MgCO_3对AZ31镁合金晶粒的细化

研究了MgCO3对AZ31镁合金凝固组织的影响。结果表明:随着MgCO3的增加,合金中的β-Mg17Al12相由晶内分布变为晶间分布。在AZ31中添加0.6%的MgCO3,于760℃时保温10min,细化效果最佳。α-Mg晶粒的尺寸由基体合金的570μm降至100μm,降低幅度约为82.5%,抗拉强度提高了57.9%,延伸率约提高了11.1%。通过能谱分析,结合能计算及自由能计算证实,细化机理是MgCO3反应后生成的部分Al4C3质点作为异质核心细化晶粒。多余的Al4C3质点钉扎晶界阻碍晶粒长大。Al元素随固/液界面前沿被快速推至晶界,生成沿晶界生长的β-Mg17Al12相,起到进一步固定晶界的作用。合金元素的分布均有改变。     

The Role of Calcium in Microstructural Refinement of AZ91 Magnesium Alloy

The effect of calcium addition on the microstructures of AZ91 magnesium alloy was investigated. It was found that a small amount of calcium in AZ91 allay produced a large decrease in the α- Mg grain size and the dispersed fine β-Mgt7 Alt2 phases. In addition, some Al4Ca particles were found to exist in the AZ91 alloy containing 0.5wt% Ca. EDS analysis and water-quenched technique revealed that the grain-refining mechanism of calcium for the AZ91 alloys was mainly attributed to the role of restricting growth of calcium in the primary α-Mg crystals.     

Refinement role of electromagnetic stirring and calcium in AZ91 magnesium alloy

Effects of calcium addition and electromagnetic stirring on the microstructure of AZ91 magnesium alloy and refinement mechanism were investigated. The results show that calcium addition ranging from 0.1wt% to 0.3 wt% does not lead to formation of any new phases but cause the refinement of ascast microstructure.However, combined calcium alloying and electromagnetic stirring significantly decrease the grain size, change the morphologies of the β-Mg17Al12 phases,and reduce their volume percentage. The minimum grain size of AZ91 alloy is obtained in the case of the addition of 0.2 wt%Ca with exciting voltage of 100 V. The microstructural refinement is attributed to the increase of the degree of undercooling and nucleation temperature of primary α-Mg phases on the basis of DTA analysis results.     

Influence of electromagnetic stirring on microstructure of AZ91-0.8%Ce magnesium alloy

1 INTRODUCTION In recent years, magnesium alloys have been used in the automobile industry to save fuel and lower emission levels, and about 60 different types of components of magnesium alloys have been applied in automobile parts, in which AZ91magnesium alloy (Mg-Al system) approximately accounts for 90%[1?4]. It is well known that grain size has very important effect on material properties. According to Hall-Petch equation, when grain size decreases, the mechanical properties such as…     

离心铸造对AZ91镁合金组织及力学性能的影响

为了研究卧式离心铸造工艺对AZ91镁合金力学性能及显微组织的影响,采用卧式离心铸造方法制备外径为400 mm、厚度为20 mm且长度为1 000 mm的AZ91镁合金管材,并对离心铸造态与自然凝固态AZ91镁合金管材的微观组织及力学性能分别进行了观察与测试.结果表明,离心铸造态AZ91镁合金管材的抗拉强度和伸长率分别为158 MPa和3.4%,与自然凝固态管材相比分别提高了20%和89%.离心铸造态镁合金管材的微观组织得到明显细化.与自然凝固态AZ91镁合金管材相比,离心铸造态AZ91镁合金管材在凝固过程中的共晶转变在很大程度上受到抑制,并形成了以α-Mg为主相的组织.卧式离心铸造方法提高了AZ91镁合金的综合力学性能,并使合金的组织得到细化.     

