基于压缩感知的金属加筋板兰姆波健康监测技术

针对大型复杂板结构安全评价需要，发展了一种基于压缩感知的金属加筋板结构兰姆波健康监测技术。利用压缩感知技术从稀疏阵列得到的少量检测数据中恢复出加筋板结构中兰姆波的频散特性，并提出了一种将余弦相似度和皮尔森相似度相结合的稀疏阵列兰姆波复合成像方法，以实现加筋板结构中大范围缺陷检测和成像。实验结果表明，压缩感知技术可以恢复出金属加筋板中兰姆波的频率-波数关系，提出的兰姆波复合成像方法能够实现金属加筋板中单缺陷和多缺陷的检测及定位。研究工作为复杂板结构损伤检测提供了一种可行的技术方案。     

腈纶/芳纶共混短纤维用量对柔性绝热层材料性能的影响

比较了腈纶短纤维增强EPDM／NBR共混橡胶（EN体系）、芳纶短纤维增强EPDM／NBR共混橡胶（EA体系）、腈纶／芳纶混杂短纤维增强EPDM／NBR共混橡胶（ENA体系）等3种体系中,短纤维用量对材料不同方向上力学性能的影响;EA和ENA两种不同体系中,短纤维用量对材料烧蚀性能和相对密度的影响。在短纤维用量为6份时,ENA体系的拉伸强度和伸长率比EA体系大,烧蚀性能比EA体系好,相对密度也比EA体系低。     

铣削过程中残余应力仿真分析

在铣削加工零件时,零件各部分的残余应力分布不均匀,会使工件发生变形,影响工件的形状和尺寸精度.采用有限元分析方法,利用有限元增量理论建立了加工材料的弹塑性本构关系.针对立铣刀的铣削加工,建立了二维金属铣削仿真模型,分析中采用网格自适应准则,通过对典型钢件的加工模拟,得到了加工后已加工表面的残余应力的分布情况和整个加工过程中工件的受力情况,对于工程中的实际应用具有重要的意义.     

SCC investigation of low alloy ultra-high strength steel 30CrMnSiNi2A in 3.5wt%NaCl solution by slow strain rate technique

To evaluate stress corrosion cracking(SCC) mechanism of low alloy ultra-high strength steel 30CrMnSiNi2 A in environment containing NaCl, SCC behavior of the steel in 3.5wt% NaCl solution is investigated by slow strain rate technique(SSRT) with various strain rates and applied potentials, surface analysis technique, and electrochemical measurements. SCC susceptibility of the steel increases rapidly with strain rate decreasing from 1 · 10 5s 1to 5 · 10 7s 1, and becomes stable when strain rate is lower than 5 · 10 7s 1. SCC propagation of the steel in the solution at open circuit potential(OCP) needs sufficient hydrogen which is supplied at a certain strain rate.Fracture surface at OCP has similar characteristics with that at cathodic polarization 1000 mVSCE, which presents characteristic fractography of hydrogen induced cracking(HIC).All of these indicate that SCC behavior of the steel in the solution at OCP is mainly controlled by HIC rather than anodic dissolution(AD).     

焊接结构的疲劳评定方法

焊接结构的疲劳强度是焊接结构完整性的重要保证.焊接结构的疲劳强度取决于整体结构构造及接头特征等因素,焊接结构的疲劳评定需要考虑焊接接头类型及局部力学行为等不同结构层次的作用.目前已发展了名义应力评定方法、结构应力评定方法、局部应力应变评定方法和断裂力学评定方法.     

复材C梁角度偏差对装配静强度影响的建模仿真研究

针对含有角度偏差的复合材料C形梁的典型装配结构,建立了一种研究其角度偏差对装配结构的静载强度影响的有限元模型,设计了含有角度偏差的典型结构的单拉试验以获得最大静载强度的试验数据.在有限元软件ABAQUS中建立了仿真模型,采用基于应变描述的三维Hashin准则预测材料的失效,编写用户材料子程序(UMAT)仿真单拉过程.与试验结果对比验证了模型有效性,为进一步分析复合材料C形梁的角度偏差对其典型装配结构的静载强度影响规律提供了理论基础.     

波音757客改货15货盘的L1门区域改装

L1门区域改装是波音757-200客改货工作的核心内容,本文简要介绍了进行波音757-200客改货(15个货盘改装方案)L1门区域改装中所采用的的工作方法。     

Stress analysis and damage evolution in individual plies of notched composite laminates subjected to in-plane loads

This work aims to investigate local stress distribution, damage evolution and failure of notched composite laminates under in-plane loads. An analytic method containing uniformed boundary equations using a complex variable approach is developed to present layer-by-layer stresses around the notch. The uniformed boundary equations established in series together with conformal mapping functions are capable of dealing with irregular boundary issues around the notch and at infinity. Stress results are employed to evaluate the damage initiation and propagation of notched composites by progressive damage analysis(PDA). A user-defined subroutine is developed in the finite element(FE) model based on coupling theories for mixed failure criteria and damage mechanics to efficiently investigate damage evolution as well as failure modes. Carbon/epoxy laminates with a stacking sequence of [45°/0°/ 60°/90°]sare used to investigate surface strains, in-plane load capacity and microstructure of failure zones to provide analytic and FE methods with strong validation. Good agreement is observed between the analytic method, the FE model and experiments in terms of the stress(strain) distributions, damage evaluation and ultimate strength, and the layerby-layer stress components vary according to a combination effect of fiber orientation and loading type, causing diverse failure modes in individuals.     

HIT-J01 腻子的制备及性能

采用有机硅树脂掺杂无机粒子制备了一种耐高温腻子(HIT-J01),研究了其粘接性能、膨胀特性和抗热震性能。通过SEM及XRD分析了腻子的微观结构和相变化。结果表明:制备的腻子具有良好的粘接和抗热震性能,粘接C/Si C的单搭接剪切强度为5.5 MPa,1 200℃在线单搭接剪切强度1.8 MPa。腻子同基材C/Si C具有良好的热膨胀匹配性能。HIT-J01腻子在高温条件下生成的Al2O3·(B2O3)n融体。在风洞考核环境下,腻子封堵面平均温度高达1 200℃,最高温度达到1 400℃,风洞实验后,腻子表观平整、无裂纹。     

飞机刹车钢制骨架校平工艺新技术探索

国内现役飞机刹车主要以钢制刹车为主，刹车修理时通常采用热时效的方法对钢制骨架进行校平修理。本文探索一种新的校平工艺，以振动时效取代热时效的方法来消除校平的残余应力，从而达到热时效的工艺效果。