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71.
72.
针对TC11钛合金材料进行了自动钨极氩孤焊接工艺试验,获得了成形良好的焊缝,焊接质量符合航空Ⅰ级焊缝标准.采用金相试验方法和力学性能试验对不同焊接填充材料下的显微组织和性能进行对比.结果表明,采用TC11同质焊丝可获得与母材抗拉强度相当的焊接接头,略高于采用TA2纯钛焊丝的接头,但采用TA2焊丝时的集中塑性接近母材. 相似文献
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74.
典型近α型钛合金Ti6242合金制备盘锻件的综合力学性能与其棒材原始微观组织特征密切相关。本研究选取具有明显微观组织特征差别的3种Ti6242钛合金棒材为研究对象,定量化评估不同Ti6242钛合金棒材锻造态、固溶态和固溶+时效态的微观组织差别和演变规律,并讨论棒材微观组织差别和演变对综合力学性能的影响。研究结果显示具有明显差别的不同棒材微观组织在经历相同的固溶和时效处理后,其初生α相体积分数差别趋于相近,而初生α相的尺寸分布和形状分布等微观组织特征仍保留差别;力学性能结果显示室温拉伸力学性能趋于近似,而低周疲劳和保载疲劳力学性能对微观组织特征较为敏感。对比不同特征组织和力学性能分析结果,具有细小非等轴状且没有明显取向集中分布初生α相的棒材原始组织有助于获得更好的疲劳性能。 相似文献
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76.
《中国航空学报》2021,34(8):101-111
A novel virtual material layer model based on the fractal theory was proposed to predict the natural frequencies of carbon fiber reinforced plastic composite bolted joints. Rough contact surfaces of composite bolted joints are modeled with this new proposed approach. Numerical and experimental modal analyses were conducted to validate the effectiveness of the proposed model. A good consistence is noted between the numerical and experimental results. To demonstrate the necessity of accurately modeling the rough contact surfaces in the prediction of natural frequencies, virtual material layer model was compared with the widely used traditional model based on the Master-Slave contact algorithm and experiments, respectively. Results show that the proposed model has a better agreement with experiments than the widely used traditional model (the prediction accuracy is raised by 8.77% when the pre-tightening torque is 0.5 N∙m). Real contact area ratio A* of three different virtual material layers were calculated. Value of A* were discussed with dimensionless load P*, fractal dimension D and fractal roughness G. This work provides a new efficient way for accurately modeling the rough contact surfaces and predicting the natural frequencies of composite bolted joints, which can be used to help engineers in the dynamic design of composite materials. 相似文献
77.
《中国航空学报》2021,34(2):612-619
In this work, the mechanical properties and electrical conductivity of the extruded 7136 aluminum alloy treated by single-stage aging treatment (T6), retrogression and re-aging treatment (RRA), and multiple retrogression and re-aging treatment have been investigated by means of hardness measurements, electrical conductivity tests and tensile tests. The results have shown that the properties of the 7136 alloy such as hardness, tensile strength and electrical conductivity were sensitive to retrogression time (within 90 min). With prolonging the retrogression time, the tensile strength was enhanced first and then decreased, yet the electrical conductivity was continuously increased. The 60 min-treated alloy performed the highest tensile strength (716 MPa), whereas the 90 min-treated alloy possessed the highest electrical conductivity (33.95%IACS). Compared with the T6-treated alloy, the tensile strength and electrical conductivity were improved by 3.3% and 18.9%, respectively. The electrical conductivity showed an obvious increase with repetitious times of the RRA treatment. After 3RRA60 treatment, a good combination of tensile strength (705 MPa) and electrical conductivity (33.20%IACS) can be obtained. Compared with the T6 condition, the tensile strength and electrical conductivity were improved by 1.7% and 16.3%, respectively. The mechanism of microstructure evolution under different aging treatments has been discussed in detail. 相似文献
78.
三种不锈钢材料抗固体颗粒冲蚀性能研究 总被引:2,自引:0,他引:2
采用增压气流固体颗粒冲蚀试验方法研究1Cr11Ni2W2Mo2V、1Cr12Ni2WMoVNb、1Cr17Ni2三种不锈钢材料的抗冲蚀性能。结果表明,三种不锈钢材料在固体颗粒冲击下均发生冲蚀磨损,30°稳定冲蚀速率大于90°稳定冲蚀速率。在相同冲蚀条件下,三种不锈钢材料抗冲蚀性能1Cr17Ni2>1Cr12Ni2W2MoVNb>1Cr11Ni2W2MoV,即1Cr17Ni2不锈钢抗冲蚀性能最好。 相似文献
79.
在T=880℃和ε=9.8 ×10-4 s-1下,进行了TC4圆筒件超塑成形试验,研究了超塑变形量对TC4室温强度、疲劳性能和金相组织的影响.结果表明:随着变形量的增加,晶粒尺寸增大.当超塑胀形延伸率e为55%时,晶粒尺寸由供应态的约8μm增加为约20 μm.随着e增加,TC4室温下的屈服强度、抗拉强度和条件疲劳强度降低.当e为55%时,材料的屈服强度、抗拉强度下降约7%;循环周期为106下的疲劳强度下降约10%. 相似文献
80.
对氟聚物基含能反应材料进行了概述,介绍了反应材料的组分、结构特点以及制备关键技术,并对反应材料各项性能指标进行了综述,对氟聚物基反应材料的应用现状和前景进行了归纳和展望. 相似文献