Mg/Al异种材料瞬间液相过冷连接工艺研究

采用瞬间液相过冷连接工艺对AZ31镁合金和5083铝合金进行连接实验,研究保温扩散时间t2对焊缝微观组织及力学性能的影响。利用SEM,EDS,XRD和微观硬度计对接头剖面的微观组织和力学性能进行表征;在拉伸试验机上测试接头拉伸强度,利用SEM对断口形貌进行分析。研究结果表明:采用瞬间液相过冷连接工艺可以实现Mg/Al异种材料的有效连接;随着保温扩散时间t2的增加,接头的抗拉强度随之提高,当t2=30 min时,接头抗拉强度最高达到20.5 MPa;拉伸断口形貌具有明显的脆性断裂的特征,铝合金侧主要有解理面和撕裂棱组成,而镁合金侧属于典型的沿晶断裂形貌;在接头处形成MgAl,Mg2Al3,Mg0.44Al0.56和Mg17Al12金属间化合物,结合界面的微观维氏硬度最高达320。     

双级过时效工艺对7050铝合金力学性能的影响

双级过时效是优化工业化大尺寸7050铝合金锻件综合性能的有效手段。对7050铝合金锻件进行双级过时效处理,研究第二级时效时间对其组织与力学性能的影响。结果表明,随着第二级时效时间的延长,晶界处析出相逐渐粗化,并由连续分布转变为断续分布,合金的硬度、屈服强度和抗拉强度随之降低,伸长率与断裂韧性逐渐升高,并且拉伸及断裂韧性测试样品的断裂模式从沿晶断裂向韧窝型断裂转变。当第二级时效时间延长至一定程度时,合金力学性能趋于平稳。为通过双级过时效工艺调控7050铝合金锻件的综合力学性能提供了研究基础和理论指导。     

碳化物粒子尺寸对缺口试样断裂行为的影响

通过对铁素体晶粒尺寸相同、碳化物粒子尺寸不同的两种低合金钢的两种缺口试样（４ＰＢ，ＣｈａｒｐｙＶ）进行断裂试验，分析研究了碳化物粒子尺寸对缺口试样断裂行为的影响．结果表明：在缺口试样中，解理断裂的临界事件是铁素体晶粒尺寸的裂纹扩展进入相邻晶粒．铁素体晶粒尺寸决定缺口试样的低温解理断裂行为，而碳化物粒子尺寸对其几乎没有影响．在转变温度区，碳化物粒子尺寸分布通过影响材料塑性，对其缺口韧性产生较小影响，大碳化物粒子尺寸材料缺口韧性略高     

High temperature tensile properties,fracture behaviors and nanoscale precipitate variation of an Al-Zn-Mg-Cu alloy

In order to assess Al-Zn-Mg-Cu alloys as potential high temperature structural materials,the hardness,tensile properties and fracture behaviors of 7085 Al alloy were investigated at various temperatures from room temperature to 175℃.High-resolution transmission electron microscopy was used to investigate the evolutions of precipitates at different temperatures,particularly on the relationship between microstructural evolution and tensile strength.The results reveal that both the microstructure and mechanical properties of the alloy are quite sensitive to the environmental temperature.As the temperature increases,the hardness and strength decrease while the elongation and reduction of area increase.As tensile testing temperature rises,the strain hardening exponent(n) decreases due to the thermal softening effect.The fracture mode of the alloy transforms from mixture of intergranular and transgranular fracture to completely transgranular dimples when tensile testing temperature reaches 150℃.The precipitate sequence during high temperature tests is coincident with that of aging.With the increase of tensile testing temperature,the mean precipitate radius grows larger,and the distribution of grain boundary precipitates transforms from continuous to discontinuous.     

GH132合金盘材缺口对疲劳及蠕变/疲劳交互作用下的力学性能的影响

GH_(132)合金虽不具有持久缺口敏感性,但仍存在着低周疲劳的缺口敏感。蠕变/疲劳交互作用的断裂寿命曲线,无论是光滑还是缺口都具有一个最大值的“鼻子曲线”。在“鼻子”的上部合金存在缺口敏感性,而在“鼻子”的下部和“鼻子”区域,缺口试样寿命高于光滑试样寿命。本文提出涡轮盘材料的发展应在提高强度的同时,不断改善塑性,以达到“强韧化”的效果。     

