奥氏体型高温合金弯曲晶界普遍性的研究

对不同合金化程度的GH151,GH37,GH33镍基高温合金和GH36,GH69铁基高温合金,采用固溶后缓冷工艺或固溶后等温工艺处理,结果表明:均可形成弯曲晶界。同时发现形成弯晶的机制不仅与热处理工艺有关,并与合金成份有关。     

放电等离子烧结Al20Cr20Fe25Ni25Mn10高熵合金的硬度和腐蚀性能研究

采用放电等离子烧结(SPS)技术在不同温度（800、900和200°C）下保温不同时间（4、8和12 min）合成了Al₂₀Cr₂₀Fe₂₅Ni₂₅Mn₁₀高熵合金（HEA）。通过扫描电子显微镜、能谱仪（EDS）、维氏显微硬度计、极化曲线等对合金的微观结构、显微硬度和腐蚀进行了实验研究。X-射线衍射（XRD）表征了所制备合金的成分。EDS结果显示不论烧结参数如何变化,合金均由原始合金元素组成。XRD、EDS和扫描电子显微镜的结果说明所制备的合金具有球形微观结构,呈现出面心立方结构相,这是基于固溶机制形成的。这表明SPS合金具有HEAs的特征。在1000°C保温 12 min生产的合金显微硬度最高,为HV 447.97,热处理后其硬度降至HV 329.47。同一合金表现出优异的耐腐蚀性能。烧结温度升高,Al₂₀Cr₂₀Fe₂₅Ni₂₅Mn₁₀合金可具有更高的密度、显微硬度和耐腐蚀性。     

Ca,Sr对AM80镁合金显微组织和高温蠕变性能的影响

采用扫描电镜(SEM)、X射线衍射仪(XRD)和高温蠕变试验机等实验手段研究了碱土元素Ca,Sr对AM80镁合金显微组织和力学性能的影响.结果表明:在AM80合金中复合添加0.2%Sr和0.5%~2.5%Ca,Ca、Sr元素可逐步细化合金的铸态组织,Ca原子与Al原子优先结合在晶界处生成了高熔点相Al2Ca,抑制了低熔点相-βMg17Al12的形成.AM80合金在高温蠕变过程中,-βMg17Al12相在晶界处存在连续析出和非连续析出2种形式.-βMg17Al12相非连续析出并且垂直于晶界,造成合金蠕变性能较差.当在合金中复合添加Ca,Sr后,高熔点相Al2Ca是主要的晶界强化相,替代低熔点的-βMg17Al12相,从而减少-βMg17Al12相的非连续析出,抑制了晶界滑动,改善了合金的高温蠕变性能.当Ca质量分数增加到2.5%时,合金的高温蠕变性能最优.     

等离子喷涂制备铁基非晶-纳米复合涂层

以一种多元素铁基非晶合金粉末(含C,si,B,Cr,W,Mo,Ni,Fe等)作为喷涂材料,用大气等离子喷涂在316L不锈钢基体上制备涂层.用X射线衍射仪检测涂层的晶型结构,扫描电镜观察涂层的形貌,透射电镜观察涂层的微观组织结构,显微硬度仪测量涂层的显微硬度,纳米压痕仪测量涂层的硬度及弹性模量,并用谢乐公式计算了晶粒尺寸.结果表明:所制备的涂层均匀致密,与基体结合良好;涂层含有非晶和纳米颗粒;这种非晶-纳米复合涂层具有很高的硬度和弹性模量.     

纳米结构9Cr-ODS钢的微观结构及对氦泡形成的影响

以采用机械合金化和热等静压法制备的纳米结构9Cr-ODS钢为研究对象,利用高分辨率透射电镜和扫描透射电镜的高角环形暗场像等手段分析了9Cr-ODS钢的微观结构特征;利用400keV离子加速器向9Cr-ODS钢及无ODS的Eurofer97钢中注入4×1017/cm2氦离子,对比了氦泡尺寸.结果表明:纳米结构9Cr-ODS钢的平均晶粒尺寸约05μm,存在两种尺寸不同的析出相:超高密度弥散分布的纳米尺度Y2Ti2O7析出相和倾向于在晶界形成的尺寸较大的Mn(Ti)Cr2O4析出相.ODS钢中的氦泡尺寸明显小于Eurofer97钢,说明纳米析出相对粗大氦泡的形成有明显的抑制作用.     

