全面国产化复合材料在XX旋翼国产化中的应用研究

本文概要地介绍了国产复合材料在XX旋翼国产化的应用研究总体思路,分析了国产复合材料的研究现状。通过国产化复合材料在旋翼桨叶上的设计应用分析,确定了国产材料性能的最低要求,并进行了典型样件—模型桨叶的验证考核。     

Compression Creep Behavior of High Volume Fraction of SiC Particles Reinforced AI Composite Fabricated by Pressureless Infiltration

The compression creep deformation of the high volume fraction of SiC particles reinforced AI-Mg-Si composite fabricated by pressure-less infiltration was investigated. The experimental results show that the creep stress exponents are very high at temperatures of 673 K, 723 K and 773 K, and if taking the threshold stress into account, the true stress exponent of minimum creep strain rate is still approximately 5, although the volume fraction of reinforcements is very high. The creep strain rate in the high volume fraction reinforced aluminum alloy matrix composites is controlled by matrix lattice diffusion. It is found that the creep-strengthening effect of high volume fraction of silicon carbide particles is significant, although the particles do not form effective obstacles to dislocation motion.     

先进复合材料格栅结构制造工艺技术的研究进展

介绍了复合材料格栅结构的特点及发展现状,并回顾了传统复合材料成型工艺方法和格栅结构的早期制造方法。另外,介绍2种新型的格栅结构加工方法,即混合加工法、膨胀模块加工法以及改进的格栅结构:互锁复合材料格栅结构、加套管的槽形连接格栅结构和TR IG结构;并分别说明了每种结构的优点。其中重点介绍了混合加工法并从理论上推导其可行性。最后总结了复合材料格栅结构制造工艺的发展趋势。     

环氧树脂基形状记忆复合材料的制备与性能

以自制的形状记忆环氧树脂为基体,CCF300级碳纤维U-3160织物为增强材料,采用真空袋成型工艺制备形状记忆复合材料,分析碳纤维含量对复合材料的形状记忆性能的影响。结果表明,当碳纤维含量为0%~50%时,随着增强体碳纤维含量的增加,复合材料的形状固定率由98%降至91%,形状回复率也由98%降至91%。在有限次的循环实验中,循环次数对形状固定率和形状回复率没有明显的影响。     

复合材料工艺的适航审定

阐述并解析了运输类飞机适航规章对结构制造方法的内在要求,介绍了复合材料工艺适航审查的流程、验证级别、验证所需考虑的要素,以及为表明对适航规章的符合性,复合材料工艺规范应包含的必要组成部分以及各部分的编制要求。     

Dynamic analysis of C/C composite finger seal

A seal device as an important component of aeroengines has decisive influence on per- formance, reliability, and working life of aeroengines. With the development of aeroengines, demands on the performance characteristics of seal devices are made strictly. Finger seal as a novel kind of sealing device, recently attracts more and more attentions in academic circles and engineer- ing fields at home and abroad. Research on finger seals has been extensively developed, especially on leakage and wear performances under dynamic conditions. However, it is a pity that the work on finger seals has been limited with a single approach that is improving the performance by structural optimization; in addition, the technology of dynamic analysis on finger seals is weak. Aiming at the problems mentioned above, a distributed mass equivalent dynamic model of finger seals considering the coupling effect of overlaid laminates is established in the present paper, the dynamic perfor- mance of 2.5 dimension C/C composite finger seal is analyzed with the model, and then the effects of fiber bundle density and fiber bundle preparation direction on finger seal＇s dynamic performance are discussed, as well as compared with those of Co-based alloy finger seal. The current work is about dynamic analysis of finger seals and application of C/C composite in this paper may have much academic significance and many engineering values for improving research level of finger seal dynamics and exploring feasibility of C/C composite being used for finger seals.     

基于时标分解的弹性高超声速飞行器智能控制

考虑弹性高超声速飞行器纵向动力学模型,提出了一种基于时标分解的智能控制方法。考虑刚体状态和弹性模态具有不同的时标特性,采用奇异摄动理论进行快慢时标分解,将模型转换为刚体慢变子系统和弹性快变子系统。针对刚体子系统考虑动力学不确定,基于平行估计模型构造表征不确定逼近效果的预测误差,结合跟踪误差给出复合学习控制策略。针对弹性子系统设计自适应滑模控制稳定弹性模态。通过李雅普诺夫稳定性分析可证系统状态一致终值有界。仿真表明所提出的控制方法能够实现刚弹模态的稳定收敛,且具有更高的跟踪精度、更好的学习性能和更快的收敛速度。     

压辊材料及形状对纤维铺放压紧效果的影响

近年来纤维铺放（AFP）技术被广泛用于大型复杂飞机复合材料构件成型。为了保证纤维铺放过程的一致性,纤维铺放压辊必须在适应芯模型面的同时具有较好的压紧力分布均匀性。鉴于此,对不同弹性模量的压辊材料进行了试验分析,薄膜压力传感器及超声显微镜测试结果表明,低弹性模量的压辊材料变形较大,较好地适应了芯模表面,压力分布相对均匀且可以减少铺层的层间孔隙数量,硅橡胶压辊比聚乙烯压辊压紧力分布均匀性提高了50%~60%,铺层孔隙率降低了92.1%。针对孔隙分布主要集中在压辊两端及压紧力在压辊两端下降幅度较大的问题,采用ANSYS Workbench对压辊端部进行斜端面优化,得到最优倾斜角度为20°;测试结果表明斜端面压辊压力分布均匀性比直断面压辊提高了42.9%,铺层孔隙率下降了51.6%。     

Determination of thermal expansion coefficients for unidirectional fiber-reinforced composites

In the present work, the coefficients of thermal expansion（CTEs） of unidirectional（UD）fiber-reinforced composites are studied. First, an attempt is made to propose a model to predict both longitudinal and transverse CTEs of UD composites by means of thermo-elastic mechanics analysis. The proposed model is supposed to be a concentric cylinder with a transversely isotropic fiber embedded in an isotropic matrix, and it is subjected to a uniform temperature change. Then a concise and explicit formula is offered for each CTE. Finally, some finite element（FE） models are created by a finite element program MSC. Patran according to different material systems and fiber volume fractions. In addition, the available experimental data and results of other analytical solutions of CTEs are presented. Comparisons are made among the results of the cylinder model,the finite element method（FEM）, experiments, and other solutions, which show that the predicted CTEs by the new model are in good agreement with the experimental data. In particular, transverse CTEs generally offer better agreements than those predicted by most of other solutions.     

航空复合材料加筋板压缩屈曲及后屈曲力学性能

航空复合材料加筋板由于具有良好的力学性能,广泛地应用于航空结构中。本工作研究了航空复合材料加筋板压缩屈曲及后屈曲力学性能,首先应用工程方法对复合材料加筋板进行压缩稳定性计算,得到加筋板的屈曲载荷和破坏载荷的预估值;其次,开展复合材料加筋板压缩稳定性实验,得到实验件的屈曲及破坏形式、实验件的载荷-应变及载荷-位移关系和实验件的屈曲载荷和破坏载荷。结果表明:采用工程方法得到的计算结果与实验结果较为吻合,屈曲载荷和破坏载荷的误差分别为6.12%和9.31%,合理应用工程方法可以为实验提供较好的指导;加筋板的破坏形式为壁板的分层、鼓包和撕裂、筋条的断裂以及筋条-壁板的脱粘;屈曲比为1.65的复合材料加筋板具有较强的后屈曲承载能力;工程中可充分应用加筋板的后屈曲承载能力提高结构的利用效率。