温度-荷载耦合场下机场跑道剩余寿命评价模型

针对道面板在飞机荷载与温度耦合场复合作用下的道面寿命问题，首先，通过试验准确测量基于道面板深度的温度分布情况，得出了不同厚度道面板最大温度梯度推荐值，确定了仿真温度场加载参数。然后，在大量仿真试验分析的基础上，开展土基模量、道面板厚度和温差因素对道面板内应力的敏感性影响分析，建立温度应力与温差相关性关系模型，并通过实例验证其有效性。最后，在道面板临界荷位处进行飞机与温度耦合仿真加载试验分析，结果表明温度梯度和飞机荷载共同作用下产生的耦合应力小于温度翘曲应力和荷载应力的叠加之和，两者相差4.93%。基于荷载和温度耦合作用下的应力损伤累积原理，计算道面剩余容许作用次数，构建耦合场下道面剩余寿命评价模型，并进行实例应用。     

AA7075-T6 Ⅰ-Ⅱ复合疲劳裂纹扩展研究北大核心CSCD

通过AA7075-T6铝合金在不同加载角度下的Ⅰ-Ⅱ复合高周疲劳裂纹扩展试验,利用FRANC3D中M-积分计算了复合型裂纹尖端的等效应力强度因子幅值,结合七点递增多项式对数据处理,得出了复合疲劳裂纹扩展速率曲线,分析了复合疲劳性能,并探讨了复合裂纹扩展的路径及断口特性。结果给出了纯Ⅰ型疲劳裂纹扩展速率曲线在稳定扩展阶段的Paris公式的参数;并表明:Ⅰ型疲劳裂纹扩展寿命最长,复合疲劳裂纹扩展寿命都有不同程度的减少;复合疲劳裂纹开裂方向的数值分析及实验结果与理论吻合;复合疲劳断口表现为脆性断裂。     

An improved altimeter-derived gravity anomaly from shipborne gravity based on the mean sea surface height constraint factors method

Coastal marine gravity modeling faces challenges due to the degradation of the quality and poor coverage of altimeter data in coastal regions. The effective fusion of shipborne gravity data and altimeter-derived marine gravity data can make shipborne gravity data more useful for the accurate estimation of altimeter-derived coastal marine gravity. A mean sea surface height constraint factor (MSSHCF) method based on the ordinary kriging method and the remove-restore technique is proposed to fuse altimeter-derived gravity model with shipborne gravity data. In this method, all data are standardized during the interpolation process to reduce the error and mean sea surface as a vertical variable is added to the semi-variance function in ordinary kriging to obtain the residual shipborne gravity as corrected data source. The coastal marine gravity models V2.1 and V3.1 which fused altimeter-derived gravity data with shipborne gravity data and V1.1 without shipborne gravity data at a spatial resolution of 1′×1′ can be obtained. Validation experiments show that the accuracy of the gravity model V3.1 obtained by the MSSHCF method more closely agrees with the validated gravity model DTU17 and SS V31 than the model V2.1 obtained by the ordinary kriging interpolation method and the V1.1 model. Our results were validated against shipborne gravity data; the accuracy of model V3.1 was 4.95 % higher than the model V1.1 in South China Sea area A and 2.48 % higher in South China Sea area B. Meanwhile, the accuracy of model V3.1 was 2.07 % higher than model V2.1 in South China Sea area A and 2.42 % higher in South China Sea area B. The effects of distance from the coast and sea depth on the marine gravity model were also evaluated. The results show that the gravity model V3.1 has higher accuracy with the change in ocean distance and depth than the V2.1 and V1.1 gravity models. Thus, our study shows that the MSSHCF method effectively refines coastal altimeter-derived gravity using shipborne gravity data.     

Mahalanobis distance-based fading cubature Kalman filter with augmented mechanism for hypersonic vehicle INS/CNS autonomous integration

Inertial Navigation System/Celestial Navigation System(INS/CNS) integration, especially for the tightly-coupled mode, provides a promising autonomous tactics for Hypersonic Vehicle(HV) in military demands. However, INS/CNS integration is a challenging research task due to its special characteristics such as strong nonlinearity, non-additive noise and dynamic complexity.This paper presents a novel nonlinear filtering method for INS/CNS integration by adopting the emerging Cubature Kalman Filter(C...     

基于传力路径的飞机加强框结构优化方法研究

在飞机结构设计中,主传力构件的轻量化设计十分关键.通过引入结构承载因子,对加强框结构的传力路径进行量化,得到加强框结构最佳的传力路径.相对于传统的结构尺寸优化设计方法,提出的基于承载因子的传力路径优化方法仅需要考虑结构外形和载荷对结构承载的影响,不必考虑结构细节尺寸大小,因此,该方法具有高度的概括性和综合性.同时,通过...