Al含量对空心阴极等离子烧结Ti/Ni等原子比TiNiAl合金组织和力学性能的影响

 采用空心阴极等离子烧结工艺制备了Ti/Ni等原子比的Ti_50-x/2Ni_50-x/2Al_x(x=0,3,6,9)合金,研究了Al含量对合金微观组织以及力学性能的影响。结果表明:未添加铝的合金微观组织主要由NiTi基体、强化相Ti₂Ni、Ni₃Ti及孔隙组成;随着Al含量的提高,合金中Ti₂Ni(Al)数量不断增多,孔隙数量和孔径不断增加,Ni₃Ti(Al)数量不断减少,在Ti_45.5Ni_45.5Al₉中还生成了少量Ni₂TiAl相;合金的抗弯强度随Al含量的提高而增加,并在Al含量为6%时达到最大值296.3 MPa;合金的硬度随铝含量的提高而增加,Ti_45.5Ni_45.5Al₉的硬度值为295.6 HV。     

Cr对Nb-16Si-22Ti-2Al-2Hf合金显微组织与高低温力学性能的影响

 以Nb-16Si-22Ti-2Al-2Hf成分为基础,分别添加了2%和17%(原子分数,后同)的Cr元素替代Nb(分别称2Cr和17Cr合金),研究了Cr含量对Nb-16Si-22Ti-2Al-2Hf合金相组成、显微组织形貌、室温断裂韧性和高温强度的影响,分析了高低温失效机制。结果表明,铸态和1 375 ℃×100 h热处理后2Cr合金由Nbss和Nb₅Si₃两相组成;当Cr含量为17%时,出现了具有C15结构的Laves Cr₂Nb相,合金由Nbss、Nb₅Si₃和Cr₂Nb三相组成,热处理后在Nb₅Si₃中还析出了球状Cr₂Nb相。随着Cr含量由2%提高到17%,热处理合金的室温断裂韧性K_Q由14.32 MPa·m^1/2下降到10.30 MPa·m^1/2。合金强度与Cr含量的关系受温度影响,随Cr含量提高,室温和1 150 ℃时合金的硬度或强度增高,而1 250 ℃和1 350 ℃时合金强度降低。如1 150 ℃时2Cr和17Cr合金的屈服强度σ_0.2分别为349 MPa和387 MPa;1 350 ℃时分别为306 MPa和74 MPa。     

浆料浸渍工艺制备高性能Al2O3/Al2O3陶瓷基复合材料

为了利于大型构件的制备,采用浆料浸渍工艺,以Nextel 720连续氧化铝纤维增韧,通过一次烧结过程制备了Al₂O₃/Al₂O₃陶瓷基复合材料。测试了复合材料的物理及力学性能,并采用光学显微镜、SEM对试样的微观形貌进行了表征。结果表明：复合材料的体积密度为2.64 g/cm³,显气孔率为26%,材料基体呈现典型的多孔结构特征;室温及1 200 ℃,复合材料厚度方向的热导率分别为3.49及2.04 W/（m·K）;200～1 200 ℃,复合材料面内方向的热膨胀系数为（4.7～7.1）×10^-6/K;复合材料室温、1 100及1 200 ℃拉伸强度分别为202.4、222.4及228.4 MPa,试样断面纤维拔出明显;室温弯曲强度为200.5 MPa,试样发生韧性断裂;层剪强度为21.0 MPa。制备的材料主要性能与美国ATK-COI陶瓷公司的同类型材料相当,部分力学性能更优异。     

热处理对8090铝锂合金机械性能与显微组织的影响

 本文考查了一种Al-Li-Cu-Mg-Zr合金经不同沉淀强化工艺后的机械性能、使用透射电镜、扫描电镜考查了不同制度对应的显微组织特征。指出:控制时效温度、时间与预延展变形,可以调整δ′（Al₃Li）、S′（Al₂CuMg）相的复合沉淀得到优化组合,明显改善合金的强度与塑性。     

陶瓷隔热瓦的缺陷修补

分别采用了MgO、YSZ和Al₂O₃三种陶瓷粉体和一种含隔热瓦本体成分的粉料对陶瓷隔热瓦缺陷进行修补。研究了修补前后材料的微观形貌、力学及隔热性能。结果表明：采用含隔热瓦本体组成的粉料对陶瓷隔热瓦进行修补，修补部位与本体部位相容性好，且微观形貌相似，仍保持纤维搭接的多孔空间网络结构；修补后试样密度0.24 g/cm³、室温热导率0.044 W/（m·K）、压缩强度0.58 MPa；1 200℃、30 min热处理后，修补部位与本体部位结合性好，未出现裂纹、凹陷等缺陷，是有效的缺陷修补方法。     

