椭圆窝自动化加工技术

为解决椭圆窝自动化加工的工艺难题,提高整体式机翼装配的可靠性,在深入分析椭圆窝形状特点和加工原理的基础上,推导出了椭圆窝摆动中心公式,确定了锪窝刀具与摆动中心的相对位置关系。根据椭圆窝成形原理,提出了椭圆窝执行器各部件相对角度偏差要求并进行了标定。利用标定过的椭圆窝执行器对椭圆窝窝形参数的理论计算结果进行试验验证和调整,得出了窝形偏差的基本形式和调整方法。使用调整后的参数在铝合金材料上加工NAS6型椭圆窝,制出的椭圆窝长短径长度误差在0.05 mm以内,椭圆螺母与工件表面的高度偏差在0.02 mm以内,窝形满足机翼装配要求,实现了椭圆窝的自动化加工。     

气相色谱法测定玻璃纤维增强不饱和聚酯树脂塑料中残留苯乙烯单体的含量CSCD

采用气相色谱法火焰离子检测器(FID)测定玻璃纤维增强不饱和聚酯树脂塑料中苯乙烯残留单体含量,用二氯甲烷提取苯乙烯,使用毛细管柱(HP-5),以内标法(正丁苯为内标物)定量,内标法标准曲线线性关系良好,线性相关系数为0.999 7。加样回收率得到满意结果,最低检测限可达5mg/kg。     

气相色谱法定量分析氧气中气体杂质方法研究

为寻找一种能够有效检测氧气中微量气体杂质的方法,采用配有氢火焰离子化检测器的气相色谱仪分析氧气中的微量气体杂质,研究了分析氧气中CO、CO₂及C₂H₂等气体杂质的操作参数,确定了氧气中微量气体杂质的分析方法,验证了该方法的可行性,该分析方法各组份分离效果良好,各种杂质组份定量精确度较高。     

小孔法测量非均匀残余应力的数据处理与误差分析

讨论了逐层钻孔法测量非均匀残余应力的释放应变处理和测量误差对残余应力计算精度的影响。利用转换应力、转换应变,可方便地计算残余应力值。受小孔法本身缺陷的限制,计算所得残余应力误差随孔深增加而加大,测量深度约为应变片平均半径的一半。     

含孔边裂纹各向异性有限板的二维问题

应用边界元法,并结合一种特殊的复变函数基本解,研究了含孔边裂纹的各向异性有限板的应力强度因子修正系数的计算。这种特解边界元法避免了在裂纹附近划分单元,可以获得较好的数值计算精度。通过算例分析,结果表明本方法精度高,运算量小,具有一定的工程应用价值。     

纳米Sn-Zn-Fe复合氧化物气敏材料的研制

本文采用纳米材料制备技术（共沉淀法）,制备了十二种Ｓｎ－Ｚｎ－Ｆｅ复合氧化物气敏材料,将其制成元件后,进一步测试了气敏性能。结果发现其敏感度比用ＳｎＯ２、ＺｎＯ和Ｆｅ３Ｏ４机械混合制得的烧结元件大为提高,且有较好的选择性。     

Effect of tube-electrode inner diameter on electrochemical discharge machining of nickel-based superalloy

Nickel-based superalloys are widely employed in modern aircraft engines because of their excellent material characteristics, particularly in the fabrication of film cooling holes. How-ever, the high machining requirement of a large number of film cooling holes can be extremely chal-lenging. The hybrid machining technique of tube electrode high-speed electrochemical discharge drilling (TEHECDD) has been considered as a promising method for the production of film cooling holes. Compared with any single machining process, this hybrid technique requires the removal of more complex machining by-products, including debris produced in the electrical discharge machin-ing process and hydroxide and bubbles generated in the electrochemical machining process. These by-products significantly affect the machining efficiency and surface quality of the machined prod-ucts. In this study, tube electrodes in different inner diameters are designed and fabricated, and the effects of inner diameter on the machining efficiency and surface quality of TEHECDD are inves-tigated. The results show that larger inner diameters could effectively improve the flushing condi-tion and facilitate the removal of machining by-products. Therefore, higher material removal efficiency, surface quality, and electrode wear rate could be achieved by increasing the inner diam-eter of the tube electrode.     

叠层材料低频振动制孔工艺参数优化实验研究

CFRP/Ti叠层结构在一体化制孔的过程中易出现复合材料分层、撕裂、灼伤和孔出口毛刺等制孔缺陷。本文基于低频振动辅助钻削技术,进行工艺实验,经过二次优化后得到最优加工参数。实验结果表明,在转速400 r/min、进给量12 mm/min、振幅75 μm与转速500 r/min、进给量21 mm/min、振幅75 μm两组加工参数下的制孔质量较好,使用较高转速和较大进给量能够提高加工效率。     

静压气浮轴承工程设计方法研究

静压气浮轴承是惯性器件测试平台回转支撑轴系的关键部件,其承载能力和回转精度对惯性器件测试的准确性有着重要的影响,目前,静压气浮轴承设计、计算过程复杂,为提高设计效率,简化设计方法,在满足静压气浮轴承性能的条件下,推导了静压气浮轴承工程计算公式,在此基础上,设计了一款双向止推空气轴承,确定了几何参数,计算了空气静压径向轴承、空气静压止推轴承的轴承承载力、刚度、耗气量及摩擦力矩,并与有限元仿真结果进行了对比分析,验证了该设计方法的有效性。     

Effect of protrusion amount on gas ingestion of radial rim seal

In this paper, the effect of different amount of protrusion on various parameters in rotor–stator system was experimentally studied by measuring CO₂ concentration and pressure, in order to obtain the optimal protrusion amount. The parameters of different dimensionless sealing flow were measured under the condition that the annulus Reynolds number was 4.39 × 10⁵ and the rotating Reynolds number was 1.05 × 10⁶. The results show that the change of the amount of protrusions has little effect on the static pressure in the cavity, and the static pressure change near the sealing ring is almost negligible. But the total pressure and sealing efficiency increase first and then decrease with the increase of the amount of protrusion. The variation of power consumption is the same. A complex vortex structure will appear at the high radius region when the protrusion is installed. On the other hand, the protrusion can effectively reduce the minimum sealing flow of the rotor–stator cavity. Furthermore, considering the sealing efficiency and power consumption, the best range of the protrusion amount is about 36. The ratio near this range can optimally balance the alleviation of the gas ingestion and the reduction of the power consumption.