干涉法测量液体膨胀系数的讨论

液体的折射率和液体的密度有直接关系,液体密度又与温度有关,根据已有关于透明介质的折射率公式,可得液体的膨胀系数的测量方法.迈克耳孙干涉法是测量液体折射率的温度系数的简捷的手段.用此方法得出了液体的膨胀系数,进而讨论了关于液体折射率的2个不同公式的精确程度.     

聚合物分散液晶增强散射的理想模型

介绍聚合物分散液晶技术新进展,应用光学原理对液晶微滴增强散射问题进行研究,提出液晶微滴最佳间距判据,液晶微滴间隔处聚合物材料光学厚度满足增反膜条件;提出液晶微滴最佳直径判据,液晶微滴直径满足双折射相消干涉条件;提出聚合物与液晶最佳配比的计算方法,应用晶体学原子堆积致密度知识给出最佳配比的计算结果.建立一种聚合物分散液晶增强散射的理想模型,进而从更基本的光学原理出发对异常散射理论模拟计算和实验上确定的液晶微滴最佳直径和聚合物与液晶最佳配比问题给出十分简单明确的理论解释.     

用电加热方法测量液氮的汽化潜热

对测量液氮汽化潜热实验进行改进,引入计算机数据采集技术,记录液氮的汽化过程,通过浸入液氮中的通电电阻释放热量,来改善汽化程度,这样既可以长时间地观察液氮的汽化过程,又能较准确的测量汽氮汽化潜热.     

液晶磁致旋光的研究

利用矩阵方法分析了液晶的旋光效应，导出了液晶旋光的矩阵表示. 利用JG-3型连续可调谐磁场仪搭建实验装置，红外1350 nm激光器做光源，测量了偏振光通过磁场作用下BL-009型向列相液晶的旋光角，详细分析了磁场对液晶旋光性能的影响. 通过实验测试，对液晶的阈值磁场强度进行了讨论，同时对实验结果进行了理论上的分析，得出了液晶旋光角随磁场与液晶盒表面夹角而变化的结论，验证了液晶分子轴的旋转方向与磁场的方向无关，这为更好的研究液晶的特性以及液晶器件的设计具有重要的参考价值. 关键词： 液晶 矩阵 磁致旋光     

用光学方法测量液体的物理参数

实验发现,激光束照射在振动的液面上,表面波对入射光可产生衍射;插入液体里的金属细丝被拉出液面时,由于液体的润湿效应,其周围的液体拉伸一定高度而断裂。以上两种实验现象机理,可用于液体表面张力系数的测定。激光经小孔透射样品池中的液体介质,在液体上表面发生遮光效应,根据其机理,建立了一种测量液体折射率的新方法。     

液面基准法标定干涉仪系统误差

为消除干涉仪标准参考面的误差,保证其测量准确度,本文采用液面基准法建立光学平面基准对仪器的系统误差进行标定.首先建立弯曲静液面动力学方程从理论上分析润湿效应对液面平面度的影响,并结合实验分析气流、温度、震动等环境因素对液面稳定性的影响,讨论波面稳定性评价指标,给予实验验证.最后用建立的大液面基准对干涉仪系统误差进行标定,给出标定结果.     

The morphologies of Lennard-Jones liquid encapsulated by carbon nanotubes

Using molecular dynamics simulations, we studied the morphologies of Lennard-Jones liquid encapsulated in carbon nanotubes (CNTs) for a wide range of liquid–CNT interaction, system size and temperature. The morphology of liquid is found to be sensitive to the filling ratio of liquid (a ratio of liquid volume to the available volume of CNT pore) and the liquid–CNT interaction. The ‘phase diagram’, namely by the morphologies versus the liquid–CNT interaction and the filling ratio, is obtained. In most cases, the liquid inside CNTs forms a thin liquid shell attached to a carbon wall when the filling ratio is small. With the increasing of the filling ratio, liquid tends to form droplet. As the filling ratio increases further, liquids form a cylinder with finite length. Finally, the whole inner space of CNT was filled with liquid when the filling ratio is large enough. Current studies could shed light on the adsorption and flow of liquid inside CNTs.     

