2. 5D 衍生结构SiO2 f / SiO2 复合材料的经向力学性能

以几种不同的2.5D衍生结构织物为增强体,制备了法向增强、经向增强及经法向增强2.5D Si O2f/Si O2复合材料,比较了上述材料与现有2.5D Si O2f/Si O2复合材料的经向力学性能,并研究了经法向增强2.5D结构复合材料中增强纱比例、纤维体积分数与材料性能之间的关系,对织物结构进行了优化。结果表明,经法向增强2.5D Si O2f/Si O2复合材料的经向力学性能较现有2.5D复合材料有显著提高,该材料在较低密度下(1.6 g/cm3),经向拉伸强度与现有材料(1.65 g/cm3)持平,且经向压缩强度接近现有材料的4.3倍。     

二烯丙基双酚 A 共聚双马来酰亚胺改性氰酸酯树脂的性能

采用二烯丙基双酚A和二苯甲烷型双马来酰亚胺与双酚A型氰酸酯共聚,以改善氰酸酯树脂的工艺和耐热性能;利用DSC,TGA,DMA表征了树脂的固化行为和耐热性能;此外,还研究了树脂的力学性能及高频下的介电性能。结果表明,改性后的氰酸酯树脂固化反应温度降低了约60℃,改性树脂固化物在氮气气氛下Td5约400℃,Tg约270℃,显示了良好的耐热性能。在7~15 GHz宽频范围下,改性树脂的介电常数3,介电损耗0.008~0.01,显示了良好的介电性能。     

新型柔索式杆束结构压紧释放装置

针对空间机械臂、空间可展开天线等空间机构在收拢状态的杆束结构压紧与释放问题，提出一种基于柔性索捆绑压紧与热刀释放的新型压紧释放装置。建立了柔索式压紧释放装置锁紧状态的力学模型，分析了静态压紧和考虑惯性载荷情况下的绳索预紧力变化情况，得到了满足可靠压紧的绳索预紧力设计值。基于质量和刚度等效，设计了机械臂杆束结构力学等效件，并进行了正弦与随机振动力学试验。试验结果验证了所设计的柔索式杆束结构压紧释放装置的可行性，并可以推广到具有复杂包络的杆束结构压紧释放中。     

Multiscale eigenelement method for periodical composites: A review

Based on the eigenvector expansion idea, the Multiscale Eigenelement Method (MEM) was proposed by the author and co-workers. MEM satisfies two equivalent conditions, one condition is the equivalence of strain energy, and the other is the deformation similarity. These two equivalent conditions character the structure-preserving property of a multiscale analysis method. The equivalence of strain energy is necessary for achieving accurate macro behaviors such as lower order frequencies, while the deformation similarity is essential for predicting accurate micro behaviors such as stresses. The MEM has become a powerful multiscale method for the analysis of composite structures because of its high accuracy and efficiency. In this paper, the research advances of MEM are reviewed and all types of eigenelement methods are compared, focusing on superiorities and deficiencies from practical viewpoint. It is concluded that the eigenelement methods with smooth shape functions are more suitable for the analysis of macro behaviors such as lower order frequencies, and the eigenelement methods with piecewise shape functions are suitable for the analysis of both macro and micro behaviors.     

国产T700级碳纤维增强双马树脂基复合材料的力学性能

采用扫描电子显微镜(SEM)、反气相色谱(IGC)和X射线光电子能谱仪(XPS)对国产T700级碳纤维和东丽T700S碳纤维的表面形貌、表面能和表面化学特性进行表征,测试两种碳纤维增强双马树脂基复合材料的力学性能,考察国产碳纤维复合材料的界面黏结性能、韧性和湿热性能。结果表明:碳纤维表面特性(表面形貌、表面能和表面化学组成等)对复合材料界面黏结性能具有显著影响;国产T700级碳纤维/QY9611复合材料在室温下的界面黏结性能优于T700S/QY9611复合材料;国产T700级碳纤维/QY9611复合材料的韧性优异,冲击后压缩强度达到了国外先进复合材料IM7/5250-4的水平;经湿热处理后的层间剪切强度仍与T700S/QY9611复合材料相当,说明国产T700级碳纤维/QY9611复合材料具备良好的湿热性能。     

Thermal-structural analysis of regenerativelycooled thrust chamber wall in reusable LOX/Methane rocket engines