时效工艺对冷变形多相紧固件GH350合金组织与性能的影响

 利用光学显微镜和扫描电镜(SEM)分析,研究了冷拔态GH350(AEREX350)合金中η-Ni₃Ti相的时效析出规律以及对合金高温拉伸性能的影响。研究发现,冷拔态GH350合金中η-Ni₃Ti相在780~1 060 ℃温度范围内析出,且呈两种形态。晶界片状η相在780~1 060 ℃温度范围内均可析出,但在850~1 060 ℃温度区间,除晶界η相外,在晶内沿(111)面呈魏氏体形态析出片状η相。冷变形GH350合金在980 ℃开始发生再结晶,1 010 ℃可完全再结晶。对二阶时效后冷变形GH350合金的高温拉伸实验表明,随着一阶时效温度的升高,合金的高温塑性增加,强度降低。     

等离子喷涂LaTi2Al9O19热障涂层的微观组织结构及热物理性能

 第一代热障涂层(TBCs)由氧化钇部分稳定的氧化锆(YSZ)陶瓷隔热层和金属粘结层组成,该涂层长期使用温度低于1 200℃。随着先进航空发动机向着高推重比发展,迫切要求发展新一代超高温、高隔热热障涂层材料。LaTi₂Al₉O₁₉(LTA)在1 500℃长期保持相稳定,是一种非常有前景的超高温热障涂层候选材料。本文采用大气等离子喷涂(APS)制备了LTA涂层,研究了喷涂工艺对涂层微观组织结构和热物理性能的影响。结果表明沉积态涂层中含少量的非晶态,在860℃和1 130℃出现晶化峰。等离子喷涂过程中La₂O₃挥发量较多,导致沉积态涂层中La元素与原始粉末相比含量偏低,而其他组分的化学成分随喷涂功率变化不大。LTA涂层的热扩散系数在1 400℃下为0.3~0.4 mm²·s^-1,热导率为1.1~1.6 W·m^-1·K^-1。1 050℃经过20小时热处理后,得到晶化的涂层在晶化温度范围内的热扩散系数和热导率值均增大。随着喷涂功率减小,涂层孔隙率增加,热导率减小。     

（Hf0.25Zr0.25W0.25Ti0.25）B2高熵陶瓷的组织结构与力学性能

高熵硼化物陶瓷在航空航天、汽车发动机和核反应堆等领域具有广阔的应用前景,为了提高高熵硼化物陶瓷的性能,扩大高熵硼化物陶瓷家族,本文通过硼热/碳热还原法结合SPS制备（Hf_0.25Zr_0.25W_0.25Ti_0.25）B₂高熵硼化物粉末与陶瓷,并对其物相组成、组织形貌和力学性能进行研究。结果表明,经1600 ℃热处理后（Hf_0.25Zr_0.25W_0.25Ti_0.25）B₂高熵硼化物粉末除了检测出高熵相,还检测到W₂B₅第二相,粉末粒径为0.29±0.03 μm;2 000 ℃烧结后W₂B₅减少,高熵相的衍射峰向高角度偏移,致密度达95.7%,引入WB₂后其具有优异的力学性能,硬度（21.3±1.5） GPa,断裂韧性（3.00±0.22） MPa·m^1/2。     

熔融渗硅工艺制备的SiCf/SiC复合材料微观结构与性能

SiC纤维增强SiC陶瓷基复合材料（SiC_f/SiC复合材料）在航空发动机热端部件方面具有重要应用。本文以第二代碳化硅纤维为增强材料,采用熔融渗硅工艺制备出SiC_f/SiC复合材料,测试复合材料的基本物理性能及常规力学性能,并利用Micro-CT、SEM对试样的微观结构和断面进行了表征分析。结果显示：SiC_f/SiC复合材料的体积密度为2.78 g/cm³,开气孔率小于2.0%,基体较为致密,1 200 ℃时热导率（厚度方向）为14.30 W/（m?K）,室温~1 200 ℃厚度方向和面内方向的线胀率分别为0.59%、0.56%,平均热胀系数分别为5.02×10^-6、4.73×10^-6/K;室温面内拉伸强度典型值为317 MPa,SEM显示试样断面具有明显的纤维拔出效应,弯曲强度和层间拉伸强度典型值分别达794和49 MPa。     

