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。     

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。     

卫星热控涂层地面模拟试验与在轨验证比对分析

卫星在轨运行期间，热控涂层要经受空间复杂环境效应的影响，其光学和热控性能逐渐下降，影响卫星可靠性和寿命。本文利用卫星搭载技术，完成热控涂层5年的在轨试验，验证空间多因素环境对热控涂层的影响。同时，利用地面模拟试验装置，模拟空间质子、电子、紫外等5年的辐照剂量对热控涂层的作用。对在轨试验结果进行解读和分析，并与地面模拟试验结果进行比对。结果显示，在搭载试验和地面试验前，热控涂层太阳吸收比（α_s）为0.12，经5年在轨搭载试验后，α_s退化为0.23。经地面模拟试验后，α_s退化为0.22。搭载试验和地面试验的热控涂层性能均呈现线性退化规律，表明在确定的轨道环境和固定的剂量率条件下，热控涂层的退化与环境作用时间正相关，同时验证了地面试验的有效性。     

Coupled evolution of piston asperity and cylinder bore contour of piston/cylinder pair in axial piston pump

The wear condition of the piston/cylinder pair is crucial to the performance and reliability of the axial piston pump. The hard piston surface, the soft cylinder bore surface, and the interface oil film affects each other during the wear process. Specifically, in the mixed lubrication region, the geometry of the hard piston surface asperity directly affects the wear of soft cylinder bore surface, while the asperities may deform or even degrade when penetrating and sliding against the cylinder bore. So far, there is no suitable method to simulate their coupled evolution. This paper proposed a wear process simulation model considering the real-time interaction between the elasto-plastic deformation of the piston surface asperity, the wear contour of the cylinder bore, and the lubrication condition of the interface. An offline library of the elasto-plastic constitutive behavior of the asperity based on the finite element method (FEM) is established as a part of the simulation model to precisely analyze the deformation and degradation of the asperity and quickly invoke them in the numerical wear process simulation. The simulation and experimental results show that the piston asperity and the cylinder bore contour converge to a steady state after running-in for about 0.5 h. The distribution of the simulated asperity degradation and wear depth is also verified by the experiment.     

Quantitative contribution of climate change and anthropological activities to vegetation carbon storage in the Dongting Lake basin in the last two decades

The Dongting Lake Basin is an important hydrological regulation and flood storage area in the Yangtze River Basin, which plays an important role in maintaining regional ecological security. The watershed vegetation and its carbon sequestration capacity have changed dramatically due to climate change and human activities in the last two decades. In this paper, the monthly and annual vegetation net primary productivity (NPP) of the Dongting Lake basin during 2000 to 2020 was firstly estimated using the improved Carnegie-Ames-Stanford Approach (CASA) model. Then the multi-year NPP change trend and its significance were analyzed based on Theil-Sen median and Mann-Kendall method. Subsequently, the Hurst index was used to simulate the vegetation NPP persistence in the study area. Finally, the driving mechanisms of vegetation NPP changes in the study area were explored using partial correlation coefficients and residual analysis. The results demonstrated that: 1) The annual average NPP in the basin showed a fluctuating and increasing trend from 273.54 to 718.30 g C/m²·yr¹ during 2000 to 2020, and except for autumn, all seasons (spring, summer, winter) and annual NPP series showed an upward trend. The spatial distribution of vegetation NPP is characterized by an asymmetrical horseshoe shape in general, with high values in the west, south and east parts, and low values in the Lake area; 2) During the study years, about 84.38 % of the basin area showed a significant and extremely significant increase of NPP; 3) The future trend of vegetation NPP in the basin shows that the area of decrease (22.79 %) is more than the area of increase (11.35 %). The Chang-Zhu-Tan urban agglomeration will generally show a continuous and extremely significant reduction trend, while parts of Dongting Lake will show a continuous and extremely significant increase trend; 4) The correlation between solar radiation and NPP is stronger than the other two meteorological factors (precipitation and temperature). Temperature has a significant inhibitory effect on NPP, solar radiation has a significant promoting effect on NPP, and the effect of precipitation on NPP was relatively complicated. The relative importance of meteorological factors on vegetation NPP was ranked as follows: solar radiation > precipitation > temperature. The impacts of both climate change and human activities on NPP changes showed great spatial variability, and the positive contributions (89.81 % for climate change and 82.87 % for human activities) were both greater than the negative contributions.     

变循环发动机风车起动建模及仿真研究

为了满足变循环发动机风车起动性能仿真的需求，建立了变循环发动机部件级风车起动模型。针对旋转部件等熵效率不连续的问题，提出使用换算扭矩代替等熵效率的方法，给出了旋转部件全转速特性拓展方法。提出了考虑点火及燃烧稳定性的燃烧室稳定性模型。考虑了变循环发动机的8个可调参数，采用差分进化算法对变循环发动机的风车及风车起动性能进行了优化。结果表明，风车状态时，变循环发动机在单外涵模态具有更高的核心机物理转速，有利于点火之后核心机物理转速快速趋于其慢车值。单外涵模态时，变循环发动机在风车状态的可调参数仅与飞行马赫数有关，为了保持较高的核心机物理转速，后涵道引射器外涵面积需随飞行马赫数的增加而减少，其余参数皆固定在其最佳值。飞行高度6km、马赫数0.8时，变循环发动机在单外涵模态下的风车起动时间为1.4s。风车起动过程中燃油流量的增长主要受燃烧稳定性所约束。通过对可调参数的优化，可使变循环发动机在风车起动过程中的关键性能参数最大程度的逼近其限制值，从而减少风车起动时间。     

考虑汽化的喷嘴高温气流注水两相流动规律

针对某火箭发动机考虑汽化的注水气液两相流问题，研究了液态水的汽化机理。根据不同环境压力下水的饱和温度建立了汽化模型，编制适合于液态水的专用汽化相变求解程序，并通过添加汽化组分源项及热源项的方法将汽化相变计算嵌入到多相流场控制方程中，实现了考虑液态水汽化相变的三维多相流场求解。结合经典算例进行了对比，特征点的两相流场温度计算值和试验的误差控制在8.5%以内，验证了程序三维计算的可靠性。距火箭喷嘴不同距离横截面的两相质量转化率曲线显示，质量转化率从最低值上升到最高值，然后降低到最低值，揭示了考虑相变的气液两相相间反应转化机理。该方法可为运载火箭发射平台发射起始阶段水室的汽化降温提供参考。