全局仿射变换条件下图像不变量提取新方法

从仿射几何理论出发,提出了一种全局仿射变换条件下图像特征不变量构造的新方法.利用仿射区域划分获取一组扩展质心集合作为图像特征点集;求解特征点集的凸包,根据扩展质心的性质将凸包顶点均匀组合成若干特征区域;利用仿射几何性质构造了有效的仿射不变量.实验对该方法进行了全面的比较分析,以验证所构造的不变量更具稳定性和高时效性.     

随机-非概率模型下的船体结构屈服强度可靠性分析

针对在役舰船船体载荷、材料属性的随机特性和实船勘验得出的腐蚀损伤下船体抗力区间特性,提出一种基于随机概率理论和区间非概率理论的随机-非概率可靠性分析模型,分别从区间变量随机化和随机变量区间化两个角度给出该模型的可靠性指标求解方法。基于该模型对某舰船船体结构屈服强度进行可靠性分析,结果表明:该模型既体现了结构变量的客观不确定性又减弱了评估结果的盲目保守性,对于既含有随机变量又含有区间变量的在役舰船的可靠性评估具有很强的适用性。     

运动船舶磁性船体产生的感应电场

为了研究运动船舶磁性船体产生的感应电场,以库伦定律和毕奥-沙伐定律等电磁场基本理论为基础,对磁偶极子运动产生的感应电场进行了建模,通过实验证明了分析方法的正确性,解决了以往模型适用范围窄、准确性差的问题;并以磁偶极子感应电场模型为基础,得到了磁性船体的感应电场模型,利用实船的磁场数据进行了实例计算,得出船舶附近感应电场可达1m V/m,达到了可探测水平。     

度量空间的非标准特征(I)

本文首先引进度量空间非标准包的定义,然后将讨论非标准包的许多性质。在此基础上,用非标准方法来刻划度量空间中的各种紧性。最后应用这些结果,将证明ＡｒｚｅｌａＡｓｃｏｌｉ定理,并在较弱的条件下,得到Ｂａｎａｃｈ不动点定理。     

耐压液舱区域耐压船体强度的研究

本文把带纵骨实肋板式耐压液舱和对应的耐压船体看成一弹性整体,求解了耐压液舱区耐压船体的应力响应,并通过塑性极限分析,求得了其极限承载能力。理论分析与有限元计算及实验结果相比较,吻合较好。     

外军军官职业教育对武警初级指挥院校任职教育的启示

外军军官职业教育课程设置强调实用性、针对性,重视实践环节,与部队联系紧密。武警初级指挥学院任职教育要加大实用性,完善实践环节,拓展交流渠道,突出特色教学,全面提升教育质量。     

复合材料层合结构层向理论及应用进展

层向理论是由Reddy提出来的一种用于精确分析复合材料层合结构的三维板壳分析理论。由于不引入任何的变形和应力假设条件,因此相较于传统的等效单层板理论,层向理论在分析大厚度复合材料层合板壳结构的静动态响应及其局部层间效应时具有较大的优势。系统地综述了层向理论近年来的研究进展、数值解法及其应用情况。具体包括:层向理论的基本原理及发展现状、基于层向理论的有限元方法及改进模型、层向理论在复合材料层合结构静动态响应及含损伤问题领域的应用等。并对该理论可进一步拓展的研究方向进行了展望。     

Damage to aircraft composite structures caused by directed energy system: A literature review

This paper presents a comprehensive review of the research studies on direct energy system effect on aircraft composite structures to develop a good understanding of state-of-the-art research and devel-opment in this area. The review begins with the application of composite materials in the aircraft structures and highlights their particular areas of application and limitations. An overview of directed energy system is given. Some of the commonly used systems in this category are discussed and the working principles of laser energy systems are described. The experimental and numerical studies re-ported regarding the aircraft composite structures subject to the effect of directed energy systems, especially the laser systems are reviewed in detail. In particularly, the general effects of laser systems and the relevant damage mechanisms against the composite structures are reported. The review draws attention to the recent research and findings in this field and is expected to guide engineers/researchers in future theoretical, numerical, and experimental studies.     

921A 钢结构低周疲劳裂纹扩展特性试验研究

采用预制缺口的平板和加筋板结构试样,对 921A 钢进行了拉伸疲劳载荷作用下的低周疲劳试验得到了拉伸疲劳载荷作用下舰体结构破口裂纹扩展规律,提出了破损舰体结构在疲劳载荷作用下裂纹开裂和后续扩展的判据.该试验结果可直接用于分析和预报破损舰船结构在波浪中航行时的裂纹扩展情况,并为破损舰船的剩余疲劳寿命预报奠定了基础.     

Effects of material of metallic frame on the penetration resistances of ceramic-metal hybrid structures

The effects of metallic material on the penetration resistances of ceramic-metal hybrid structures against vertical long-rod tungsten projectiles were studied by artillery-launched experiments and numerical simulation. Hybrid structures with rectangular cores in transverse orthogonal arrangement and slide-fitting ceramic inserts of zirconia toughened alumina prisms were fabricated with titanium alloy TC4 (Ti6Al4V), AISI 4340 steel and 7075 aluminum alloy panels, respectively. The results showed that the hybrid structure of Ti6Al4V exhibited the highest penetration resistance, followed by that of 7075 aluminum alloy with the same area density. The penetration resistance of the hybrid structure of AISI 4340 steel was the lowest. The underlying mechanisms showed that the metallic material of a ceramic-metal hybrid structure can directly affect its energy absorption from the impact projectile, which further affects its penetration resistance. Different metallic frames exhibited different failure characteristics, resulting in different constraint conditions or support conditions for ceramic prisms. The high penetration resistance of the Ti6Al4V hybrid structure was due to its stronger back support to ceramic prisms as compared with that of AISI 4340 steel hybrid structure, and better constraint condition for ceramic prisms by metallic webs as compared with that of 7075 aluminum alloy hybrid structure. The results of mass efficiency and thickness efficiency showed that the Ti6Al4V hybrid structure has advantages in reducing both the thickness and the mass of protective structure. In addition, because the ceramic-metal hybrid structures in the present work were heterogeneous, impact position has slight influence on their penetration resistances.