全层TiAl基合金断裂机理的原位拉伸研究

通过对不同缺口类型试样的SEM原位观察分析，研究了全层TiAl基合金的断裂机理．结果表明，在整个断裂过程中：1)几乎都是穿层断裂；2)出现大量的微裂纹．全层TiAl基合金裂纹的形成、扩展有沿层和穿层两种方式，断裂方式取决于拉伸轴与层片位向之间的相应关系，当拉伸轴和层片位向近似平行时，断裂行为是穿层断裂和沿晶断裂行为，断裂过程的驱动力是拉伸应力，缺口类型只影响裂纹的起裂，而对随后的断裂几乎没有影响．     

An Experiment to Explain Depth of Cut Notch Wear of Ceramic Tools in Ni- based Super-alloy Machining

Inconel 718, a high temperature alloy, is extensive ly used in aircraft, gas engines and nuclear-power plants. It is generally known that the life of ceramic cutting tools in machining Inconel 718 is often restric ted by depth-of-cut (DOC) notch wear. In view of the number of various factors involved and the variety of tool materi als and cutting conditions available, the analysis of the DOC notch wear is very difficult. According to previous work concerning the DOC notch wear of ceramics tools, some A...     

固溶制度对Al-5.6Cu-1.7Mg-0.2Zr-0.1Sr-0.6Ti合金挤压材组织性能的影响

通过金相组织分析、扫描电子显微镜分析、X射线衍射、硬度、电导率、室温拉伸性能、断后伸长率和抗晶间腐蚀等微观组织观察及性能表征,研究了四种不同固溶制度对Al-5.6Cu-1.7Mg-0.2Zr-0.1Sr-0.6Ti合金微观组织和性能的影响。结果表明：随着固溶温度的升高,合金中的晶粒逐渐变大;当固溶温度低于520℃时,合金中的未溶相的数量和尺寸随着固溶温度的升高而减小;当固溶制度为510℃×2 h+520℃×2 h时,合金中的未溶相开始增多,合金出现轻微过烧,断后伸长率及抗晶间腐蚀性能变差,但抗拉强度最高,达到了490.14 MPa。合金的位错强度和位错贡献值随着固溶温度的升高而减小,合金中的强化效果主要来源于固溶强化和时效析出强化。合金在T6状态下,(490℃×2 h+500℃×2 h)和(500℃×2 h+510℃×2 h)两种不同固溶制度下的抗拉强度和断后伸长率等力学性能和抗晶间腐蚀性能都较优,这两种固溶制度均是适合Al-5.6Cu-1.7Mg-0.2Zr-0.1Sr-0.6Ti合金的固溶制度。     

Near-microscopic grain boundary facilitates fatigue crack propagation in a polycrystalline Al–Zn–Mg–Cu alloy

In present study, grain characteristics with sizes within 10–30 μm were fabricated from a same Al–Zn–Mg–Cu alloy, FCP behaviors of the alloys with small grain(SG alloy), medium grain(MG alloy) and large grain(LG alloy)were investigated and related fatigue fracture morphology was analyzed. With the enhancement of stress intensity factor range(ΔK), the alloy with larger grains possessed faster FCP rate, which were successively arranged as SG alloy > MG alloy > LG alloy at initial stage while...     

Synergistic effect of Al and Gd on enhancement of mechanical properties of magnesium alloys

The effect of Gd/Al ratio on the properties of as-cast Mg-Gd-Al-Zn alloys was investigated by changing the chemical composition from that of AZ61 to GZ61. At the ratio of 1, the Al2Gd phase becomes predominant and Mg17Al12 is hardly seen in the microstructure. As a potent inoculant, the Al2Gd phase resulted in intense grain refinement and enhancement of strength, ductility and toughness. For instance, the tensile strength and elongation to failure of Mg-3Gd-3Al-1Zn alloy were enhanced by ~4% and 180% compared with those of AZ61 alloy, respectively. However, at high Gd/Al ratios, the Al2Gd phase was replaced by (Mg,Al)3Gd and Mg5Gd phases and very large grain sizes were achieved, which led to poor tensile properties and the appearance of cleavage facets on the fracture surfaces. Therefore, it can be deduced that the presence of Gd and Al, in appropriate amounts to reach Gd/Al ratio of ~ 1, is required for the achievement of grain refinement, good ductility, high strength, and the appearance of ductile fracture surfaces in the Mg-Gd-Al-Zn system. Conclusively, the Mg-Gd-Al-Zn alloys can be considered as a new class of structural magnesium alloy and it is superior to both AZ (Mg-Al-Zn) and GZ (Mg-Gd-Zn) series of alloys.     

