manner, predeformation ratio and isothermal heat-treat parameter on the non-dendrite structure of AZ61 magnesium alloy in SIMA process was studied. Under coequal heat-treat condition, the impact of the hot upsetting pre- deformation on semi-solid microstructure in SIMA process was compared with that of the cold compressive predeformation. The results indicate that non-dendrite microstructure in AZ61 magnesium alloy billets can be obtained by hot or cold upsetting predeformation in SIMA process, although their mechanisms of evolution are different. Increasing hot or cold upsetting predeformation ratio can enhance the effect and quality of the non-dendrite microstructure formed before storage energy up to saturation, but the proper isothermal temperature and holding time should be selected. 展开更多
关键词 AZ61 magnesium alloy strain-induced melt activated (sima Hot and cold upsetting PREDEFORMATION Non-dendrite structure
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Microstructure of semi-solid ADC12 aluminum alloy adopting new SIMA method 被引量:4
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作者 王振宇 吉泽升 +1 位作者 孙丽鑫 许红雨 《中国有色金属学会会刊:英文版》 CSCD 2010年第S3期744-748,共5页
A semi-solid microstructure of ADC12 aluminum alloy containing spherical solid particles was studied.A new strain-induced melt activation(SIMA) process was proposed.In the treatment,chips were cut from ADC12 ingot by ... A semi-solid microstructure of ADC12 aluminum alloy containing spherical solid particles was studied.A new strain-induced melt activation(SIMA) process was proposed.In the treatment,chips were cut from ADC12 ingot by lathe machining and the plastic deformation was produced through cutting.The chips were put into a metal mold and compressed into a billet at 473 K.The microstructures of chip and billet were studied.The effect of the isothermal treatment on the semi-solid microstructure evolution of ADC12 aluminum alloy prepared by the new method was analyzed.A series of heating treatments were carried out from 823 to 838 K.The effects of heating temperature on microstructures were studied.The experimental results show the ADC12 aluminum alloy prepared by the new method can reap homogeneous and spherical grains at 828 K.The average grain size is about 82 μm.Also,the grain microstructure obtained by the present process is better than the traditional one.These results prove that the ADC12 aluminum alloy can be applied to semi-solid processing with the new SIMA method. 展开更多
关键词 ADC12 ALUMINUM alloy SEMI-SOLID MICROSTRUCTURE strain-induced melt activATION
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