High temperature formability of graphene nanoplatelets-AZ31 composites fabricated by stir-casting method

Outstanding mechanical properties of graphene nanoplatelets(GNPs)make them ideal reinforcement for mass production of composites.In this research,the composites were fabricated by stir-casting method.GNPs were added in 1.5 and 3.0 wt.%into Mg–3wt.%Al–1wt.%Zn(AZ31)magnesium alloy.As cast ingots were preheated for one hour and extruded at 350℃ with extrusion ratio of 5.2:1.As extruded AZ31-GNPs composites were micro-structurally characterized with X-ray diffraction,optical microscopy and scanning electron microscopy.Vickers microhardness of synthesized materials was investigated both in parallel and perpendicular to extrusion directions.Room temperature mechanical testing revealed that with increasing GNP’s content,tensile fracture strain was remarkably increased without significant compromise in tensile strength.Furthermore,as extruded AZ31-3GNPs composites were subjected to tensile testing at temperatures ranging from 75℃ to 300℃ with initial strain rate of 2×10^(−3)s^(−1) to evaluate high temperature formability of composite.It was found that like CNTs,GNPs also have the potential to sustain tensile strength at high temperatures.

Distribution of SiC particles in semisolid electromagnetic-mechanical stir-casting Al-SiC composite

The distribution of SiC particles in Al-SiC composite can greatly influence the mechanical performances of Al-SiC composite. To realize the homogeneous distribution of SiC particles in stir-casting Al-SiC composite, semisolid stir casting of Al-4.25 vol.%SiC composite was conducted using a special electromagneticmechanical stirring equipment made by our team, in which there are three uniformly-distributed blades with a horizontal tilt angle of 25 ° to mechanically raise the SiC particles by creating an upward movement of slurry under electromagnetic stirring. The microstructure of the as-cast Al-SiC composites was observed by Scanning Electron Mcroscopy(SEM). The volume fraction of SiC particles was measured by image analysis using the Quantimet 520 Image Processing and Analysis System. The tensile strength of the Al-4.25 vol.%SiC composites was measured by tensile testing. Results show that the Al-4.25 vol.%SiC composites with the homogeneous distrbutin of SiC particles can be obtained by the electromagnetic-mechanical stirring casting with the speed of 300 and 600 r·min-1 at 620 °C. The differences between the volume fraction of Si C particles at the top of ingot and that at the bottom are both ~0.04 vol.% with the stirring speed of 300 and 600 r·min-1, which are so small that the distribution of SiC particles can be seen as the homogeneous. The tensile strength of the Al matrix is enhanced by 51.2% due to the uniformly distributed SiC particles. The porosity of the composite mainly results from the solidification shrinkage of slurry and it is less than 0.04 vol.%.

鞍钢单绕组螺旋电磁搅拌技术研发进展

介绍了鞍钢单绕组螺旋电磁搅拌技术的自主研发进展,通过对圆锭、扁锭、大方坯、大圆坯等多物理场耦合模拟计算,结合试验研究对该技术的效果进行验证。结果表明,单绕组螺旋电磁搅拌技术有助于促进金属液在三维方向的传质传热,降低液芯的温度梯度,促进金属液同时凝固,减轻铸坯的中心疏松、偏析,铸坯、铸锭C元素的统计偏析度可以降低30%以上。

水下搅拌摩擦加工对铸态镍铝青铜空蚀行为的影响

为了进一步提高铸态镍铝青铜抗空蚀性能,采用水下搅拌摩擦加工技术对其进行表面改性。观察并测试了加工前后材料的微观组织和力学性能,对比讨论了铸态和水下搅拌摩擦加工后镍铝青铜在蒸馏水和人工海水中的空蚀行为,分析了微观组织与空蚀机理的关系。研究结果表明,水下搅拌摩擦加工后,镍铝青铜组织细化,各相分布均匀,加工区中心平均显微硬度约为400 HV,是铸态样品的2倍。在2种介质空蚀试验中,水下搅拌摩擦加工镍铝青铜累计空蚀质量损失均较低,空蚀18 h后SFSP态NAB在蒸馏水和人工海水中的质量损失分别是2.55 mg和4.85 mg,约为铸态NAB质量损失的50%和44%,具有更好的抗空蚀性能。晶粒细化和小尺寸晶粒κ相弥散强化是提高铸态镍铝青铜的抗空蚀性能的主要原因。

复合电磁搅拌对45钢连铸圆坯碳偏析的影响

以齿轮用45钢Φ210 mm连铸圆坯为研究对象,通过对比复合电磁搅拌(M+F-EMS)与单独使用结晶器电磁搅拌(M-EMS)对连铸圆坯碳偏析效果的影响,确定复合电磁搅拌参数对连铸圆坯碳偏指数的影响。结果表明:使用复合电磁搅拌比单独使用结晶器电磁搅拌的碳偏指数波动小。最佳复合电磁搅拌参数为M-EMS 2 Hz/200 A;F-EMS 8 Hz/250 A。