钙和碳变质对AZ91D显微组织与性能的影响

镁合金的晶粒细化对于材质的金相组织和力学性能起着决定性作用．本课题通过在AZ91D中加入Ca和C2Cl6晶粒细化剂,分别研究了Ca,C对AZ91D组织以及力学性能的影响．利用熔剂保护法,制备了AZ91D标准拉伸试样,经过T4,T6处理后,采用金相显微镜（Olympus）、扫面电镜（SEM）和能谱分析仪（EDAX）对制备的试样进行了显微组织、断口形貌及成分进行了观察与分析,并测试了抗拉强度和布氏硬度．试验结果表明：经过显微组织和断口形貌观察,加入细化剂后形成Al4C3,有效的抑制了晶粒的长大,使晶粒得到细化,当Ca和C2Cl6复合应用时,使得AZ91D的晶粒细化更加明显,力学性能得到提高,抗拉强度最高达到216N／mm^2,布氏硬度值达到60HB．     

Microstructural formation of semi-solid AZ91D alloy stirred by electromagnetic field

With the help of an electromagnetic stirring device, alloy melt quenching and EBSD (electron back scatter diffraction)analysis technology, the microstructure of the semi-solid AZ91D magnesium alloy slurry stirred by rotational electromagnetic field under different stirring power conditions has been studied. The results show that the size of primary α-Mg phase is reduced obviously when the solidifying alloy melt is stirred by rotational electromagnetic field, moreover, the primary α-Mg grains are changed to fine rosette grains or spherical grains which are proved to belong to the different grains in three-dimension by the EBSD analysis technology. The results also show that the stirring power is an important processing parameter in the preparation of the semi-solid AZ91D magnesium alloy slurry. The larger the stirring power, the finer the primary α-Mg grains, the less the rosette primary α-Mg grains, and the more the spherical primary α-Mg grains. Theoretical analysis indicates that a stronger flow motion leads to a more even temperature field and solute field and a stronger man-made temperature fluctuation in the alloy melt so that the specially fine rosette and/or spherical primary α-Mg grains are formed in the semi-solid AZ91D magnesium alloy slurry.     

Effects of ultrasonic field on microstructures and properties of semi-solid AZ91D magnesium alloy

The microstructure distribution rule of semi-solid AZ91D alloy treated by ultrasonic was researched, and mechanical properies of specimens before and after ultrasonic treatment were investigated further.Semi-solid AZ91D melt specimens were processed by ultrasonic under different powers, and its microstructures and mechanical properties at different sampling points in specimens were obtained. The experimental results show that the microstructure of AZ91D alloy at different sampling points under the same ultrasonic power is different in grain size and shape, and there is also great difference among their microstructures at the same sampling point under different ultrasonic powers. AZ91D alloy treated by ultrasonic can obtain increment in both tensile strength and plasticity. Under same ultrasonic power, mechanical properties of specimen at different sampling points have obvious difference, and regularity for change of mechanical properties everywhere is similar to regularity for change of grain size and shape everywhere.     

Ce改性AZ91的微弧氧化膜制备及其耐蚀性能

利用交流恒压微弧氧化技术, 通过Ce改性镁合金基体制备高耐蚀微弧氧化膜. 在100、120和 140 V的外加电压下, 对3种试样: AZ91, 质量分数w(Ce) 分别为0.92%和1.80%改性的AZ91微弧氧化过程、微观结构和组成及氧化膜的耐蚀性能进行研究. 应用电子扫描显微镜(SEM), 电子能谱（EDS）和X射线衍射（XRD）等表征氧化膜的微观结构和化学组成. 利用稳态极化曲线和电化学阻抗谱（EIS）测试了氧化膜在质量分数w(NaCl)为3.5%的溶液中的腐蚀过程. 实验结果表明氧化膜成膜过程可以分为3个阶段; 氧化膜主要由MgO组成, 镁合金中的稀土元素Ce促进成膜过程, 增加膜层的致密性; 稀土改性后镁合金氧化膜的耐蚀性比镁合金基体提高4个数量级, 腐蚀电流密度低至10^-8 A/cm2．     

T4处理后AZ91镁合金焊接接头组织演变规律

为了明确固溶(T4)处理工艺参数对AZ91镁合金焊接接头组织演变规律的影响,需要进行T4处理优化设计,确定最佳热处理工艺.热处理后分别采用光学显微镜、扫描电子显微镜和拉伸试验机对焊接接头的显微组织和力学性能进行分析.结果表明,T4处理可以改变接头的组织形态,影响第二相β-Mg17Al12的位置,增大晶粒尺寸,特别是粗晶区;较为合理的T4参数可以提高抗拉强度,提高塑性,降低硬度;AZ91镁合金固溶处理的最佳工艺条件为420℃×15 h,抗拉强度为274.28 MPa.     

