轻质γ-TiAl金属间化合物的研究进展

γ-TiAl金属间化合物是一种新型轻质的高温结构材料，是当代航空航天工业、民用工业等领域的优秀候选高温结构材料之一，具有重要的工程化应用潜力。介绍了γ-TiAl基金属间化合物的发展过程，以及成分-组织-性能-制备关系，产业化和应用状况。特别指出，北京科技大学发展的高Nb，TiM金属间化合物为国内外TiAl基金属间化合物发展的重点方向。最后总结了TiAl基金属间化合物的国家需求和发展趋势。     

Microstructure and damping behavior of SiCp/Gr/2024Al metal matrix composites by squeeze casting technology

SiCp/Gr/2024Al metal matrix composites were processed by squeeze casting technology. The microstructure of composites was observed by SEM and TEM, and the effects of graphite particulates and SiC particulates on the damping behaviors of composites were also investigated. The results show that the microstructure of composites was dense and homogeneous, without any interfacial reactivity among reinforcement/matrix interfaces. Compared with the damping capacity of 2024Al, the damping capacity of composites was enhanced significantly by addition of SiC or graphite particulates. The main damping mechanisms of SiCo/Al composites were ascribed to the dislocation damping, and those of SiCo/Gr/2024Al were attributed to the intrinsic damping and interface damping.     

Processing and mechanical properties of SiC particulate reinforced AZ91 composites fabricated by stir casting

The influence of stirring parameters （stirring temperature, stirring speed and stirring time） on the particle distribution of 10%（volume fraction） SiC particulate reinforced AZ91 composites （SiCp/AZ91） was studied. It is found that it is necessary for 10μm SiC particulate reinforced AZ91 composites to stir the molten composites in semi-solid condition with vortex formation, or else the cluster of the reinforcements would not be eliminated. Compared with the monolithic alloy, the SiCp/AZ91 composite has higher strength, especially for yield strength, but the elongation is reduced. For the as-cast composite, the particles often segregate within the grain boundary regions. Extrusion can effectively reduce the segregation of SiC particles and improve the mechanical properties of the composite. The extrusion-induced reduction in particle size varies with extrusion temperatures and extrusion ratios. The effect of extrusion-induced reduction in particle size on the mechanical properties of the composites is not always beneficial.     

Grain size refinement of magnesium composite alloys by addition of B2O3

The high performance magnesium alloy was investigated by adding B2O3 in magnesium and magnesium alloys. Experiments include adding B2O3 in Mg, Mg-AI and Mg-RE alloys, respectively, studying the effects of B2O3 on the microstructure, were studied measuring the change of grain size and microhardness of the materials, discussing the change of grain size, morphology and distribution. The results show that adding 3% or 6%（mass fraction） B2O3 in Mg can bring twinning in Mg, adding B2O3 in Mg-Al alloys and Mg-RE alloys can refine the alloy grain size. Adding 3?O3 in Mg-6Al alloys can refine the average grain size by about 5 pro, with the average hardness increased by 13.3% （53.3-60.4 HV0.O3）; adding 6?O3 in Mg-6Al alloys can refine the average grain size by about 13 pro, with the average hardness increased by 15.8% （53.3-61.73 HV0.O3）; adding 3% and 6?O3 into Mg-6RE alloys can refine the grain size by about 5 and 9/am, respectively, with the average hardness decreased to HV0.03 64.66 and HV0.O3 57.86, respectively from HV0.03 88.57. In the Mg-6Al alloy the content of aluminum is increased, while in the Mg-6RE alloy the content of oxygen is decreased. It can be concluded that it is beneficial to develop Mg-Al-B-O particle reinforce composite alloys, and it is feasible to develop nanometer crystallization of block material by Mg-B-O-RE.     