双损耗Al2O3基多孔吸波材料的制备及其吸波性能

基于片状Al₂O₃陶瓷互锁结构强度高的特点,制备出夹杂石墨的高气孔率的Al₂O₃多孔陶瓷,并通过原位还原在多孔骨架中制备出Ni微粒,形成一种轻质的双损耗陶瓷基吸波材料。通过XRD、FE-SEM和EDS研究了还原温度对多孔吸波材料的组成、微观形貌、元素分布和吸波性能的影响。结果表明,还原温度升温至700 ℃可将多孔网络中Ni完全还原,形成以堆叠互锁Al₂O₃为基,夹杂片状石墨和孔表面覆盖Ni微粒的双损耗轻质吸波材料。当复合材料厚度为6.5 mm时,最小反射损耗为-35.01 dB,有效吸收带宽达到1.75 GHz。片状Al₂O₃锁定的石墨片构筑的导电网络,Ni微粒与基体之间的极化效应等共同促进复合材料良好的微波吸收性能。     

NiTiAl Intermetallic Alloys Strengthened by Mo Replacement

 NiTiAl based alloys have attracted attention as potential high temperature structural materials. Alloying is an effective way to improve their mechanical properties. The microstructures and mechanical properties of Ni₅₀Ti_44-xAl₆Mo_x (x = 0, 0.5, 1, 1.5, 3) alloys have been investigated by X-ray diffraction (XRD), scanning electron microscope (SEM), transmission electron mi-croscope (TEM) and compressive tests. It is found that Ni₅₀Ti_44-xAl₆Mo_x alloy is composed of NiTi (B2) and Ti₂Ni (FCC) phases when Mo content is no more than 1 at%. The effect of Mo solid solution hardening at room temperature has been indi-cated by the rise of yield strength and the fall of plasticity with increasing Mo content. For Ni₅₀Ti_42.5Al₆Mo_1.5 and Ni₅₀Ti₄₁Al₆Mo₃ alloys, a Mo solid solution appears and increases the yield strength by precipitation strengthening. The maxi-mum yield strength at 600 °C and elevated temperatures is presented in Ni₅₀Ti₄₃Al₆Mo₁ alloy not in alloys with a higher Mo content, which is possibly due to the softness of Mo-Ti-Ni solid solution phase.     

热轧对Ti50Ni50-xAlx(x=1,2,4)形状记忆合金微观组织、相变和力学性能的影响

形状记忆合金的相变和力学性能受机械加工过程影响明显.在850℃下将Ti50Ni50-xAIx(x=1,2,4)形状记忆合金轧制成为板材.采用扫描电镜、透射电镜和X射线衍射对合金的微观结构研究表明:合金由NiTi相和Ti2Ni相组成,Al元素在Ti2Ni相中的固溶度比在TiNi相中高.差示扫描量热分析和电阻-温度测试表明...     

Mechanical Properties and Transformation Behavior of NiTiNb Shape Memory Alloys

NiTiNb shape memory alloys have attracted much attention in pipe coupling or sealing system because of their large transformation hysteresis upon a proper pre-deformation. In order to clarify the effects of adding Nb on the mechanical properties as well as the transformation behavior of NiTiNb shape memory alloys, Ni₄₇Ti₄₄Nb₉ and Ni_49.8Ti_45.2Nb₅ alloys with different microstructures but with similar martensitic transformation start temperature, are prepared. Comparative studies on the microstructures, mechanical properties and transformation characteristics are conducted by means of scanning electron microscopy (SEM), phase transformation measurements and mechanical property tests. It is found that Ni₄₇Ti₄₄Nb₉ and Ni_49.8Ti_45.2Nb₅ alloys possess similar transformation hysteresis in the as-annealed state. However, the presence of Nb and its status exerts important effects on the mechanical properties, especially the yield strength and the yield behavior of the alloys. Ni_49.8Ti_45.2Nb₅ alloy exhibits remarkable increase in the yield strength than the Ni₄₇Ti₄₄Nb₉ alloy. The transformation hysteresis of both alloys under pre-deformation is characterized and the relative mechanism is discussed.     

TiNiFeNb形状记忆合金的组织结构及相变特性

通过向TisoNiso合金中加入Fe和Nb元素,制备出一种四元Ti49Ni50-xFexNb1形状记忆合金.采用X射线衍射和背散射电子衍射的方法,测试和分析了合金的相结构及微观组织形态,采用电阻法系统研究了合金的相变特性.结果表明:Nb元素的加入并没有改变TiNiFe合金的B2结构,仅导致了广极少量的富Nb相在基体中析...     