Effect of whisker alignment on microstructure,mechanical and thermal properties of Mg-SiC_(w)/Cu composite fabricated by a combination of casting and severe plastic deformation(SPD)

In this research,microstructure evaluation,mechanical properties and thermal conductivity of the Mg-SiC_(w)/Cu composite with laminar structure were investigated.For this purpose,SiC whiskers were added to magnesium alloy by using stir-casting,then the Mg-SiC_(w)composite was bonded to copper layers by warm accumulative roll bonding(ARB).Based on the results of optical microscopy(OM)and scanning electron microscopy(SEM),SiC whiskers were well distributed in the magnesium matrix and they were aligned parallelly when the composites were plastically deformed at higher rolling passes.Furthermore,all layers remained continuous with localized necking sites.Also,no intermetallic compounds and phases were detected by XRD and EDS analyzes.Apart from the significant effect of severe plastic deformation on mechanical properties,the findings of mechanical tests point to the usefulness of reinforcements in improving up to 60%microhardness,Young’s modulus,yield,and up to 41%tensile strengths.Further,thermal conductivities of composites increased by adding reinforcement and above all by increasing the number of rolling passes.This growth is attributed to the higher thermal diffusivity of copper and whiskers as well as the increased number of conductive layers within composite.

电磁搅拌对连铸结晶器内钢液流动的影响

为了研究电磁搅拌对连铸结晶器内钢液流动的作用效果,利用有限元数值模拟方法研究并探讨了不同电流频率、电流强度作用下的奥氏体不锈钢S30432小方坯连铸结晶器内磁感应强度、电磁力、流场以及流速的分布和变化情况。研究结果表明:电磁场的主要作用范围集中在电磁搅拌器内部区域,磁感应强度和电磁力随着电流强度的增加而增大,随着电流频率的增加先增大后减小,磁感应强度和电磁力的最大值分别出现在铸坯表面和近表面靠近磁轭的位置;电磁搅拌能够显著增强结晶器内钢液的纵向回流效果,有利于促进夹杂物浮回钢液表面,便于除气除渣净化钢液;电磁搅拌作用的施加,能够降低水口流入钢液的冲击深度,增强钢液在水平方向的流动,扩大钢液高流速区域,有利于钢液内部及表面的换热,从而,提高晶粒细化效果。

Development and Characterization of Aluminium-Based Metal Matrix Composites

Aluminum based metal matrix composites were fabricated using stir casting where silicon carbide and alumina were the reinforcements. Different types of properties (physical-density, mechanical-tensile, hardness, chemical-corrosion etc.) were measured and compared with base metals/alloys. The properties were significantly varied. The highest density was obtained for pure aluminium with 5% Al2O3 whereas the lowest was obtained for AA-4032 alloy. The highest hardness was obtained for AA-4032 with 5% Al2O3 whereas the lowest was obtained for pure Al with 5% Al2O3. The highest strength was obtained for AA-6061 with 5% coarse SiC whereas the lowest was obtained for pure Al. The highest impact strength was obtained for AA-4032 with 5% Al2O3 whereas the lowest was obtained for AA-6061. The corrosion resistance of all composites was lower than that of the base materials.

AZ31B镁合金连铸板材双道搅拌摩擦搭接焊的力学性能

对AZ31B镁合金连铸板材进行搅拌头逆时针与顺时针不同结合形式的双道搅拌摩擦搭接焊。对焊缝横截面进行了观察,测量了接头的显微硬度,对试样进行了剪切试验和断口扫描分析。结果表明:所有焊缝均有孔洞缺陷;焊核区硬度值相对较大;过渡区硬度值起伏波动较大,略低于母材硬度值;整体上试样后退侧硬度值略高于前进侧;当两道焊接的搅拌头旋转方向均为逆时针时,搭接接头承受的剪切力最大,为6.58 kN,在上板前进侧的迁移线位置发生断裂,断裂形式属于脆性断裂。

搅拌摩擦加工对压铸ADC10合金显微组织与力学性能的影响

压铸ADC10铝合金中存在多种第二相颗粒,特别是含铁相第二相会导致其延展性大幅降低,从而影响了其结构应用。通过对ADC10合金铸态组织进行适当的改性,可以提高合金的力学性能。本文研究并分析了搅拌摩擦加工(FSP)对压铸ADC10合金显微组织及力学性能的影响:搅拌摩擦加工能有效地细化合金的铸态组织,分解粗大的Si颗粒,在α-Al基体中形成了均匀细小的等轴Si颗粒。此外,搅拌摩擦加工消除了作为裂纹源的孔隙等缺陷及破碎第二相颗粒,从而提高了合金的力学性能和延展性。

