HTPB复合固体推进剂率相关损伤机理分析与验证

固体发动机在点火过程中常由于结构完整性问题而出现爆炸或性能曲线异常等问题，结合发动机在点火状态下推进剂的受载情况，亟待探索固体推进剂的率相关损伤机理。本研究从某HTPB复合固体推进剂在宽温和宽应变率下单向定速拉伸试验的力学响应特征入手，针对应力-应变曲线呈现的“双峰”、“脱湿”点前后移位等现象阐释了推进剂的率相关界面损伤特性。然后，基于建立的推进剂细观有限元模型对推进剂的率相关损伤过程进行了仿真计算，通过提取有限元分析结果的损伤界面分析了推进剂的界面损伤机理。最后，通过高速摄像试验的结果对损伤机理进行了验证。结果表明，推进剂的界面损伤过程具有很强的率相关性，“双峰”和“脱湿”点前后移位均与推进剂在不同应变率下拉伸时内部的损伤演化过程有关。通过对比推进剂在不同应变率下拉伸时断裂前的形貌，高应变率下AP颗粒析出数量较多，在一定程度上印证了本研究对推进剂损伤机理的阐释。     

超声振动辅助切削对碳纤维增强树脂复合材料面下损伤影响的仿真研究

碳纤维增强树脂基复合材料（CFRP）在传统加工（OC）过程中存在着切削力过大、表面质量不佳、面下损伤较为严重等问题。为了改善上述问题，本文提出使用超声振动辅助切削（UVC）工艺加工CFRP，通过仿真分析对切削力与面下损伤深度进行研究。结果表明：使用UVC加工CFRP可降低13%~80%的切削力，且纤维方向角对切削力影响较小。与OC相比，UVC切削0°、45°纤维方向角的CFRP时可以减少约50%的面下损伤深度；在切削90°、135°纤维方向角的CFRP时虽然没有改善面下损伤深度，但取得了较为平整的已加工表面以及较小的损伤区域。     

UHMWPE/LDPE层合板复合材料损伤声发射信号识别

为了掌握UHMWPE/LDPE复合材料的损伤机理,运用声发射技术结合聚类分析方法建立不同损伤形式的声发射信号训练样本,通过神经网络实现损伤信号的识别,并分别探讨了训练函数、传递函数、网络结构等因素对识别率的影响。研究表明,由系统聚类可提取幅度、峰值频率、持续时间为模式特征,结合Kmeans聚类可建立11个类别共583信号的训练样本。以混淆矩阵为识别率指标,当训练函数为traingdx、隐层/输出层传递函数为tansig/logsig、隐层神经元数量为70时,网络的识别率达97.2%,为基于声发射技术的热塑性基体复合材料损伤识别提供参考。     

Interference mechanism and damage accumulation in high-speed cross scratches on hard brittle materials

Precision and low damage grinding of aviation optical elements can effectively improve the overall processing efficiency. The mechanism of high-speed cross scuffing of multiple abrasive particles has become an important factor affecting the forming quality of workpiece. Interaction of abrasive trajectory determines machined surface and subsurface morphology and damage.According to the relative motion trajectory of wear particles on the workpiece surface, a theoretical model of the trochoidal tra...     

Damage sensitivity of a wing-type leading edge structure impacted by a bird

On the windward side of an aircraft, the components with higher probability of impact with birds are the wing-type leading edge structures, such as the wing and tail. A study on the damage sensitivity of a wing-type leading edge structure under bird strikes was presented in this paper. First, a bird strike test was carried out on a wing. The principles of the bird strike test equipment and method were introduced in detail, including the bird strike test system, bird projectile production process and data acquisition system. The dynamic strain measurement results, the high-speed camera videos, and the final deformation and damage morphology observations of the structure were obtained. Based on the coupled Smooth Particle Hydrodynamics (SPH) - Finite Element Method (FEM), the commercial software PAM-CRASH was used to simulate the process of a bird strike with the wing. The good agreement between the finite element simulation results and the experimental results shows that the calculation method and the numerical model presented in this paper were reasonable. On this basis, wing-type leading edge structures can be designed by adding triangular support. The bird strike resistances of an original structure and improved structure were studied by numerical simulation. The calculated results show that the improved wing-type leading edge structure is less damaged than the original structure under bird strike. The improved leading edge structure satisfied the anti-bird strike airworthiness requirements, as the thickness of the triangular support was 1.2 mm, and the weight of the structure was reduced by 0.87 kg compared with the original structure. This indicated that the bird strike resistance of the improved structure is better than that of the original structure, and the improved design of the wing-type leading edge structure presented in this paper is reasonable.     

