钢丝增强AZ91复合材料的力学性能

为了提高AZ91镁合金的力学性能,采用浸入铸造法制备了体积分数为3.3%的不锈钢纤维增强AZ91复合材料,并在相同条件下对AZ91及其复合材料进行了热挤压处理.采用扫描电镜（SEM）和力学性能试验机分别对铸态和挤压态材料的显微组织、断口和拉伸性能进行了研究.结果表明：铸态AZ91及其复合材料的抗拉强度分别为250和240MPa.然而经过挤压后,钢丝增强AZ91镁合金的屈服强度和抗拉强度分别达到了375和428.6MPa,与挤压态AZ91和铸态AZ91复合材料相比,分别提高了50%、20%和57.6%、78.6%.同时挤压态复合材料的塑性变形量也显著提高.     

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.     

Effects of heat treatment on the microstructure and mechanical properties of ZA84 magnesium alloy

The effects of heat treatment on the microstructure and mechanical properties of ZA84 (Mg-8Zn-4Al-0.25Mn) alloy were investigated. The results indicate that the as-cast microstructure of the alloy is mainly composed of α-Mg matrix and two different morphologies of precipitates (continuous and quasi-continuous Mg32(Al,Zn)49 phases and isolated Mg5Al2Zn2 phases). After solid solution treatment at 345°C, the Mg32(Al,Zn)49 phases change from continuous and quasi-continuous net to disconnected acute angle shape,...     

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．     

Performance of Semi-solid Slurry Produced by Twin-screw Stirring Mixer and Rheo-diecasting Process of AZ91D Alloy

The microstructure of semi-solid slurry of AZ91D alloy, which was produced by twin-screw stirring mixer under the different parameters, was investigated. Rheoforming by cold chamber die casting process was performed thereafter. The results indicate that with decreasing of the barrel temperature of the mixer and the pouring temperature of molten Mg alloy, the solid fraction of semi-solid slurry increases and the size of non-den-dritic grains becomes smaller. While the shear rate increases, the solid fraction of semi-solid slurry decreases. The tensile strength and elongation of metal rheoformed by die casting are higher by about 37% and 44% respectively than those produced by conventional liquid die casting.     

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.     

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.     

Microstructure and tensile behavior of hot extruded AZ91 alloys at room temperature

AZ91 alloys were prepared by hot extrusion and its microstructure and tensile behavior at room temperature were investigated.Compared to as-cast ingot,the grain size of hot-extruded material is more refined,the intermetallic phase Mg17Al12 is broken and dispersed discontinuously.Both strenth and elongation of AZ91 are improved by hot extrusion.Tensile behavior and fracture surface of the experimental material were studied.Due to the change in microstructure,the fracture mechanism of extruded material is different from that of as-cast ingot,the latter is mainly a brittle fracture,Ductile fracture plays a role in hot-extruded AZ91 failure at room temperature.     

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。     

AZ91镁合金热挤压成形工艺的研究

通过对均匀化退火后的AZ91镁合金热挤压成形工艺试验研究,分析了热挤压成形时挤压力以及组织性能的变化规律．结果表明：挤压力随挤压温度的升高、挤压比和挤压速度的减小而下降,抗拉强度随挤压温度、挤压比和挤压速度的升高而升高,同时证明了均匀化后的AZ91镁合金具有良好的挤压成形性,其制品有较好的综合力学性能,抗拉强度σ6均在310—340MPa之间,延伸率8在10％-12％之间．     

粗镁直接熔炼AZ91D的力学性能及断口分析

为了研究粗镁直接熔炼AZ91D镁合金锭不同位置上的夹杂分布情况,对AZ91D镁合金锭的三个不同取样位置进行了拉伸及冲击试验,通过扫描电子显微镜对拉伸和冲击断口进行了组织形貌上的观察与分析.结果表明:合金锭中间部分的力学性能要明显优于两侧部分,夹杂含量相对于两侧要低; 粗镁直接熔炼的AZ91D镁合金拉伸与冲击断口形貌呈河流状,为脆性断裂.粗镁直接熔炼的合金产生的夹杂物中的主要元素为C、O、Si,并含有少量Fe、K、Ca、S、Cl、Cr等元素; 在夹杂物周围容易出现二次裂纹,夹杂物的数量和种类直接影响着合金的力学性能.     