热喷涂在高速重载铁路工程上的应用

热喷涂是提高工程构件抗磨蚀性的有效技术，在高速重载铁路工程上应用具有广阔前景，将产生巨大经济及社会效益。铁路钢轨、辙叉等通过铁基合金粉末热喷涂层来提高抗磨性；锌铝喷涂层提供钢板长效防腐性能；采用爆炸喷涂修复曲轴等构件的方法具有巨大潜力；激光重熔喷涂层合金化能进一步改善构件抗磨蚀性。经过热喷涂的普通碳钢替代合金结构钢对发展高速重载铁路运输具有重要意义。     

Hydrogen storage performances of the as-milled REMg11Ni (RE = Sm, Y) alloys catalyzed by CeO2

The addition of catalysts and rare earth elements is considered to be very effective methods to enhance the hydrogenation/dehydrogenation properties of Mg and Mg-based hydrides. In this paper, the REMg11 Ni+ 5 wt%CeO_2(RE = Sm, Y)(named REMg11 Ni-5 CeO_2(RE = Sm, Y)) alloys were fabricated through ball milling. The phase composition and structure of the as-milled alloys were investigated in detail. The isothermal hydrogen storage thermodynamics and kinetics of the as-milled alloys were measured by using an automatically Sievert apparatus. Non-isothermal dehydrogenation performance of the alloys was investigated by thermogravimetry(TG) and differential scanning calorimetry(DSC) at different heating rates. The results revealed that all the asmilled alloys were the nanocrystalline and amorphous structure. The RE = Y alloy had a faster hydriding rate and a lower onset hydrogen desorption temperature than the RE = Sm alloy. The superior property of the RE= Y alloy depended on the decrease of the dehydrogenation activation energy. By means of the measurement of Pressure-Composition-Isotherm(P-C-T) curves, the thermodynamic parameters of the REMg11 Ni-5 CeO_2(RE =Sm, Y) alloys were calculated, and the dehydrogenation enthalpy change was 74.86 k J/mol for the RE = Sm alloy and 73.75 k J/mol for the RE = Y alloy, respectively.     

纳米CuCl晶簇室温光吸收谱

实验测定了平均尺寸４．２ｎｍＣｕＣｌ晶簇的室这紫外和可见光吸收谱线，给出了Ｈｅ－Ｎｅ激光束辐照下的光吸收谱线，在３．１８７ｅＶ处有宽度０．６２ｍｅＶ的吸收尖峰。     

快淬Mg2Ni型合金的结构及贮氢动力学

用快淬技术制备Mg2-xLaxNi(x=0,0.2,0.4,0.6)贮氢合金,用XRD,SEM和HRTEM分析合金的微观组织结构;测试合金的气态及电化学贮氢动力学。结果表明:快淬二元Mg2Ni合金具有典型的纳米晶结构,而快淬La替代合金明显地具有非晶结构,La替代Mg提高Mg2Ni型合金的非晶形成能力。La替代Mg明显地改变Mg2Ni型合金的相组成,当x=0.4时,合金的主相改变为(La,Mg)Ni3+LaMg3。快淬及La替代明显影响合金的气态及电化学贮氢动力学,La替代使合金的吸氢动力学先降低后增加,但使合金的气态脱氢及电化学贮氢动力学先增加后降低。快淬对合金气态及电化学贮氢动力学的影响与合金的成分相关,对于La0.4合金,合金的气态吸氢动力学随淬速的增加先增加后减小,其放氢动力学随淬速的增加而增加。     

铸造铜合金口腔修复体及防腐技术研究

用Ni—P非晶态为防腐层的铸造铜合金口腔修复体、取代金合金及高熔点、收缩大的Ni—Cr、Co—Cr合金为口腔整型技术开辟了一条新途径,经过临床应用证明、制造工艺转简单、性能良好、成本低廉,采用化学沉积Ni—P非晶态做为防腐层经生物试验证明无毒性,患者反映口内感觉舒适,且色泽美观防腐性能有较明显提高。     

注氢诱发ODS铁素体钢中第二相分解

采用室温离子注入和低压电镜原位观察的方法,研究了注氢对国产ODS铁素体钢微观结构的影响.结果表明:原始未注氢ODS铁素体钢中存在有一定数量的(Fe,Cr)2O3,室温注氢后,(Fe,Cr)2O3无明显改变;但将其加热至450℃,(Fe,Cr)2O3即开始分解;到550℃时,部分(Fe,Cr)2O3消失,残余(Fe,Cr)2O3的成分也发生了改变.与此相反,原始未注氢ODS铁素体钢的微观结构在加热过程中却没有明显改变,(Fe,Cr)2O3并不分解.     