Effects of Nb Content on Yield Strength of NiTiNb Alloys in Martensite State

Two near single-phase NiTiNb alloys—Ni₅₀Ti₄₈Nb₂ and Ni_49.5Ti_46.5Nb₄—are prepared and studied by means of scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), differential scanning calorimetry (DSC) and tensile tests in order to unearth the effects of Nb-atom solid solution in NiTi phase on the yield strength induced by self-accommodation of martensite variants. The results show that the yield strength of near single-phase NiTiNb alloys varies inversely with the amount of Nb-atoms solid-dissolved in NiTi phase. From the results out of the prior and current studies, it can be surmised that the effects of Nb content on the yield strength of NiTiNb alloys in martensite state depend on the coaction. Nb solid solution weakening mechanism and β-Nb phase composite strengthening mechanism. This inference might be a satisfactory explanation to the fact that the yield strength of (NiTi)_50–0.5xNb_x alloys in martensite state begins with decline and then rises when the Nb content increases.     

ZTA复合材料的热等静压研究

 研究了热等静压对Al₂O₃-ZrO₂复合材料机械性能的影响以及热等静压烧结过程中ZTA的致密化规律。经实验热等静压烧结的ZTA材料与相应的热压试样相比,其强度和韧性提高近一倍(σ_b=950MPa、K_lc=9.5MPa √m);在不同的烧结温度下,显示了不同的致密化规律,其致密人速率分别由晶粒滑动和点阵扩散机制控制。     

Microstructure and Mechanical Properties of In-situ Synthesized Al2O3/TiAl Composites

Al2O3 particle-reinforced TiAl composites are successfully reaction-synthesized from the powder mixture of Ti, Al, TiO2, and Nb2O5, using the hot pressing reaction synthesis technique. The microstructure and mechanical properties of the as-sintered products are investigated. It is found that in the as-sintered products consisting of γ-TiAl, α2-Ti3Al, Al2O3, and NbAl3 phases, the fine Al2O3 particles tend to disperse on the grain boundaries. With the Nb2O5 content increasing, the grains are remarkably refined and the Al2O3 particles are dispersing more uniformly in the TiAl matrix, forming a partial lamellar structure containing α and lamellar phases. The hardness of the in-situ composites increases gradually, and the bending strength and the fracture toughness of the as-sintered products reach the maximum value of 398.5 MPa and 6.99 MPa·m^1/2, respectively, as the Nb2O5 content increases to 6 wt%.     

不同编织结构Cf/Al复合材料高温压缩性能与失效机理

对基于真空气压浸渗法制备的三维五向、三维正交、叠层穿刺和2.5D浅交直联4种不同编织结构C_f/Al复合材料,分别在350℃和400℃下进行压缩试验,分析其高温压缩性能以及温度对复合材料压缩性能的影响,并进一步利用SEM观察叠层穿刺结构的断口形貌,探讨其压缩失效机理。结果表明,不同编织结构的复合材料在高温环境下压缩性能差异较大,三维正交结构的压缩强度最高,在350℃和400℃下分别为351.4 MPa和288.6 MPa;2.5D浅交直联结构的压缩强度最低,分别为87.3 MPa和52.2 MPa。同时不同编织结构的C_f/Al复合材料高温稳定性也存在较大差异,当温度由350℃升高到400℃时,2.5D浅交直联结构的压缩强度下降幅度较大,约为40.2%,其高温压缩稳定性较差;叠层穿刺结构的压缩强度下降幅度较小,约为4.0%,其高温压缩稳定性较好。叠层穿刺结构复合材料的高温压缩失效过程根据切线模量特征可分为两个阶段：第一阶段基体合金承受主要载荷,第二阶段基体与增强纤维共同承受载荷。     

固化温度对苎麻纤维增强复合材料性能的影响

研究了固化温度对苎麻纤维增强复合材料力学性能的影响,同时对比研究了平纹苎麻织物、单向苎麻纤维和单向玻璃纤维增强复合材料的力学性能.结果表明:环氧树脂3233分别在120℃,140℃和l80℃固化2h后,其拉伸性能和弯曲性能没有明显的变化;而基于环氧树脂3233的苎麻纤维增强复合材料在120℃和l40℃固化2h后力学性能相当,但是在180℃固化2h后,强度明显减小,模量变化不大;单向苎麻纤维增强复合材料的力学性能要远远大于平纹苎麻织物增强复合材料的力学性能,如单向苎麻复合材料uRamie-3233-120的压缩强度和压缩模量分别为154.0 MPa和35.6 GPa,而苎麻织物增强复合材料fRamie-3233-120分别为95.0 MPa和9.2 GPa;玻璃纤维增强复合材料的强度也会高明显高于苎麻纤维增强复合材料的强度.