复合材料加筋板冲击后损伤容限研究

研究复合材料加筋板受冲击后的损伤演化具有较高的工程应用价值。首先,以某型无人机拟应用的复合材料加筋壁板(T300/BA9913)为研究对象,对其进行低速冲击试验;在壁板中央处和肋与壁板胶结处进行冲击,其冲击能量取6.67 J/mm,测量凹坑深度和分层损伤面积。然后,应用商业软件ABAQUS,编写相应的VUMAT子程序对冲击损伤进行模拟,软件中采用适宜的材料模型、单元种类并建立不同属性的接触,把基于应变的三维Hashin准则运用于复合材料单层板的损伤失效准则中去。最后,运用基于断裂韧度的连续的刚度退化方针对材料的刚度折减。将所建立的冲击模型的模拟结果与冲击试验数据进行对比,证明了冲击模型的有效性和准确性。     

Assessment of two quasi-static approaches to mimic repeated impact response and damage behaviour of CFRP laminates

Full impact damage tolerance assessment requires the ability to properly mimic the repeated impact response and damage behaviour of composite materials using quasi-static approximations. To this aim, this paper reports an experimental investigation evaluating two quasi-static methods for mimicking repeated impact response and damage behaviour of Carbon Fibre Reinforced Polymer (CFRP) composite laminates. In this study, an 8.45-J single impact was repeated 225 times and mimicked with 225 times 6.51-J quasi-static (energy equivalent) indentations and with 225 quasi-static (force equivalent) indentations following the recorded impact peak force variation. Results show that the loading rate and the inertial effect are the two major factors affecting the responses of the composite laminates under out-of-plane concentrated loading. Both the energy- and force-equivalent quasi-static indentations failed to reproduce the impact responses greatly associated with high loading rate and inertial effect. The force-equivalent quasi-static indentations were performed in a semi-automatic way and induced damage states more similar to those of the repeated impacts than those of the energy-equivalent quasi-static indentations, whereas the latter can be better automated and has better reproducibility compared to that of the repeated impact responses, as it is less dependent on high loading rate and inertial effect.     

碳纤维增强复合材料力学性能退化及失效过程的研究进展

碳纤维增强复合材料（CFRP）内部损伤的不确定性及异质材料多模式损伤耦合的复杂特性，严重制约了构件的低冗余设计以及在苛刻环境下的长寿命可靠应用。随着试验和数值模拟手段的不断进步，有力推动了碳纤维增强复合材料力学性能退化及失效过程的研究，本文在总结国内外复合材料损伤行为研究的基础上，概述了静态、冲击、疲劳载荷以及湿热环境对CFRP损伤演化及失效行为的影响，对CFRP的多种损伤模型、试验方法及所取得的成果进行归纳，并展望了高精度仿真预测建模分析及各向异性材料复杂损伤模式的损伤机理分析等方面的研究发展趋势。     

典型机身框地板梁缘条裂纹修理损伤容限分析

采用简单有效的方法对复杂的飞机结构进行损伤容限评定具有重要的意义,提出一种简单有效的应力强度因子获取方法,并结合损伤容限分析的一般流程,分析某机身框地板梁缘条含裂纹修补结构的疲劳寿命及使用寿命期内结构的剩余强度。根据机身框地板梁结构受载特点建立简化的分析模型,计算单位载荷时不同长度下裂纹尖端应力强度因子,再由结构边界载荷与应力强度因子的关系确定无量纲应力强度因子;根据损伤容限分析方法编制程序,计算结构在飞行载荷谱下从初始裂纹扩展到临界长度的寿命及各裂纹长度下结构的剩余强度,给出结构检查间隔。结果表明:结构修补后的疲劳寿命及剩余强度均满足损伤容限设计要求。本文给出的损伤容限分析过程及方法可应用于工程中类似结构的损伤容限评定。     

钛合金板铆接修理复合材料机身蒙皮分析

波音787飞机的机身蒙皮采用全复合材料,对于复合材料机身蒙皮的修理,波音787结构维修手册给出了明确的修理方案,其中包括复合材料机身蒙皮的钛合金板铆接修理。然而,对维修方案背后的理论依据,即强度、刚度等力学特性要求没有叙述。基于此,本文对复合材料机身蒙皮的钛合金板铆接修理建立了两种维修的三维有限元模型,分析了这两种维修方案母板、补片和填平板的应力大小和应力分布特性。研究表明:复合材料机身蒙皮大的穿透型裂纹钛合金板铆接修理能够满足静强度要求,两种维修方案的钛合金补片破坏源发生在不同位置。