Explosive vaporization in microenclosures

The explosive vaporization of a liquid above planar microheaters induces a fast increase of pressure that is exploited in many thermally driven actuators in MEMS components such as ink jet printer cartridges, pumps, valves and optical switches. Some of these components need to enclose the working fluid as it is the case of valves in which the heated liquid is separated from the flow that it regulates by a flexible membrane. To achieve a better insight into the thermodynamic processes involved, the present work investigates experimentally an enclosed microsystem designed and fabricated for this purpose, composed of a small liquid volume (8 nL) heated by a electric pulse for 2 μs supplied to a planar microfabricated heater. During the heating, the temperature-induced change in resistance can be determined by imposing a defined current and measuring the voltage drop over the heater. While the chip is based on a silicon substrate with integrated platinum heaters and sensors, the structure enclosing the fluid (cavity and fluidic access to it) is made of a silicone elastomer, poly(dimethylsiloxane) (PDMS). This transparent material is widely used in microfluidics and allows for flexible and transparent walls that can be deflected by increasing the pressure inside the cavity. To seal the system the inlet and the outlet were closed by blocking them with a metallic stab. In the present work we visualize vaporization of isopropanol in contact with a suddenly heated planar resistor for two different cavity heights, 150 μm and 16 μm. The rate of temperature rise of the thin liquid layer in contact with the heater is of the order of 10⁷ K s⁻¹ for a pulse duration of 2 μs. We compare bubble growth and collapse for the open and closed systems. Compared to the open system, the bubble growth in the closed system is considerably damped.     

利用爆磁压缩发生器产生高功率脉冲高电压

 爆磁压缩发生器产生脉冲高电压技术可以用于产生高功率微波及强电磁脉冲的实验研究。给出了利用螺旋型爆磁压缩发生器（HEMG）驱动电爆炸丝功率调节系统产生高功率脉冲高电压的实验方法和主要的结果。在利用HEMG驱动电爆炸丝断路开关（EEOS）产生脉冲高电压实验中，获得了最高电压700~800kV,功率大于20GW的脉冲输出。     

Selected Nitrocarbamates of Glycerine & Co. and the First Acetylene Derivative

A simple two step synthesis route for the preparation of several energetic multivalent nitrocarbamates of easily available alcohols is presented. The carbamates were obtained by the reaction of the alcohols and the reactive reagent chlorosulfonyl isocyanate (CSI) with subsequent aqueous work‐up. The nitration of the carbamates was performed with mixed acid (nitric and sulfuric acid). The thermal stabilities were explored by using differential scanning calorimetry and the energies of formation were calculated on the CBS‐4M level of theory, as well as several detonation and propulsion parameters for the application as energetic materials. All compounds were fully characterized and discussed in addition with single X‐ray diffraction.     

多波段微量TNT成像探测的数值分析和实验研究

建立了CO2激光器辐照微量爆炸物温升分布三维模型,对激光辐照过程和冷却过程中8~14μm和3~5μm波段内的目标表面辐射温度变化特性分别进行分析.利用设计的探测系统对目标进行初步探测,用8~14μm和3~5μm热像设备对目标进行观察分析.研究表明:在10.6μm激光照射过程中,8~14μm波段内沾有TNT目标的辐射温度分别由TNT、基底在8~14μm波段的发射率和对激光辐照的反射率共同决定;在3~5μm内目标辐射温度主要由TNT、基底在3~5μm波段的自身发射率决定.在探测过程中,8~14μm波段内沾染TNT区域的辐射温度明显高于周围区域,而在3~5μm波段内,目标表面辐射温度整体下降,并且沾染区域的辐射温度变得低于周围.     

直接紫外光度法测定炸药废水中TNT含量

炸药废水中的主要成分是 2 ,4 ,6 -三硝基甲苯 (TNT) ,组成比较单一 ,不含有其他有机物。 TNT水溶液在紫外区有特征吸收 (2 30 nm) ,可用分光光度法直接测定。不引入其他试剂 ,无引入误差 ,与国标方法(GB/ T1 390 5 - 92 )比较 ,有良好的准确度 ,方法操作简单易行。但本法不适宜组成复杂的有机废水测定     

Terahertz spectroscopy techniques for explosives detection

Spectroscopy in the terahertz frequency range has demonstrated unique identification of both pure and military-grade explosives. There is significant potential for wide applications of the technology for nondestructive and nonintrusive detection of explosives and related devices. Terahertz radiation can penetrate most dielectrics, such as clothing materials, plastics, and cardboard. This allows both screening of personnel and through-container screening. We review the capabilities of the technology to detect and identify explosives and highlight some of the critical works in this area.     

光谱频移的炸药熔铸温度网络监测系统研究

为了准确、稳定、全面地获得炸药熔铸过程各个位置的温度变化情况,设计了基于布喇格光栅光谱频移的温度实时监测系统。通过光纤组网系统对炸药熔铸过程炸药指定位置的多个点同时进行实时温度监测,根据光栅的布喇格波长与光栅温度之间存在的线性关系,建立光栅布喇格波长线性频移与光栅温度的函数,获取炸药不同位置的准确温度。四个通道通过耦合器共用同一个宽带光源,每一根光纤上的5个光栅的布喇格波长相互分开。实验所用的光栅为自己设计封装好的光栅,用保偏熔接机将光栅与光纤熔接上,经解调仪获取温度数据。将获取的温度数据经Origin处理绘制时间―温度曲线。结果显示,布喇格光栅测得的温度能很好的满足实验要求。     

About the fastest growth of the Order Parameter in models of percolation

The growth of the average size 〈_smax〉$〈s_{max}〉$ of the largest component at the percolation threshold _pc(N)$p_c\left(N\right)$ on a graph of size N$N$ has been defined as 〈_smax(_pc(N),N)〉∼N^χ$〈s_{max}(p_c\left(N\right),N)〉\sim N^{\chi }$. Here we argue that the precise value of the ‘growth exponent’ χ$\chi$ indicates the nature of percolation transition; χ<1$\chi <1$ or χ=1$\chi =1$ determines if the transition is continuous or discontinuous. We show that a related exponent η=1−χ$\eta =1-\chi$ which describes how the average maximal jump sizes in the Order Parameter decays on increasing the system size, is the single exponent that describes the finite-size scaling of a number of distributions related to the fastest growth of the Order Parameter in these problems. Excellent quality scaling analysis are presented for the two single peak distributions corresponding to the Order Parameters at the two ends of the maximal jump, the bimodal distribution constructed by the weighted average of these distributions and for the distribution of the maximal jump in the Order Parameter.     

二维磁流体力学程序MFCGⅢ计算结果与测试结果的对比分析

 根据磁场、流函数和感应电流的解析公式，研制了间接馈电爆磁压缩发生器充电和爆磁压缩过程计算程序MFCGⅢ。用MFCGⅢ计算了实验模型，其结果与测试结果符合较好。因此MFCGⅢ可对实验提供优化设计，并且可分析、解释MFCG实验中有关的物理问题。