稀土Dy对FePt合金微结构和磁性能的影响

应用XRD,SEM,EDS和PPMS等方法对DyxFe60.5-xPt39.5(x=0,0.5,1.0,1.5)纳米复合材料进行微结构和磁性能研究.研究发现,在1 300℃该合金是无序的面心立方相(FCC),而在600℃是以有序的面心四方相(FCT)的形式存在;当稀土Dy的添加量x为1.5时,FePt合金中出现富稀土相颗粒,并均匀弥散分布在基体FePt合金中,验证FePt合金对稀土Dy的固溶度在1.5%at.以内.随稀土Dy含量的增加FePt合金晶粒显著得到细化,当Dy添加量x为0.5,退火时间为5 h,该合金的矫顽力和剩磁比达到最大值μoHc=0.326 T,mr(Mr/Ms)=0.68,并得到最大的磁能积BH(max)=9.4 MGOe.认为稀土Dy的加入改善和提高了FePt合金的诸多性能.     

曼地亚红豆杉Tm13AH基因cDNA的分子克隆与特征分析

采用RACE方法从曼地亚红豆衫中成功克隆到Tm13AH基因．该基因包含一个1455bp的开放阅读框,编码一个具有485个氨基酸,大小为54．6kD,等电点为pH8．81的蛋白质．序列同源性比对表明：它与其他种的羟化酶具有较高的同源性,为P450羟化酶家族的成员．组织特异性表达分析结果表明：Tm13AH在叶中表达量高,在茎中表达量低,在果实中无表达．Tm13AH基因的克隆和分析为进一步在分子水平上研究其在紫杉醇代谢途径中的功能奠定了基础．     

Fe－（Cu－Nb）－Si－B纳米晶合金的磁致伸缩

采用适当的热处理工艺将不同成分的Ｆｅ－（Ｃｕ－Ｎｂ）－Ｓｉ－Ｂ非晶态合金制备成纳米晶合金，测试了纳米晶合金的磁致伸缩，并与相应成分的非晶合金做了比较．实验结果表明，纳米晶合金的饱和磁致伸缩均小于非晶合金，较小的磁波伸缩并不是产生优异软磁性能的主要原因．     

铁基非晶合金的辐照性能

铁基非晶合金由于成本低较、易制备、较好的温度稳定性等优点,并具优异的机械性能、磁性能和耐腐蚀性能而被广泛研究.并且其固有的无序结构有助于抵抗辐照导致的损伤,使得铁基非晶合金可作为抗辐照材料使用.辐照既可以试验铁基非晶合金的性能也是优化铁基非晶合金结构和性能的有效方法.本文综述了铁基非晶合金中子辐照、离子辐照和电子辐照性能的研究进展,探讨了铁基非晶合金的结构和性能与非晶合金的成分以及辐照粒子的类型、能量、注量之间的关系,以及辐照晶化的机制,为进一步促进高性能铁基非晶合金的研究提供了有价值的参考.     

Ga对β基Co-Ni-Al铁磁性形状记忆合金马氏体和磁性转变的影响

借助光学金相、示差热分析、振动样品磁强计和x-射线能谱分析等分析方法，研究Ga含量对Co41Ni32-Al27-xGax合金马氏体相变和Curie点的影响。研究结果表明：合金马氏体相变温度与Ga含量成正比，在1573和1623K淬火时，X增加1，马氏体相变温度提高25K，但Ga含量对Curie点影响不大；在1573K淬火时，具有高有序度的马氏体相比B2结构相的Curie点高32K，说明结构有序度对Curie点影响较大；淬火温度升高会显著提高合金的马氏体相变温度和Curie点，当淬火温度从1573K升高到1623K时，马氏体相变温度升高43～69K，Curie点平均升高41K；随着Ga含量的增加，合金的熔点降低，在1623K淬火时Co41Ni32Al18Ga9合金发生部分熔化。     

