柱形装药自由场水中爆炸气泡的射流特性

为研究柱形装药水中爆炸气泡射流特性,采用高速摄影方法在实验水箱中对PETN药柱进行水中爆炸实验,初步获得了有关柱形装药自由场水中爆炸气泡运动的数据资料.研究结果表明:柱形装药自由场水中爆炸形成气泡的运动与球形装药的存在差别,药柱放置方式的变化也会导致水中爆炸气泡产生性质迥异的运动.当药柱水平放置时,气泡表面的运动呈非对...     

Cold atom space clock with counter-propagating atoms

<正>We discuss the feasibility of realizing a cold atom space clock with counter-propagating cold atoms in microgravity.The design of the space clock is based on an atomic beam clock with Ramsey cavity,except that magneto-optical trap(MOT) is placed at each side.Cold atoms are launched simultaneously from the MOTs at both sides of the clock and they move at the counter-direction towards each other.The velocity of the launched atoms is precisely controlled to Ramsauer-Townsend resonance so that no additional collision frequency shift takes place.Such configuration can efficiently cancel the frequency shift resulting from cavity phase shift and increase the signal-to-noise ratio(SNR).     

水辅助注塑PP/SAN共混物制品中横晶形成机理的研究

采用水辅助注塑(WAIM)设备,在不同的注水压力和熔体温度下制备了4种质量比(98/2,96/4,94/6和92/8)的聚丙烯/丙烯腈-苯乙烯共聚物(PP/SAN)共混物制品.采用偏光显微镜(POM)和扫描电子显微镜(SEM),研究了WAIM PP/SAN共混物制品的结晶形态和相形态.研究发现,高压水的穿透作用所引起的强剪切和快速冷却可诱导SAN在PP基体中原位成纤,并诱导PP在SAN纤维表面形成大量的晶核而最终形成横晶.SAN含量为4 wt%时,所形成横晶的含量随水压的提高而增加,随温度的降低而大幅增加.当SAN含量较低(2 wt%)时,制品中没有横晶形成.     

不同水底介质对有限域中装药沉底爆炸特性的影响

通过开展装药沉底爆炸原理性实验研究,得到了不同水底条件对装药沉底爆炸气泡运动和冲击波压力的影响规律:沉底装药水下爆炸气泡通常呈半球形,依附在水底并同时急剧膨胀达到最大半径,随后气泡做收缩运动并连带水底介质颗粒迅速上浮,同时形状发生显著变化,如在石底和泥底时气泡在水底射流的作用下呈蘑菇状上浮,砂底时气泡则呈现出柱状上浮、未出现明显脉动运动即已坍塌破裂;沉底爆炸与水底介质发生强烈耦合作用而形成不同程度的反射波,通常水下石底的反射冲击波较泥底和砂底更强烈,且一般迭加后的冲击波峰值压力高于入射波阵面压力;不同水底介质条件下,装药与水底发生的强烈耦合作用均对水底造成强冲击破坏。     

Miniaturized optical system for atomic fountain clock

Using modularized components, we have built a miniaturized optical system for 87Rb atomic fountain clock that is fitted on an 80 cm × 60 cm optical breadboard. Compared with the conventional optical setup on the table, our system is more compact, more robust and miniaturized. Taking advantage of this system, laser beams are transmitted through eight optical fibre patch cords from the optical breadboard to an ultra high vacuum system. This optical setup has operated for five months in our fountain system and required no alignment.     

Numerical simulation of trajectory and deformation of bubble in tip vortex

According to the behaviors of a bubble in the ship wake flow,the numerical simulation is divided into two stages,quasi-spherical motion and non-spherical motion,based on whether the bubble is captured by the vortex or not.The one-way coupled particle tracking method(PTM) and the boundary element method(BEM) are adopted to simulate these two stages,respectively.Meanwhile,the initial condition of the second stage is taken as the output of the first one,and the entire simulation is connected and completed.Based on the numerical results and the published experimental data,the cavitation inception is studied,and the wake bubble is tracked.Besides,the split of the bubble captured by the vortex and the following sub-bubbles are simulated,including motion,deformation,and collapse.The results provide some insights into the control on wake bubbles and optimization of the wake flow.     

基于碳纳米管－聚苯胺纳米复合物的超级电容器研究

为了提高碳纳米管的比容, 采用化学原位聚合的方法在碳纳米管的表面包覆聚苯胺, 制备碳纳米管-聚苯胺纳米复合物. 运用TEM和IR对样品进行了表征. 通过循环伏安研究样品的电化学特性. 利用恒流充放电考察基于碳纳米管-聚苯胺复合物超级电容器的性能. 在相同实验条件下, 对碳纳米管进行了比较分析. 实验结果表明, 在电流密度为10 mA/cm²时, 碳纳米管和碳纳米管-聚苯胺复合物的比容分别为52和201 F/g. 基于碳纳米管-聚苯胺纳米复合物的超级电容器的能量密度达到6.97 Wh/kg, 并且具有良好的功率特性.     

有限元强度折减系数法在北门沟坡滑坡稳定性评价中的应用

利用有限元强度折减系数法求得的滑坡安全稳定性系数进行北门沟滑坡稳定性评价。通过强度折减,当滑坡达到不稳定状态时,有限元计算不再收敛,此时的折减系数就是滑坡的安全稳定性系数。经计算,可以得到滑坡体破坏形式和破坏扩张趋势,有助于对滑体破坏机制的理解。计算表明,有限元强度折减法与传统刚体极限平衡法计算的稳定性系数很接近,这为滑坡稳定性评价提供了另一条途径。     

考虑温度效应的沥青混合料粘弹性力学模型

提出一种同时考虑时间和温度效应的沥青混合料本构模型,基于传统的Burgers模型,得到新模型的粘弹性力学参量.采用4种温度下的实验数据对模型参数进行标定,运用新的本构模型对实验结果进行拟合,拟合曲线比传统的Burgers模型拟合曲线更加吻合实验数据,能更好地反应沥青混合料的物理力学行为,同时新模型的物理意义更明确.本模型为进一步研究沥青路面的路用性能和破坏机理提供了新的理论工具,丰富了粘弹性力学理论.     

数列的极限及其应用分析

根据数列的极限及级数的收敛的定义和准则,详尽地分析了两个具体的物理问题的极限存在性(即物理解的存在性),据此便捷地求解了这两个问题,体现了数列极限思想在物理问题中的重要性.