红外光谱分析中样品处理方法的改进

介绍了液体和固体样品的常规制样方法 ;指出了其中最常用的方法———压片法和液膜法的不足之处 ;提出了一种改进的制样方法 ,即以廉价的空白KBr压片作片基 ,通过液膜法或浸渍法制样。对于低沸点液体样品 ,以两片空白KBr压片代替晶体盐窗 ,模拟液体池窗片液膜法制样 ;对于高沸点液体样品 ,将样品用挥发性有机溶剂稀释 ,采用浸渍法制样 ,即把空白KBr压片在稀释后的溶液中浸渍后挥发掉有机溶剂制样 ;对于固体样品 ,将其溶解于挥发性有机溶剂 ,浸渍法制样。与按常规制样方法所获得的红外光谱图进行比较 ,这种改进的制样方法所得谱图 ,能达到定性分析的要求 ,且弥补了常规液膜法和压片法的不足     

Construction of muffin-tin potentials for liquid metals

We propose a method of constructing muffin-tin potentials for liquid metals in which the structure of the liquid is explicitly incorporated through the pair-correlation function. It is shown that for the liquid alkalis, the structure has a significant effect on the potential, however, the muffin-tin potentials of liquid noble and transition metals like Cu, Fe, and Ni are insensitive to the structure. Our structure based potentials for the liquid alkalis give resistivities in much better agreement with experiment compared to those calculated from the conventionally constructed potentials.     

“飞溅”对力学效应影响实验研究

激光辐照液态工质,在激光能量密度较高时将出现特有的"飞溅"现象,该过程消耗了大量的工质。选取室温下甘油作为实验研究对象,针对烧蚀甘油发生飞溅过程中产生的力学效应,设计了流场显示和推力测量集成装置,使用YAG激光作为能量源,对甘油进行烧蚀。将得到的流场测量结果与推力曲线比对,找到发生飞溅对应的推力曲线部分,积分计算甘油发生飞溅对烧蚀总冲量贡献的比例。结果表明飞溅所消耗的大量甘油工质使用效率极低,未带来相应的冲量,是液态工质比冲过低的主要原因。因此,在以液体为工质的激光烧蚀推进技术中必须克服飞溅现象。最后给出一种通过碳掺杂来控制液体飞溅的方法,结果表明碳掺杂可以有效减少液体飞溅。     

液晶磁控偏光特性的研究

利用偏光干涉理论,通过对BL-009型向列相液晶透射比的测试,分析了液晶透射比随磁场的变化情况,并对液晶的磁控双折射效应进行了研究.实验在室温20℃下用JG-3型连续可调磁场仪对液晶盒施加垂直于其表面的磁场,用CT5A型特斯拉计准确读出磁场强度数值,使液晶盒光轴方向与起偏镜和检偏镜偏振方向成45°,分别测出了起偏镜和检偏镜偏振方向平行和垂直时的透射光强度.通过数学函数拟合,得出了液晶的双折射率随磁场的变化规律,即：当磁场强度大于液晶的阈值磁场时,拟合函数能很好地描述液晶磁控双折射率的变化规律.     

纳米通道内液体流动的滑移现象

采用分子动力学模拟方法研究了液态氩在铂纳米通道内的流动，通过改变流体和壁面之间的势能作用获得了流体和通道表面之间浸润性质不同时的滑移现象. 研究发现：液体分子在亲水性通道表面附近呈类固体性质，数密度和有序性较大，而在疏水性表面附近的平均数密度降低，形成一个低密度层；液体流动在固体表面的速度滑移随着液体与表面势能作用的增强而减小，当液体和表面的浸润性不同时可以发生滑移、表观无滑移和负滑移现象；液体在固体表面的表观滑移是液体在固体表面的速度滑移、粘附和流体内部滑移的综合作用的结果. 关键词： 纳米尺度流动 速度滑移 浸润性 分子动力学模拟     

液相斯特林机工质的热力学与热物理性质的计算

介绍了液相斯特林机用液相工质的性质。并以工质 RC31 8作为算例 ,介绍了液相工质的热力学性质和热物理性质的数值计算 ,计算结果与已有的实验结果吻合较好。该文也将是研究和开发低品位热源液相热声热机的重要参考。     

