PVDF材料制作水压接收器研究

研究了PVDF压电薄膜的压电特性,并对由该材料制成的简易水压接收器进行了实验研究.大量的实验结果表明,应用PVDF材料制作水压传感器,不仅具有很好的接收水压信号的能力,而且其许多其他特性都优于现已使用的压电传感器特性,特别是耐冲击和抗腐蚀性能尤为突出,因此具有很好的应用前景.     

水下爆炸中自由场压力和船体壁压的测量与分析

对水下爆炸中自由场压力的水面截断效应及冲击裁荷与船体相互作用的船体壁压进行了分析,得出了自由场压力的水面截断效应及早期的船体壁压计算近似公式.测量结果表明,球形装药中心起爆后形成的冲击波一般不是一条光滑曲线,而是会有多个振荡峰;当自由场压力测点离水面较近时,测量的自由场压力会出现明显的水面截断现象;船板在水中爆炸冲击渡的作用下产生的运动和变形对水中压力场有很大影响,舰体壁压反射系数与冲击波的入射角度有关.     

氧气体积分数对油气爆炸特性的影响

作为燃烧和爆炸三要素之一,氧气体积分数的控制对于爆炸事故的防治具有重要意义。实验研究了氧气体积分数对汽油蒸气-空气混合物（简称油气）爆炸极限和爆炸压力的影响。结果表明：随着氧气体积分数的降低,油气爆炸下限呈一阶指数规律缓慢增大,油气爆炸上限呈线性规律迅速减小;爆炸极限范围由0.92%~3.76%缩小为1点,该爆炸极限临界点为1.22%,对应的临界氧气体积分数为11.4%;油气的最大爆炸压力和最大压力上升速率随着氧气体积分数的降低而减小,油气体积分数越大,氧气体积分数影响越显著。     

舰艇滑油系统插装式减压阀的设计

介绍了为某型舰艇滑油系统而设计的控制压力低、流通能力大和稳定性好的插装式减压阀;建立了插装式减压阀的数学模型,通过Matlab仿真分析了插装式减压阀的稳态特性,并与试验测试结果进行了比较,验证了设计的结果是准确的.     

熵、信息与战略欺骗

熵最初用于描述宏观物理系统的热力学状态,之后被广泛应用于控制论、概率论、数论、天体物理、生命科学等领域,但是在军事领域的应用研究还很少。以熵、信息等基本概念为基础探讨军事领域中在战略欺骗方面的应用,通过对战略欺骗的热力学分析,提出了负信息馈送原理,并给出了两种实施战略欺骗的操作技术。     

新疆高校维吾尔族学生英语学习中母语负迁移现象的研究

本文从迁移理论出发,以调查维吾尔族母语负迁移为目的,结合访谈、调查问卷和写作,对分布在新疆不同高校里的维吾尔族学生进行了调查研究,最后得出结论：维吾尔族学生在英语学习中受母语负迁移的影响较大,其中与维吾尔语差异最大的语法方面所受母语影响最大,母语思维是产生负迁移的主要原因,其它方面受汉语影响也比较大。基于上述研究,为了避免负迁移的发生,本文提出了相应的建议。     

热气溶胶灭火装置安全隐患探讨

针对目前市场上热气溶胶灭火装置＂爆炸＂及存在安全隐患,阐述了其发生原理,并提出了热气溶胶灭火装置应严格控制的一些安全性能指标和结构方式。     

外卡压力传感器的卡持结构设计与分析

针对外卡压力传感器存在的测试信号重复性差、信噪比低、安装局限性大的问题,设计了一种新型卡持结构——人字形结构,并从理论上分析了该结构相对于＂匚＂形夹块和环形夹块的优势。实验数据表明：采用人字形卡持结构的外卡压力传感器具有测试可靠、信噪比高、通用性好的特点。     

Effects of total pressures and equivalence ratios on kerosene/air rotating detonation engines using a paralleling CE/SE method

In this paper, the kerosene/air rotating detonation engines(RDE) are numerically investigated, and the emphasis is laid on the effects of total pressures and equivalence ratios on the operation characteristics of RDE including the initiation, instabilities, and propulsive performance. A hybrid MPI + OpenMP parallel computing model is applied and it is proved to be able to obtain a more effective parallel performance on high performance computing(HPC) systems. A series of cases with the total pressure of 1 MPa, 1.5 MPa, 2 MPa, and the equivalence ratio of 0.9, 1, 1.4 are simulated. On one hand, the total pressure shows a significant impact on the instabilities of rotating detonation waves. The instability phenomenon is observed in cases with low total pressure (1 MPa) and weakened with the increase of the total pressure. The total pressure has a small impact on the detonation wave velocity and the specific impulse. On the other hand, the equivalence ratio shows a negligible influence on the instabilities, while it affects the ignition process and accounts for the detonation velocity deficit. It is more difficult to initiate rotating detonation waves directly in the lean fuel operation condition. Little difference was observed in the thrust with different equivalence ratios of 0.9, 1, and 1.4. The highest specific impulse was obtained in the lean fuel cases, which is around 2700 s. The findings could provide insights into the understanding of the operation characteristics of kerosene/air RDE.     

Hazard evaluation of ignition sensitivity and explosion severity for three typical MH2 (M＝Mg,Ti, Zr) of energetic materials

MgH2, TiH2, and ZrH2 are three typical metal hydrides that have been gradually applied to composite explosives and propellants as additives in recent years. To evaluate ignition sensitivity and explosion severity, the Hartmann device and spherical pressure vessel were used to test ignition energy and ex-plosion pressure, respectively. The results showed that the ignition sensitivity of ZrH2, TiH2 and MgH2 gradually increased. When the concentration of MgH2 is 83.0 g/m3 in Hartmann device, the ignition energy attained a minimum of 10.0 mJ. The explosion pressure of MgH2 were 1.44 times and 1.76 times that of TiH2 and ZrH2, respectively, and the explosion pressure rising rate were 3.97 times and 9.96 times that of TiH2 and ZrH2, respectively, through the spherical pressure vessel. It indicated that the reaction reactivity and reaction rate of MgH2 were higher than that of TiH2 and ZrH2. In addition, to conduct in-depth theoretical analysis of ignition sensitivity and explosion severity, gas production and combus-tion heat per unit mass of ZrH2, TiH2 and MgH2 were tested by mercury manometer and oxygen bomb calorimetry. The experimental results revealed that MgH2 had a relatively high gas production per unit mass (5.15 mL/g), while TiH2 and ZrH2 both had a gas production of less than 2.0 mL/g. Their thermal stability gradually increased, leading to a gradual increase in ignition energy. Furthermore, compared with theoretical combustion heat, the combustion ratio of MgH2, TiH2 and ZrH2 was more than 96.0%, with combustion heat value of 29.96, 20.94 and 12.22 MJ/kg, respectively, which was consistent with the explosion pressure and explosion severity test results.