Stirring brazing of dissimilar Al/Mg alloy without flux in air

AZ31B magnesium alloy and 2024 aluminum alloy were successfully jointed at aid of mechanical stirring with Sn-Zn-Al filler metal. The microstructure, fracture morphologies, and mechanical properties of joint were investigated. The results show that Mg-Al intermetallic compounds can be avoided by the process. But, a small quantity of porosity is found in the joint. The sheafing strength of joint interface adjacent to magnesium alloy is 35.4 MPa for formation of Mg-Sn intermetallic compounds, which is about 46 % of that of filler metal. While, the shearing strength of joint interfaces adjacent to aluminum alloy is 70.4 MPa for formation of Zn-Sn-Al solid solution, which is about 92 % of that of filler metal.     

A Master Alloy for the Spheroidisation of Needle-form Iron Compounds in Aluminium Alloys

Abstract

By use of a master alloy, Al-10% Mn-2% Ti, the long needle-form iron compounds in Al-Si, Al-Mg and Al-Zn alloys can be transformed into a spheroidal shape under normal casting conditions. After addition of the master alloy, the elongation of an Al-Si alloy containing 1.4% Fe is increased by over 80%, as compared with an alloy where the iron compounds remain in the needle-like form. The spheroidisation mechanism of the needle-form iron compounds is also considered in this paper.     

GWN751K镁合金均匀化热处理

通过OM、SEM及布氏硬度分析,研究GWN751K镁合金在不同状态下的显微组织与性能,确定该合金的双级均匀化工艺参数。结果表明:合金经过440℃、6h初级均匀化后,共晶组织开始发生分解,晶粒开始长大;经过535℃、16h热处理后,合金晶粒明显长大,但元素分布较为均匀,晶界处仅明显残留含Y化合物;均匀化处理使合金的力学性能得到改善,合金断裂强度为245MPa,屈服强度为192MPa,伸长率为12%,较铸态合金的力学性能均有所提高;合金变形抗力较铸态合金的有所增加,这种特性在450℃仍保留下来,但差别减小。     

稀土银合金显微组织观察与分析

对稀土银合金材料进行了金相观察和电子探针扫描分析以及显微硬度测定。实验结果表明,添加两种性质差交大的稀土元素可以充分发挥互补作用,改善银合金的组织与性能。含有稀土钇的银合金有较强的加工硬化效果和较好的抗高温氧化作用。稀土钇与轻稀土元素组合添加将有助于改善银合金的综合性能。     

表面扩渗Al,Zn处理对ZM5镁合金性能的影响

通过铝锌(Al,Zn)混合粉对ZM5镁合金进行了表面固态扩渗铝锌(Al,Zn)处理,在衬底形成了Mg-Al-Zn合金层.研究结果表明:Mg-Al-Zn合金层主要由Mg-Al-Zn固溶体和Mg-Al-Zn金属间化合物(Al6Mg10Zn,Al5MgllZn4)组成,该合金层不仅使ZM5镁合金表面合金层显微硬度显著提高,而且在盐水浸泡腐蚀过程中,在衬底与腐蚀介质之间起到了良好的屏障作用,从而赋予试样良好的腐蚀性能.     

Effect of equal-channel angular pressing on pitting corrosion resistance of anodized aluminum-copper alloy

The effect of equal-channel angular pressing(ECAP) on the pitting corrosion resistance of anodized Al-Cu alloy was investigated by electrochemical techniques in a solution containing 0.2 mol/L AlCl₃ and also by surface analysis. Anodizing was conducted for 20 min at 200 and 400 A/m² in a solution containing 1.53 mol/L H₂SO₄ and 0.018 5 mol/L Al₂(SO₄)₃·16H₂O at 20 °C. Anodized Al-Cu alloy was immediately dipped in boiling water for 20 min to seal the micro pores present in anodic oxide films. The time required before initiating pitting corrosion of anodized Al-Cu alloy is longer with ECAP than without, indicating that ECAP process improves the pitting corrosion resistance of anodized Al-Cu alloy. Second phase precipitates such as Si, Al-Cu-Mg and Al-Cu-Si-Fe-Mn intermetallic compounds are present in Al-Cu alloy and the size of these precipitates is greatly decreased by application of ECAP. Al-Cu-Mg intermetallic compounds are dissolved during anodization, whereas the precipitates composed of Si and Al-Cu-Si-Fe-Mn remain in anodic oxide films due to their more noble corrosion potential than Al. FE-SEM and EPMA observation reveal that the pitting corrosion of anodized Al-Cu alloy occurs preferentially around Al-Cu-Si-Fe-Mn intermetallic compounds, since the anodic oxide films are absent at the boundary between the normal oxide films and these impurity precipitates. The improvement of pitting corrosion resistance of anodized Al-Cu alloy processed by ECAP appears to be attributed to a decrease in the size of precipitates, which act as origins of pitting corrosion.     