IF钢板坯结晶器电磁搅拌数值模拟与工艺实践

针对高拉速IF钢铸坯夹杂与气泡缺陷封闭率偏高的问题,通过数值模拟研究了水口浸入深度和拉速对结晶器流场的影响,结果表明,在结晶器电磁搅拌电流为600 A、频率3.5 Hz工况下,随着拉速增高,自由液面活跃指数呈现先增大后减小再增大的趋势,在拉速1.05 m/min附近,最高达0.67,在1.6 m/min附近,最低达0.35,流场均匀性指数略有降低,最佳的自由液面活跃指数为0.5±0.05;当拉速低于1.0 m/min时,随着水口浸入深度的增加,自由液面活跃指数逐步增大至0.40,当拉速大于1.0 m/min时,随着水口浸入深度增加,自由液面活跃指数逐步降低,当拉速大于1.4 m/min时,随着水口浸入深度的增加,自由液面活跃指数大幅下降至0.37;IF钢结晶器电磁搅拌工艺优化后,铸坯夹杂与气泡缺陷封闭率均值下降4%,取得了显著的效果。

石墨烯增强铝基复合材料的制备方法

石墨烯因其独特的二维结构和优异的性能,成为目前铝基复合材料中最具潜力的增强体材料之一。然而石墨烯增强铝基复合材料的制备在工业生产中仍存在许多问题。本文综述了国内外各种制备方法的研究现状,重点介绍了低成本、适用于大规模工业生产的搅拌铸造法,列举了近几年的最新成果,提出了目前存在的问题及改进方法,并展望了铝基复合材料在工业生产中的应用前景。

电磁搅拌辅助流变挤压铸造Mg-6Gd-3Y镁合金的显微组织和力学性能

通过电磁搅拌制备了Mg-6Gd-3Y(VW63)稀土镁合金半固态浆料,研究了电磁搅拌工艺参数对合金半固态浆料组织的影响,探讨了半固态浆料初生相的形成机理;并对半固态浆料进行了流变挤压铸造成形,研究了压力对流变挤压铸造合金组织和性能的影响。结果表明:电磁搅拌制备VW63合金半固态浆料的最佳工艺参数为浇注温度620℃、搅拌电压350 V、搅拌频率15 Hz,VW63合金半固态浆料的初生相形成机理为枝晶熔断。当压力为120 MPa时,流变挤压铸造合金有着更好的组织与性能,平均晶粒尺寸43.57μm,其屈服强度、抗拉强度和伸长率分别为119 MPa、156 MPa和6.9%,均优于重力铸造和液态挤压铸造合金。

AZ91D镁合金搅拌摩擦焊接头组织性能研究

针对AZ91D铸造镁合金开展搅拌摩擦焊试验,研究了工艺参数对搅拌摩擦焊焊接接头性能的影响。结果表明,当转速为300 r/min、行进速度为30~95 mm/min时,可得到无缺陷焊缝;与母材相比,焊核区由较均匀的等轴晶组成,而母材中的网状β-Al_(12)Mg_(17)金属间化合物部分转变为细小弥散颗粒和长条状β-Al_(12)Mg_(17),部分溶入到α-Mg基体中;焊缝中心从上到下分别为冠状区、中心区、底部区,冠状区的水平方向硬度分布近似水平,中心区及底部区硬度分布则近似“W”型;增大转速时,焊核区的平均硬度逐渐降低,表明焊接热输入的影响大于搅拌头破碎晶粒的影响;接头拉伸试样断裂位置主要为前进侧热影响区,并且抗拉强度明显大于母材,这是因为热影响区中细小弥散的β-Al_(12)Mg_(17)相能阻碍接头断裂,从而提高接头力学性能。

Mg添加对SiO_(2)/Al-Si-Fe复合材料显微组织和力学性能的影响

利用搅拌铸造技术制备SiO_(2)增强富铁铝基复合材料,采用金相显微镜、X射线衍射仪、扫描电子显微镜、能谱仪分析复合材料微观组织和界面结构,采用布氏硬度计、电子万能试验机测量复合材料的力学性能。结果表明:Mg的存在促进SiO_(2)颗粒在基体中均匀分布,并使粗大针状铁相细化,SiO_(2)颗粒在反应过程中逐步转变为Al_(2)O_(3),加入Mg之后,原位反应产物出现了MgAl_(2)O_(4)。增强体颗粒在反应过程中破碎,细化的颗粒强化了力学性能。当Mg含量质量分数达到1.5%时复合材料的性能最优,硬度和抗拉强度分别为HB 92.1和147 MPa。