显微组织对近α钛合金BT-20疲劳裂纹扩展的影响

通过显微镜及电子背散射衍射试验对近α钛合金BT-20的篮网、双态和魏氏组织微观结构及晶粒尺寸进行测定,并采用拉伸与疲劳裂纹扩展试验进行力学性能以及裂纹扩展研究,讨论微观组织对裂纹扩展速率、路径和断口形貌的影响.结果表明,双态组织的强度和延伸率最好,魏氏组织最差;双态组织的断口为解理断裂,裂纹碰到大尺寸初生α晶粒时发生穿晶失效,形态呈直线状,从而具有较高的扩展速率;篮网和魏氏组织的断口形式为沿相界断裂,裂纹扩展路径在通过α晶粒集束边界时改变方向,路径呈曲线状,扩展速率相对较低,从而具有较好的耐裂纹性能.     

Microstructure,mechanical properties and deformation mechanisms of an Al-Mg alloy processed by the cyclical continuous expanded extrusion and drawing approach

Al-Mg alloys are an important class of non-heat treatable alloys in which Mg solute and grain size play essential role in their mechanical properties and plastic deformation behaviors.In this work,a cyclical continuous expanded extrusion and drawing(CCEED)process was proposed and implemented on an Al-3Mg alloy to introduce large plastic deformation.The results showed that the continuous expanded extrusion mainly improved the ductility,while the cold drawing enhanced the strength of the alloy.With the increased processing CCEED passes,the multi-pass cross shear deformation mechanism progressively improved the homogeneity of the hardness distributions and refined grain size.Continuous dynamic recrystallization played an important role in the grain refinement of the processed Al-3Mg alloy rods.Besides,the microstructural evolution was basically influenced by the special thermomechanical deformation conditions during the CCEED process.     

稀土Y对挤压态Mg-5Li合金组织及性能的影响

采用表面覆盖剂及氩气保护的熔炼方法制备了Mg-5Li-x Y(x=0,1,2,3,4)合金,研究了稀土元素Y对挤压态Mg-5Li合金的显微组织及力学性能的影响.研究结果表明,Mg-5Li合金中的Y元素主要是以稀土化合物Mg24Y5的形式存在于合金中;挤压变形后,合金发生了明显的动态再结晶,出现了大量的等轴晶,弥散分布的Mg24Y5相阻碍了动态再结晶过程中的晶粒长大,晶粒明显细化.挤压态Mg-5Li-3Y合金获得了优异的力学性能,其抗拉强度和断裂伸长率分别达到了231.63 MPa和9.35%,合金断裂方式主要为韧性断裂.     

稀土对Ni9铸钢低温机械性能及断口形貌的影响

着重研究了稀土对Ｎｉ９铸钢常温、低温机械性能和宏观、微观断口形貌的影响；考察了添加稀土钢和未添加稀土钢晶界裂纹倾向程度的大小．分析、讨论了低温机械性能、晶界裂纹倾向、断口形貌、夹杂物含量之间的关系．结果表明：添加稀土后．Ｎｉ９铸钢的晶界裂纹倾向明显降低，钢的常温、低温拉伸性能显著提高，并降低了钢的沿晶断裂倾向，但钢的低温冲击韧性并未得到改善．这与钢中晶界裂纹的倾向和夹杂物的含量有关．     

汽轮机高温螺栓断裂失效分析

断裂螺栓晶粒粗大,有严重的混晶现象,碳化物及其他夹杂物在晶界呈链状或团状析出,使晶界脆化、晶界结合力下降而产生沿晶裂纹,导致螺栓发生沿晶脆性断裂。另外,螺栓在检修中出现表面损伤或受较大的预紧力也是螺栓断裂的另一原因。通过对某火力发电厂汽轮机高温螺栓失效分析,认为高温螺栓断裂机理以蠕变断裂为主;根据螺栓更换及判废标准,对现行的螺栓监督检验方法的有效性进行分析。     

高强铝合金Mg偏析对晶界结合力和断裂应力的影响

提出了一个计算高强铝合金空位形成能的半径验公式Ｅｔ＝１／１６ＥＭ并用此分式和准化学方法分别计算了７０７５高强铝合金在不同时效状态下晶界的结合力的断裂应力不降百分数，结果表明：晶界结合力和晶界断裂应力随着晶界上Ｍｇ偏析深度的增加而减小。这与应力腐蚀裂纹扩展速率的实验结果相一致。     

Improvement of tensile behaviours of a γ'-Co3(Al,W) strengthened polycrystalline Co-9Al-4.5W-4.5Mo-2Ta-0.02B alloy at room-and high-temperatures by doping Ce