铬酸钠对铀钛合金在氯化钠溶液中的缓蚀作用

采用失重法和电化学方法研究了铬酸钠对铀钛合金在200 mg/L氯化钠溶液中的缓蚀作用,并用X射线光电子能谱(XPS)和激光共聚焦显微镜分析铀钛合金表面氧化物成分和形貌。结果表明,铬酸钠属于阳极型钝化剂,缓蚀效率随浓度的增加而增大。但溶液温度对铬酸钠的缓蚀效率影响较大,溶液温度高于45℃时,加入100 mg/L的铬酸钠对铀钛合金具有加速腐蚀作用。XPS分析表明,铀钛合金表面形成的钝化膜中铀的氧化物存在两种形式,最外层为UO2+x,内层为UO2;加入铬酸钠后,钝化膜最外层含有UO2+x和多种铬化合物,厚度小于3 nm。     

Al-5C中间合金对AZ31镁合金的细化机理

采用粉末原位合成工艺制备Al-5C中间合金,研究Al-5C中间合金对AZ31镁合金晶粒细化的影响及细化机理。结果表明：Al-5C中间合金由α（Al）和 Al 4 C 3两相组成,Al 4 C 3颗粒的尺寸分布由烧结时间控制。Al-5C中间合金能显著地细化AZ31镁合金晶粒尺寸,当Al-5C中间合金添加量低于2%时,随着Al-5C中间合金添加量的增加,AZ31镁合金晶粒尺寸减小。晶粒细化机理是由于 Al4C3与 Mn 反应生成的Al-C-Mn 颗粒能作为初生α-Mg晶粒的异质形核基底,从而细化晶粒。     

Ag-Cu-Ti活性钎料热力学分析

在陶瓷与金属的活性钎焊连接技术中，Ag—Cu—Ti合金是研究和应用最多的钎料之一。合金组元Ti的活度是影响钎料／陶瓷界面反应的关键因素，对钎料与陶瓷的润湿性和连接能力起着重要的作用。作者借助热力学对Ag—Cu—Ti活性钎料进行了热力学分析，重点分析了Ti的热力学活度及其与组分浓度之间的关系，计算了各组分之间的相互作用参数。分析和计算结果表明，Ti的活度随着Cu含量的增加而减小，随着Ag含量的增加而增大；Ag与Ti之间存在较大的排斥作用，两者的相互作用参数为32．83kJ／mol；而Cu与Ti之间存在强烈的吸引作用，其相互作用参数为-16．14kJ／mol；Ag—Cu—Ti合金中添加某些与Cu的结合力大、与Ti的结合力小、且与合金组元不形成高熔点化合物或脆性相的合金元素，有利于提高合金中的Ti活度。     

The effect of solid diffusion surface alloying on properties of ZM5 magnesium alloy

In this research, solid diffusion process was used to form a diffusion alloying layer on the surface of ZM5 magnesium alloy to improve corrosion and wear resistance. It is shown that the solid diffusion layer was mainly composed of Mg–Al–Zn intermetallic compounds and Mg–Al–Zn solid solution transition zone that had more Zn and Al elements than untreated ZM5 magnesium substrate. The continued immersion test in 3% NaCl solution displayed that the diffusion-treated specimen had better corrosion resistance compared to the untreated ZM5 specimen. The polarization test indicated that the Mg–Al–Zn intermetallic compounds of the diffusion alloying layer were an effective corrosion barrier to decrease the corrosion rate for ZM5 magnesium alloy when exposed to 3% NaCl solutions. In addition, the microhardness values of the Mg–Al–Zn intermetallic compounds were much higher than those of the substrate and this would greatly contribute to the enhancement of wear resistance.