电磁搅拌作用下CoCrMo合金熔模铸件凝固细晶研究

目的研究电磁搅拌对CoCrMo合金熔模铸件晶粒尺寸的影响,解决熔模铸造CoCrMo合金铸件晶粒粗大的问题。方法将CoCrMo合金熔化后,在其凝固过程中分别施加不同工艺参数的电磁搅拌,并对其凝固后的组织进行表征分析。同时,采用有限元法对电磁搅拌在金属熔体中的电磁场和流场进行数值模拟。结果在不同的电磁搅拌参数下,CoCrMo合金铸件凝固组织出现了不同程度的细晶效果,浇道处的细晶效果优于铸件试棒处的。铸件试棒处的晶粒尺寸最小能控制在1mm以下,等轴晶率最高能提升至31%。数值模拟结果表明,在电磁搅拌过程中,铸件试棒的磁场、电流和洛伦兹力都呈周期性变化,铸件试棒内部的流速随搅拌时间的延长而增大,最后趋于稳定。结论电磁搅拌对CoCrMo合金的凝固组织产生了明显的细化效果,促进了柱状晶向等轴晶转变。电磁搅拌的时间越长,铸件凝固组织的细化效果越好,铸件厚大部位的细晶效果越显著。结合实验结果和数值模拟结果发现,在电磁搅拌过程中,熔体流动引发枝晶断裂是晶粒细化的主要原因,而电磁场促进异质形核为次要原因。

板坯二冷辊式电磁搅拌对铸坯偏析的影响

为解决铸坯中心偏析导致成形过程中存在厚度方向四分之一分层开裂、中心开裂、焊接不良等质量问题,开展了连铸电磁搅拌工艺研究。基于理论计算,优化了电磁搅拌安装位置、频率、电流等工艺参数;通过生产实践及铸坯低倍结果分析,表明电磁搅拌安装位置为三段扇形段,频率为5Hz,电流400A,工艺最优,中心偏析控制低于C类2.0级占比由40.81%提升至88.9%,因偏析导致的四分之一分层开裂、中心开裂、焊接不良等质量问题得到有效改善。

小方坯连铸机结晶器工艺参数对卷渣的影响

以165 mm×165 mm连铸小方坯结晶器为研究对象,通过大涡模拟模型,研究不同拉速、不同水口深度对结晶器内流场、液面波动、卷渣的影响,给出控制方程和边界条件;模拟研究电磁搅拌前后的流场速度分布及卷渣现象;确定了电磁搅拌前后的卷渣速率,拉速对渣相分布的影响及拉速对液位波动的影响。通过采取严格控制拉速至1.3 m/min,增大水口浸入深度至120~130 mm,选用性能合适的保护渣并适当提高其黏度等优化工艺措施,优化后10 kg铸坯夹杂物的平均质量由11.6 mg降至6.4 mg,夹杂物平均尺寸由4.41μm降至1.13μm,连铸坯内部质量得到显著改善。

灰铸铁制动鼓的热循环开裂分析及表面改性

针对重型卡车在连续刹车时频繁地冷热循环容易造成制动鼓失效开裂的问题,提出一种提高灰铸铁制动鼓抗热开裂性能的表面改性方法——搅拌摩擦焊。实验以灰铸铁(HT250)制动鼓为研究对象,采用循环淬火处理模拟制动鼓的服役工况,淬火处理时的温度为900℃,冷却方式为水冷。利用维氏硬度测试仪测量淬火前后试样的硬度变化,结合扫描电镜、能谱仪和金相显微镜表征试样的微观组织和裂纹形貌。实验结果表明:频繁的冷热循环是导致制动鼓开裂失效的主要原因,经历20次循环淬火处理后,裂纹开始在石墨与珠光体界面处萌生,且主要沿着石墨长度方向扩展,裂纹周边生成了氧化铁新生相;此外,循环淬火处理后灰铸铁的维氏硬度有所提高,但硬度分散性增大;经历相同循环淬火次数后,表面改性试样比原始试样的裂纹数量更少,且裂纹长度更短,这主要是因为表面改性后灰铸铁表面的石墨组织长宽比减小,且珠光体片层间距减小,提高了裂纹萌生和扩展的阻力,从而导致灰铸铁制动鼓的抗热开裂性能提升。

球墨铸铁焊接再制造研究进展

球墨铸铁在极端条件下会承受严重的腐蚀和磨损,造成部件的损伤失效。为了降低成本,提高球墨铸铁件的服役性能,需要对部件进行缺陷修复或表面改性以获得更优异的表面耐磨及耐蚀等性能。通过焊接的方法能够在球墨铸铁表面形成与其冶金结合良好的熔覆层或在缺陷处填充合适的金属材料,达到再制造的目的。本文对球墨铸铁焊接再制造的国内外研究情况进行了调研,总结了采用电弧焊、搅拌摩擦加工和激光焊工艺进行球墨铸铁再制造的主要研究成果,可为球墨铸铁再制造的相关研究提供指导。