含缺陷管道评价标准及方法研究

为提高含缺陷管道剩余寿命预测的精确程度,系统阐述了国内外含缺陷管道的评价标准及评价方法,介绍了AGA NG-18标准、ASME B31G标准以及缺陷的具体评价方法,分析了各自的特点,针对评价方法提出了以有限元分析为研究方向的结论。     

问题链式教学模式在工程力学课程教学中的应用

描述了问题链式教学模式的内涵,并结合工程力学课程中应力状态分析的具体实例,将该教学内容梳理、提炼和升华,设计成链状结构的环环紧扣的问题集合,说明了问题链式教学模式的应用方法。由此可以引导学生探索性地发现问题、解决问题,提高学生的独立思考和创新思维能力。     

轴对称静电场不等距多重网格法的研究

研究了不等距多重网格法,可用于区域形状任意和有内电极的实际电子光学系统轴对称电场的计算,特别是对于求解区域大、部分区域电场精度要求高的场合,较好地解决了计算精度与划分网格点数之间的矛盾,可广泛应用于分析设计静电聚焦像管的电子光学系统,以及摄像管电子枪的发射系统等.     

飞行器动力学环境预示技术应用研究

动力学环境试验技术已被广泛应用 ,但动力学环境预示技术还没有得到很好的重视和发展。讨论了几种动力学环境预示方法的特点 ,着重研究了统计能量分析 ( SEA)方法的原理及其应用 ,并以某型号发动机长尾喷管舱为例 ,具体给出其工程分析估计过程     

武器装备系统效能评估的几种方法

介绍了层次分析法、美国工业界武器系统效能咨询委员会方法、指数方法、专家调查法和SEA计5种评估武器装备系统效能的方法．只有熟练地掌握和正确运用这些方法才能对不同类型武器系统效能评估作出准确的判断,从而为武器装备的研制、采购提供客观的、定量的数据,避免造成人力、物力、财力的浪费．     

面向对象仿真方法框架研究

提出了面向对象仿真方法框架 ,详细说明了它的概念和基本结构 ,通过对某型防空导弹制导控制系统的仿真研究 ,证明了它的合理性和在系统仿真研究中的重要性     

Round robin using the depth of penetration test method on an armour grade alumina

The depth of penetration (DOP) method is a well-known ballistic test method for characterisation and ranking of ceramic armour materials. The ceramic tile is bonded to a backing material of semi-infinite thickness, and the penetration depth of the projectile gives a measure of the performance of the ceramic. There is, however, an inherent variability in the results from this test method. In this work, the accuracy and the variability of the DOP method has been investigated in a round robin exercise. Six ballistic test centres took part in the exercise. A test protocol was developed, in which the threat type (projectile and impact conditions) and a procedure on how to prepare the targets were specified. The targets consisted of alumina tiles of two different thicknesses that were bonded to polycarbonate backing cubes. Two different 7.62 mm armour piercing projectiles were employed; one with a hard steel core and one with a tungsten carbide core. The projectiles and the other materials all came from single material batches in order to avoid batch-to-batch variations in material properties. These materials were distributed between the ballistic test centres. The test results of the different ballistic test facilities were collected and compared. There was not a lot of variation between the average DOP values obtained at each laboratory, but the variation in penetration depth between shots was high. The consequence of this variation may be less confidence in the test results, and a statistical method was used to evaluate the required number of tests that are sufficient to obtain an average result with high confidence. In most cases, the required number of tests is much higher than what is practically feasible. This work was conducted as part of the European Defence Agency-project CERAMBALL.     

充分发展湍流管道内壁边界的红外定量识别

基于导热的管道内壁边界识别已发展成熟,但更贴合实际的湍流管道内壁边界的定量识别尚未见报道。通过关联COMSOL和MATLAB,利用有限元方法和Levenberg-Marquardt算法对二维轴对称充分发展的湍流管道内壁边界形状的稳态识别进行研究。数值实验证明了本方法的有效性。结果表明,在含内壁缺陷的湍流管道中,外壁最大温差和由缺陷引起的绝对温差并不是同步增加的;在进行内壁边界反问题识别时,由于绝对温差中负增长的出现,绝对温差越大,识别结果未必越好;识别精度在不规则内壁终点处略微变差。     

温度对舰船阴极保护和腐蚀静电场的影响

海水中氧溶解量和海水电导率是影响海水腐蚀性能的重要因素,而这两个因素主要取决于海水的盐度和温度。采用边界元法建立舰船外加电流阴极保护和腐蚀静电场模型,研究不同海水温度下氧溶解量、电导率及氧的扩散系数对舰船腐蚀防腐静电场的影响。结果表明,腐蚀电场峰值随着温度的升高而减小,当两对阳极输出电流分别为13.5 A和8 A时,船体和舵在低温处于过保护状态而在高温处于欠保护状态,螺旋桨和轴在不同温度下均能得到较好的保护。     

零压式高空气球球形设计与参数敏感性分析

高空气球能够为临近空间科学实验提供可靠的平台,其形状直接关系到气球制作及飞行的全过程。提出将多段打靶法与序列二次规划法结合,对零压气球完全膨胀和部分膨胀状态下的球形进行求解,并运用有限元方法对球形进行稳定性及应力应变分析,验证了所推导球形的正确性。在此基础上,对影响气球形状的关键参数进行灵敏度分析及相关运用,从定量的角度得到气球载荷、飞行高度及昼夜温差对气球形状的影响规律。