高层建筑消防给水系统设计

结合工程设计实践,以性能化设计为指引,按照经济合理、安全可靠的原则,从室外消火栓数量的确定、水泵接合器数量的确定、消防水池容积的确定、消防给水系统形式的选择几个方面探讨了消防给水系统的设计,以求更新设计理念,提高设计效益。     

西藏与内地古建筑常用木材燃烧特性对比研究

为研究西藏高海拔条件对古建筑火灾的影响,分别在拉萨与廊坊进行了中等规模木垛燃烧实验。测得了木垛燃烧的质量损失速率、火焰高度和燃烧温度,并分析了空气中氧气含量和大气压力对木垛引燃和燃烧的影响。实验表明：在拉萨低气压条件下,木垛引燃难度加大、燃烧时间增加、质量损失速率降低、木垛中心温度降低。     

水压场引起海底地震波的特征

将舰船水压场激励的海底地震波简化为液固多层半无限空间中集中力引起的地震波动问题,基于波数积分方法,通过FFP数值积分求解了海底表面声压、位移和加速度幅值,得到了海底表面声压、位移和加速度的频率特性曲线。结果表明,水压场激励的海底地震波频率很低,属于超低频波动信号;水压场引起海底表面的声压、竖直加速度和水平加速度在频域内基本呈现单峰型特征。     

流体动力式强声源研究

针对现代强声学技术研究的需要,从声压级的角度,对所设计的流体动力式强声发生器的性能参数开展了实验研究,得到了工作压力、簧片与喷口之间的距离以及簧片的劈角对该强声发生器辐射声场声压级的初步影响规律.实验结果表明,在较优的工况条件下,该强声发生器出口处可实现140dB(最大声压级)以上声辐射输出.     

极压抗磨性能良好的润滑油添加剂

本文对含硫、钼的有机化合物的合成及性能进行了研究,并探讨了其化学结构对极压抗磨性能的影响。四球机试验表明:这类化合物有很好的抗磨性能和较高的承载能力,在润滑油中性能稳定,是较好的极压抗磨添加剂。烃基的改变对其极压抗磨性能有一定的影响。     

气缸张开式尾翼弹气缸压力数值仿真研究

为研究气缸张开式尾翼工作原理,分析某型滑膛反坦克炮榴弹气缸充放气过程,建立尾翼弹在炮膛内的气缸压力模型,将其与炮弹底部气体压力、密度、温度等参量的变化规律相耦合,并对气缸压力模型进行可解性分析,得到一种求解气缸气体压力、密度等参数随时间变化的数值方法．     

内腐蚀缺陷尺寸对DN150承插管线承压能力的影响

为了科学地指导DN150承插管线的使用与管理,采用非线性有限元法对带内腐蚀缺陷的DN150承插管线进行了剩余强度的评估。通过分析和计算,研究了腐蚀缺陷宽度、长度和深度对管线极限承载能力的影响。结果表明：腐蚀缺陷宽度对DN150承插管线的承载能力影响很小,可忽略不计;随着腐蚀缺陷长度的增加,管线的承载能力略微减小,当缺陷长度达到150mm,管道失效压力基本不变;随着腐蚀缺陷深度的增加,管道失效压力呈线性递减,其对管道失效压力的影响程度远远大于腐蚀缺陷长度。     

甲B类液体全压力储罐消防设计问题研究

对沸点低于45℃的甲B类液体全压力储罐消防设计、审查过程中存在的问题进行了较为全面的分析,并针对这些问题提出了解决的方法,为进一步完善相关工程设计规范和有效地执行这些规范提供了实例,以期给同类工程提供有益借鉴.     

The properties of Sn–Zn–Al–La fusible alloy for mitigation devices of solid propellant rocket motors

The Al and La elements are added to the Sn9Zn alloy to obtain the fusible alloy for the mitigation devices of solid propellant rocket motors. Differential scanning calorimetry (DSC), metallographic analysis, scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), tensile testing and fracture analysis were used to study the effect of Al and La elements on the microstructure, melting characteristics, and mechanical properties of the Sn9Zn alloy. Whether the fusible diaphragm can effectively relieve pressure was investigated by the hydrostatic pressure at high-temperature test. Experimental results show that the melting point of the Sn9Zn-0.8Al0·2La and Sn9Zn–3Al0·2La fusible alloys can meet the predetermined working temperature of ventilation. The mechanical properties of those are more than 35% higher than that of the Sn9Zn alloy at −50 °C–70 °C, and the mechanical strength is reduced by 80% at 175 °C. It is proven by the hydrostatic pressure at high-temperature test that the fusible diaphragm can relieve pressure effectively and can be used for the design of the mitigation devices of solid propellant rocket motors.     

Experimental study on the cavity evolution and liquid spurt of hydrodynamic ram

In research of the characteristics of the cavity evolution, the pressure, and the liquid spurt in hydrodynamic ram, the experiment of the high-velocity fragment impacting the water-filled container had been conducted. The relationships between the above three characteristics have been researched. The evolution of the cavity can be divided into three processes according to its shape characteristics. The first liquid spurt occurred in Process Ⅱ and the rest of it occurred in Process Ⅲ. The duration of the second liquid spurt is longer than the first liquid spurt. When the impact velocity of the fragment is less than 996 m/s, the velocity of the second liquid spurt is the highest. When the velocity of the fragment is greater than 996 m/s, the velocity of the first liquid spurt is the highest. The maximum velocities of the first and second liquid spurt are 111 m/s and 94 m/s respectively. The pressure fluctuated sharply in Processes Ⅰ and Ⅲ. The maximum peak pressures in the shock and the cavity oscillation phases are 15.51 MPa and 7.96 MPa respectively. The time interval of the two adjacent pressure pulses increases with the increase of the fragment velocity.