Effects of rare earth elements on the microstructure and properties of magnesium alloy AZ91D

The effects of rare earth elements on the microstructure and properties of Magnesium alloy AZ91D alloy were studied.The different proportion of rare earth elements was added to the AZ91D and the tensile tests were carried out at different temperatures.The experimental results show that at room temperature or at 120℃ the AZ91D‘s decrease with the increasing amount of the rare earth elements.however,the ductility is improved.The influence of 0.14%Sb(mass fraction)on the AZ91D‘s strength is like that of rare earth elements(0.2%-0.4%)(mass fraction).Microstructure graphs demonstrate that appropriate amount of rare earth elements (0.1%-0.2%) can fine AZ91D‘s grain and improve its ductility.     

Corrosion behavior of amorphous/nanocrystalline Al-Cr-Fe film deposited by double glow plasmas technique

In order to improve the corrosion resistance of AZ31 magnesium alloy, the amorphous/nanocrystal Al-Cr-Fe film has been successfully prepared on AZ31 magnesium alloy by double glow plasma technology. The amorphous/nanocrystalline consists of two different regions, i.e., an amorphous layer on outmost surface and an underlying lamellar nanocrystalline layer with a grain size of less than 10 nm. The corrosion behavior of amorphous/nanocrystalline Al-Cr-Fe film in 3.5% NaCl solution is investigated using an electrochemical polarization measurement. Compared with the AZ31 magnesium alloy, the amorphous/nanocrystalline Al-Cr-Fe film exhibits more positive corrosion potentials and lower corrosion current densities than that of AZ31 magnesium alloy. XPS measurement reveals that the passive film formed on the Al-Cr-Fe film after the anodic polarization tests is strongly enriched in Cr₂O₃, Fe₂O₃ and Al₂O₃ at outer surface of the film and in the inner layer consists of Cr₂O₃, FeO and Al₂O₃. Supported by the National Natural Science Foundation of China (Grant Nos. 50571045 and 50704022) and the Natural Science Foundation of Jiangsu Province, China (Grant No. BK2007591)     

Y和Ce对AZ91D镁合金显微组织和力学性能的影响

为了开发低成本、高强度、耐高温的新型镁合金,研究了微量Y、Ce对AZ91D镁合金显微组织和力学性能的影响。研究结果表明:Y和Ce复合加入AZ91D镁合金,能明显细化组织晶粒,从而改善合金在室温和高温下的力学性能。当加入0.6%Ce-0.3%Y(质量分数)时,合金晶粒细化效果较好,其室温和高温力学性能比较理想。     

不锈钢丝增强AZ91镁合金复合材料的显微组织及其力学性能

采用渗流铸造法制备了体积分数约为40%、60%、80%的不锈钢丝增强AZ91镁合金复合材料.利用万能试验机对其进行压缩实验;并利用扫描电镜观察复合材料的显微组织以及压缩后的断口形貌.结果表明:不锈钢丝在AZ91镁合金基体中的分布随着其体积分数的增加逐步均匀;不锈钢丝与AZ91镁合金界面润湿性较好.压缩试验表明:复合材料的抗压强度较AZ91镁合金抗压强度明显提高,40%、60%、80%体积分数的复合材料断裂强度分别为371、387、553 MPa;随着不锈钢丝体积分数的增加,材料的破坏方式由剪切破坏转变为劈裂.     