基于 NiTi 温敏形状记忆纳米结构调控的润湿性研究

NiTi 合金是常见的形状记忆合金,有着良好的形状记忆效应、超弹性、耐腐蚀性和生物相容性,在生物医疗、 航空航天和微机电等领域有着广泛的应用。 目的 研究 NiTi 合金表面不同纳米级结构的润湿性能,改善 NiTi 合金 在工作环境下的磨损情况,提高 NiTi 合金的使用寿命。 方法 使用分子动力学方法模拟周期性边界条件下 NiTi 合 金的形状记忆效应,研究在不同温度下 NiTi 合金原子的微观结构演化;同时基于 NiTi 合金温度响应下不同的微观 结构,建立液滴静态接触角仿真,研究 NiTi 合金表面在不同微观结构下的润湿性能。 结果 发现 NiTi 合金在不同温 度响应下发生相变,从而使 NiTi 合金的表面原子排列发生改变,展示了温度诱发 NiTi 合金的相变和逆相变行为以 及在原子尺度下的微观结构演化,再以不同温度响应下发生相变和逆相变的 NiTi 合金表面作为基底,发现其表面 的润湿性也发生了改变和恢复。 结论 NiTi 合金随温度响应发生相变,微观结构发生改变,其表面的润湿性能也发 生改变;而且 NiTi 合金随温度逆相变,微观结构恢复到初始状态,其表面润湿性也能随之恢复到初始状态;NiTi 合 金在相变过程中的奥氏体和马氏体含量会影响 NiTi 合金表面润湿性能,因此能够通过温度进行 NiTi 合金表面在 微观结构下润湿性的自适应调控。     

Effect of minor Sc on the microstructure and mechanical properties of AZ91 Magnesium Alloy

The as-cast and heat-treated microstructures and mechanical properties of the AZ91 magnesium alloys with and without minor Sc addition were investigated and compared in this paper. The results indicated that adding0.15–0.45 wt% Sc to the as-cast AZ91 alloy not only could modify and refine the Mg_(17)Al_(12) phase but also suppress the formation of the Mg_(17)Al_(12) phase. At the same time, the grains of the Sc-containing as-cast AZ91 alloys were also effectively refined. As a result, the mechanical properties at room temperature(RT) for the Sccontaining as-cast AZ91 alloys were effectively improved. In addition, adding 0.15–0.45 wt%Sc to the AZ91 alloy promoted the formation of the continuous precipitates(CP) during the aging treatment in spite of that the formation of the discontinuous precipitates(DP) was simultaneously suppressed. Accordingly, the Sc-containing as-aged AZ91 alloys obtained the relatively higher mechanical properties at RT than the as-aged AZ91 alloy.     

Microstructure and heat treatment for Ni3Al-based single crystal alloy with different crystal orientations

Ni₃Al-based single crystal alloy IC6SX with different crystal orientations were prepared by seed crystal method. The microstructure and heat treatment of the alloy were investigated. The results showed that the microstructure of the alloy was in dendrite structure, and the crystal orientation had significant effect on the dendrite morphology of this alloy. The precipitated phases of (MoNi)₆C and NiMo appeared in the microstructure of the three alloys with different crystal orientations during solidification process. Compared with other two alloys, the volume fractions of precipitated phases of both (MoNi)₆C and NiMo was the most in the alloy with [111] orientation and the least in the alloy with [001] orientation. The solidus and liquidus temperatures of the alloy IC6SX tested by differential scanning calorimetry (DSC) were 1356 °C and 1387 °C, respectively. Meanwhile, the effect of different solution temperatures on the microstructure of the alloy with different orientations was studied. The results showed that the precipitated phases of (MoNi)₆C and NiMo were eliminated with the solid solution treatment under the condition of 1300 °C/10 h. However, the incipient melting of the alloys occurred due to the dissolution of low melting point phases. As the temperature dropped to 1280 °C, the area of incipient melting in the alloy with different orientations decreased gradually. However, there was no incipient melting appearing in the three alloys with different orientations when the solution treatment temperature dropped to 1260 °C.     

TiB2和Al3Ti对近共晶Al?12.6Si合金组织、力学性能和断裂行为的影响

A near eutectic Al?12.6Si alloy was developed with 0.0wt%, 2.0wt%, 4.0wt%, and 6.0wt% Al?5Ti?1B master alloy. The microstructural morphology, hardness, tensile strength, elongation, and fracture behaviour of the alloys were studied. The unmodified Al?12.6Si alloy has an irregular needle and plate-like eutectic silicon (E_Si) and coarse polygonal primary silicon (P_Si) particles in the matrix-like α-Al phase. The P_Si, E_Si, and α-Al morphology and volume fraction were changed due to the addition of the Al?5Ti?1B master alloy. The hardness, UTS, and elongation improved due to the microstructural modification. Nano-sized in-situ Al₃Ti particles and ex-situ TiB₂ particles caused the microstructural modification. The fracture images of the developed alloys exhibit a ductile and brittle mode of fracture at the same time. The Al?5Ti?1B modified alloys have a more ductile mode of fracture and more dimples compared to the unmodified alloy.