To predict the thermal and structural responses of the thrust chamber wall under cyclic work,a 3-D fluid-structural coupling computational methodology is developed.The thermal and mechanical loads are determined by a validated 3-D finite volume fluid-thermal coupling computational method.With the specified loads,the nonlinear thermal-structural finite element analysis is applied to obtaining the 3-D thermal and structural responses.The Chaboche nonlinear kinematic hardening model calibrated by experimental data is adopted to predict the cyclic plastic behavior of the inner wall.The methodology is further applied to the thrust chamber of LOX/Methane rocket engines.The results show that both the maximum temperature at hot run phase and the maximum circumferential residual strain of the inner wall appear at the convergent part of the chamber.Struc tural analysis for multiple work cycles reveals that the failure of the inner wall may be controlled by the low-cycle fatigue when the Chaboche model parameter γ3 =0,and the damage caused by the thermal-mechanical ratcheting of the inner wall cannot be ignored when γ3 ＞ 0.The results of sen sitivity analysis indicate that mechanical loads have a strong influence on the strains in the inner wall.     

MD-130 胶黏剂固化工艺及空间适用性研究

为满足航天电子产品的工艺实施和空间服役要求,本文详细开展了MD-130胶黏剂的固化工艺及空间适应性研究。结果表明,在150℃等温固化60 min后其拉伸剪切强度达到18 MPa,表明其为优选的固化工艺。高低温环境冲击和低剂量的粒子辐照后胶黏剂固化反应更加充分,其芯片剪切强度提高,而大剂量辐照致使高分子降解现象明显,造成了胶接强度的降低。经环境试验后,MD-130胶黏剂仍具有良好的力学性能,满足设计使用要求。     

含氢 WC/ C 复合涂层在不同润滑油环境的摩擦性能

利用非平衡磁控溅射技术,通过同时离化乙炔气体和共溅射石墨靶与碳化钨靶,在304不锈钢和单晶硅基底上沉积具有Cr过渡层和WC过渡层的含氢WC/C复合涂层。采用扫描电镜、Raman光谱仪、X射线衍射仪、纳米压痕仪等对涂层的微观结构、力学性能进行分析。利用Rtec摩擦磨损试验机对WC/C复合涂层与304不锈钢基底在PAO基础润滑油环境、发动机润滑油环境以及腐蚀性发动机润滑油环境进行摩擦性能测试。结果表明:涂层内含有较多类石墨sp2键,WC1-x相镶嵌在非晶碳基质中构成多相复合结构;涂层的硬度和弹性模量明显高于304不锈钢基底,且其H/E值远高于基底;与304不锈钢基底相比,在三种润滑油环境下涂层均具有较低的摩擦因数和磨损率。     

Ultrasound assisted solidification process of ternary Cu–Sn–Sb alloy

It is well-known that the application of ultrasound during liquid to solid transitions for alloys can refine the solidification microstructure and thus improves the mechanical properties. How-ever, most published work focuses on single phase dendritic growth, whereas little has been con-ducted on the multiphase alloys with complicated phase transformations during solidification. In this work, the solidification process of ternary Cu40Sn45Sb15 alloy was realized within intensive ultra-sonic field with a resonant frequency of 20 kHz and ultrasound power from 0 W to 1000 W. The ultrasound refines the size of the primary e(Cu3Sn) intermetallic compound by two orders of mag-nitudes. If the ultrasound power increases to 1000 W, g(Cu6Sn5) phase nucleates and grows directly from parent liquid phase without the occurrence of peri-eutectic reaction on the top of the alloy sam-ple where the ultrasound intensity is sufficiently high. These microstructural variations lead to the enhancement of compressive strength and elasticity modulus of ternary Cu40Sn45Sb15 alloy.     

A drilling tool design and in situ identification of planetary regolith mechanical parameters

The physical and mechanical properties as well as the heat flux of regolith are critical evidence in the study of planetary origin and evolution. Moreover, the mechanical properties of planetary regolith have great value for guiding future human planetary activities. For planetary subsurface exploration, an inchworm boring robot (IBR) has been proposed to penetrate the regolith, and the mechanical properties of the regolith are expected to be simultaneously investigated during the penetration process using the drilling tool on the IBR. This paper provides a preliminary study of an in situ method for measuring planetary regolith mechanical parameters using a drilling tool on a test bed. A conical-screw drilling tool was designed, and its drilling load characteristics were experimentally analyzed. Based on the drilling tool-regolith interaction model, two identification methods for determining the planetary regolith bearing and shearing parameters are proposed. The bearing and shearing parameters of lunar regolith simulant were successfully determined according to the pressure-sinkage tests and shear tests conducted on the test bed. The effects of the operating parameters on the identification results were also analyzed. The results indicate a feasible scheme for future planetary subsurface exploration.