AZ91D镁合金半固态加工技术研究进展

半固态加工技术包括半固态浆料或坯料的制备和成形工艺,已经广泛应用于镁合金的加工.AZ91D是镁合金半固态研究及工业应用中最成功的一种镁合金,文中介绍了半固态加工技术及其特点,综述了近年来AZ91D镁合金半固态加工技术的研究现状与进展,包括半固态镁合金的微观组织、成形工艺及其成形件的性能,指出了镁合金半固态加工技术存在的...     

轧制对AZ31/AZ91焊接接头组织及扩散的影响

为了理解异种镁合金焊接接头显微组织的变化规律,采用TIG焊接方法制备了AZ31/AZ91焊接接头,研究了轧制变形及热处理对AZ31/AZ91焊接接头显微组织及扩散系数的影响.结果表明,随着轧制变形量的增加,AZ31/AZ91熔合区的晶粒细化程度增大,但在随后的420℃×8 h固溶处理过程中,由于再结晶充分,因此晶粒逐渐变大.在420℃×2 h固溶处理过程中,Al的扩散系数随轧制变形量的增加而增大;在420℃×8 h固溶处理条件下,Al的扩散系数随轧制变形量的增加而减小.相同轧制变形量下,Al的扩散系数随着保温时间的增加而减小.     

晶粒大小对AZ31镁合金绝热剪切敏感性的影响

为了研究晶粒尺寸对镁合金绝热剪切敏感性的影响,采用等通道转角挤压(ECAP)技术对AZ31镁合金进行了不同程度的晶粒细化并采用分离式Hopkinson压杆对细化后的AZ31镁合金试样进行了动态剪切试验.采用光学显微镜、扫描电子显微镜、透射电子显微镜和维氏硬度计,分别对冲击压缩后的AZ31镁合金试样进行了组织观察和硬度测试.结果表明,晶粒越小,AZ31镁合金的绝热剪切敏感性越弱.在对绝热剪切带及其周围组织进行维氏硬度测量时发现,剪切带内细小晶粒区的硬度明显高于其周围组织的硬度.     

异步SLSU对AZ31镁合金板材组织和性能的影响

主要研究了异步轧制对AZ31镁合金板材的金相组织和性能的影响，以探讨提高AZ31镁合金板材塑性变形能力的途径。结果表明，由于异步轧制时板材的变形量比常规轧制时的要大，其动态再结晶进行的比较完全，因此异步轧制有利于AZ31镁舍金板材晶粒的细化与均匀化；并且改变异步轧制的工艺条件，能够在一定程度上改善镁舍金板材中的金相显微组织和板材中的{0001}基面织构取向，使织构得到软化，显著提高AZ31镁合金板材的伸长率，轧向和横向都大约提高了33％，这说明异步轧制可以提高镁合金的塑性变形能力以及二次成形性能。     

异步轧制对AZ31镁合金板材组织和性能的影响

主要研究了异步轧制对AZ31镁合金板材的金相组织和性能的影响,以探讨提高AZ31镁合金板材塑性变形能力的途径。结果表明,由于异步轧制时板材的变形量比常规轧制时的要大,其动态再结晶进行的比较完全,因此异步轧制有利于AZ31镁合金板材晶粒的细化与均匀化;并且改变异步轧制的工艺条件,能够在一定程度上改善镁合金板材中的金相显微组织和板材中的{0001}基面织构取向,使织构得到软化,显著提高AZ31镁合金板材的伸长率,轧向和横向都大约提高了33%,这说明异步轧制可以提高镁合金的塑性变形能力以及二次成形性能。     

退火处理对单道次轧制镁合金薄板组织的影响

变形镁合金因其优越的性能越来越受到国内外研究者的重视。采用单道次轧制的方法轧制出厚度为0.4 mm的AZ31镁合金薄板。对轧制后的薄板在不同温度、不同保温时间下进行退火处理,分析薄板在不同退火条件下的微观组织变化。结果表明:薄板经退火处理后组织变得更加细小均匀,平均晶粒尺寸为5μm。退火温度和保温时间共同影响着薄板的晶粒度,在320℃退火并保温80 min时平均晶粒度最小,仅有4.02μm。