The microstructures and tensile behaviours of cerium (Ce) doped polycrystalline Co-9Al-4.5W-4.5Mo-2Ta-0.02B alloys (doped 0.05 and 0.2 at.% Ce) at room temperature (RT) and 600–800 °C were investigated. In-suit tensile test under SEM was conducted to understand the deformation and damage mechanisms at RT. Aged at 800 °C for 50 h, the 0.05Ce alloy consisted of a Co solid-solution matrix (γ-Co_SS) and nano-scale cuboidal γ′-Co₃(Al, W) precipitates, while for the 0.2Ce alloy, κ-Co₃(W, Mo) precipitates and γ′-depleted zone were present at the grain boundaries in addition to the γ/γ′ microstructure. The 0.05Ce alloy exhibited flow stress anomalies at 700 °C. With higher Σ1∼3 boundary fraction and cleaned-up grain boundary, the 0.05Ce alloy always showed greater strength and elongation than the 0.2 Ce alloy with the grain boundary precipitates at temperatures up to 800 °C. Doped 0.05 at.% Ce made the Co-9Al-4.5W-4.5Mo-2Ta-0.02B alloy have an excellent elongation of 6.1% at 700 °C, owing to a mixed transgranular dimple plus intergranular cleavage fracture. The slip bands transferring through the low-angle grain boundary and slipping of the γ′-Co₃(Al, W) in the 0.5Ce alloy resulted in excellent ductility of 20.4% at RT.     

Intergranular precipitation of copper-nickel alloys induced by seawater corrosion

This paper presents the observed grain boundary structure of Cu：Ni 70：30 alloy tubes before and after exposure to seawater. The results show that the thin platelet precipitates along grain boundaries of the alloys nucleated in the process of heat treatment and coarsened when they were exposed to seawater, indicating that the coarsening was induced by seawater corrosion. The diffraction image of the precipitate is fringe structure and possessed its own wave lengths. The fine scale structure is susceptible to intergranular corrosion, which could be confirmed by corrosion morphology observation of specimens after a long-time seawater exposure. The experiments were carried out by means of scanning electron microscopy （SEM）, transmission electron microscopy （TEM）, optical metallography （OM） and tensile testing etc., detecting corrosion morphology, microstructure and the mechanical property change due to the precipitation coarsening induced at grain boundaries of the specimens during exposure in seawater.     

低频电磁场频率对半连铸高强Al合金组织结构的影响

利用光学显微镜和透射电镜研究了在低频电磁场作用下,电磁场频率对半连铸直径100mm铝合金铸锭显微组织结构的影响·结果表明:与常规铸锭相比,当电流为100A,频率为15Hz时,晶粒尺寸有所减小,并且等轴晶数目增多·当频率增到25Hz时,晶粒细化最明显·随频率继续增大,晶粒尺寸又有所增大;在电流为100A,电磁场频率为25Hz时,晶内位错密度较高,沉淀相尺寸较小,析出相主要为颗粒状的η′,η相和小片状的T相,此时晶界两侧无析出带宽度为100nm左右;当电磁场频率为15Hz时,晶内沉淀相尺寸有所增大,析出相主要为片状和长板条状的η相、片状的T相和颗粒状的η′相,晶界两侧无析出带宽度增到300nm左右...     

Effects of heat treatment on microstructure and mechanical properties of SLMed Sc-modified AlSi10Mg alloy

The influence of heat treatments on the microstructures and mechanical properties of the selective laser melting manufactured AlSi10Mg alloy modified with Sc was systematically investigated. The results showed that the addition of Sc element introduced primary Al₃Sc, which increased the heterogeneous nucleation during the solidification of AlSi10Mg alloy, and then the ultrafine network eutectic structure was obtained, and hence the tensile strength was improved significantly (nearly 23 ​%). During the heat treatment process, the network eutectic structure transformed from continuous to discontinuous, and the grain refinement was weakened with an increasing heating temperature, both of which affected the mechanical properties of the Sc modified AlSi10Mg alloy. The tensile strength decreased from 438 ​± ​10 ​MPa for the Sc-modified alloy to 208 ​± ​6 ​MPa, while the fracture strain significantly increased from 6 ​± ​0.2 ​% to 30.2 ​± ​1.2 ​% when the Sc-modified alloy was heat-treated at 325 ​°C for 12 ​h. It has been found that the desirable microstructure and mechanical properties of SLM Sc-modified AlSi10Mg alloy can be realized by controlling the heat treatment process parameters.