钕对AZ91镁合金组织及机械性能的影响

采用微观分析、机械性能测试及断口分析等方法研究了钕对AZ91-Nd镁合金(w(Nd)=0,0.1%,0.3%,0.5%,1.0%,1.5%)的微观组织和机械性能的影响。结果表明:Nd以固溶和金属间化合物(A l11Nd3)的形式存在时具有细化晶粒、抑制二次β相析出、使不完全离异共晶转化为离异共晶的作用;Nd通过固溶强化、析出强化和细晶强化增加了合金强度和硬度,并改善了塑性;加入Nd后合金的断裂机制从脆性解理断裂转变为准解理断裂。     

Characterization of microstructure evolution and mechanical properties of the spray-deposited AZ31 magnesium alloy

The cylindrical billets of a Mg-3Al-1Zn (AZ31) alloy were synthesized by spray deposition processing. The microstruc-ture evolution and mechanical properties of the alloy were investigated. The results reveal that the microstructure of the AZ31 alloy is refined significantly by spray deposition processing. A homogeneous and equiaxial-grain structure with an average grain size of 17 μm is obtained. Further grain refinement with an average grain size of 5 μm is attributed to dynamic recrystallization during e...     

Gd对AZ91D-0.4%Ca-0.3%Sr镁合金低周疲劳性能的影响

通过运用控制总应变幅的方法,在应力比R=-1条件下施加拉-压载荷,测试了合金元素Gd复合添加对金属型铸造镁合金AZ91D-0.4%Ca-0.3%Sr的低周疲劳性能的影响,并利用光学电子显微镜、扫描电镜分别观察了材料在不同状态下的显微组织及低周疲劳断口特征.结果表明：Gd的添加能细化铸态AZ91D镁合金的晶粒,加入3.0%Gd可以提高镁合金的低周疲劳性能.     

稀土元素Nd在热挤压AZ61镁合金中的作用

为了确定稀土元素Nd对热挤压AZ61镁合金显微组织和力学性能的影响，利用光学显微镜对不同含Nd量的AZ61+Nd镁合金进行了显微组织观察，并通过进行位移控制的拉伸试验测定了合金的室温和高温拉伸性能.结果表明，当热挤压AZ61+Nd镁合金中的Nd含量为0.5%时，其晶粒最细，力学性能最佳；随着Nd含量的增加，热挤压AZ61+Nd镁合金的强度有所降低，而伸长率则呈现先升高后降低的变化趋势；随着实验温度的升高，热挤压AZ61+Nd镁合金的抗拉强度和屈服强度均呈降低趋势，而伸长率则呈增加趋势.     

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.     

轧制工艺对ZA35合金组织和性能的影响

为了提高ZA35合金的力学性能,采用轧制工艺制备ZA35合金板坯,利用x-射线衍射仪(XRD)、金相显微镜(OE)、扫描电子显微镜(SEM)以及能谱分析(EDS)等技术分析和检测了ZA35合金铸态、不同轧制态和热处理态的显微组织和性能.结果表明:轧制可以显著提高ZA35合金的综合力学性能,使抗拉强度提高了27.8%,硬度指标提高了36.4%,伸长率比铸态增加了近2倍.轧制使合金组织细化,初生α相增多,ε相由块状变成细小的点状弥散分布于枝晶间.轧制合金在经过365℃固溶3h和120℃时效12h热处理后合金力学性能最好,抗拉强度达到512MPa、伸长率为4.9%、硬度为HB127.     

混杂增强AZ91复合材料的制备及其显微组织和性能

采用挤压铸造方法制备了以AZ91镁合金为基体、Al2O3短纤维(Al2O3f)和石墨颗粒(Grp)混杂为增强体的复合材料。观察了不同复合材料的显微组织,测试了其力学性能,并对其摩擦磨损性能进行了研究。结果表明:用此法制备的镁基复合材料增强相分布均匀,与基体结合紧密。硬度随Grp体积分数的增加而降低,Al2O3f的加入能提高复合材料的硬度。抗拉强度和伸长率都随Grp体积分数的增加而减小。Grp体积分数增加,磨损质量损失和摩擦系数都降低。随着摩擦过程的进行,在试样表面逐渐形成一层黑色连续的润滑膜。     

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.