Field extraction of ions from liquid solutions with the use of polymer track membranes

The general principles of the electric field assisted ion evaporation in the membrane ion source are considered. In the ion source, the liquid sample under investigation is placed in narrow channels of a polymer track membrane, which separates the liquid sample at atmospheric pressure from the vacuum chamber. Stability of the liquid at strong electric fields is provided by a choice of the diameters of channels and the liquid–polymer contact angle. The electric charge on the vacuum–polymer interface is of great importance for creation of the strong electric field near the liquid–vacuum interface. Such a conclusion is made from the computations of the electric field in the framework of the model developed. The mechanism of the electric field assisted evaporation of ions is discussed to explain the observed mass spectra for the ions extracted from liquid.     

Numerical study of the effect of liquid compressibility on acoustic droplet vaporization

In acoustic droplet vaporization (ADV), a cavitated bubble grows and collapses depending on the pressure amplitude of the acoustic pulse. During the bubble collapse, the surrounding liquid is compressed to high pressure, and liquid compressibility can have a significant impact on bubble behavior and ADV threshold. In this work, a one-dimensional numerical model considering liquid compressibility is presented for ADV of a volatile microdroplet, extending our previous Rayleigh-Plesset based model [Ultrason. Chem. 71 (2021) 105361]. The numerical results for bubble motion and liquid energy change in ADV show that the liquid compressibility highly inhibits bubble growth during bubble collapse and rebound, especially under high acoustic frequency conditions. The liquid compressibility effect on the ADV threshold is quantified with varying acoustic frequencies and amplitudes.     

Thermodynamics and structure of liquid surfaces investigated directly with surface analytical tools**

Measuring directly the composition, the distribution of constituents as function of the depth and the orientation of molecules at liquid surfaces is essential for determining physicochemical properties of liquid surfaces. While the experimental tools that have been developed for analyzing solid surfaces can in principal be applied to liquid surfaces, it turned out that they had to be adjusted to the particular challenges imposed by liquid samples, e.g. by the unavoidable vapor pressure and by the mobility of the constituting atoms/molecules. In the present work it is shown, how electron spectroscopy and ion scattering spectroscopy have been used for analyzing liquid surfaces. The emphasis of this review is on using the structural information gained for determining the physicochemical properties of liquid surfaces.     

异质原子对液体气泡成核影响的分子动力学模拟

采用分子动力学方法模拟了池沸腾中液体层加入异质原子对气泡成核的影响.分析了异质原子能量参数对液体起始气泡成核时间和温度的影响及其机理.结果表明,当异质原子能量参数小于液氩能量参数时,液体起始气泡成核时间缩短,起始温度降低.当异质原子剂能量参数大于液氩能量参数时,液体起始气泡成核时间增加,起始温度升高.异质原子在壁面上的吸附及在液体中的扩散行为影响固液界面性质,较大能量参数的异质原子扩散系数较小,更多能量参数较大的原子吸附在固体表面上使得壁面势能壁垒增加,导致沸腾时间延迟,液体需要吸收更多的热量克服势能壁垒,进而提高沸腾起始温度.能量参数较小的异质原子扩散系数较大,异质原子更容易分散到液体中,使得壁面附近液体层势能减小,液体层更容易气泡成核行为.     

复指数矩阵法研究螺旋液晶光学传播特性

提出一种研究螺旋液晶光学特性的数学处理方法.螺旋型液晶可当作N层双折射材料晶片叠合而成,而相邻晶片的光轴依次旋转一个小角度.在光学转换矩阵中引入复数来研究螺旋型液晶光学性能,给出了相关的数学处理方法.研究了线性偏振光在螺旋液晶中的传播特性,并给出了光经过螺旋液晶后电场强度的矩阵表达式.研究发现,如果入射光波长等于螺旋液晶螺距,线偏振光经过右螺旋液晶后是左旋圆偏振光.理论上分析了螺旋液晶对可见光选择性反射机理.     

On calculation of the rate of mass transfer by periodic waves propagating over the surface of a viscous liquid

A generalization of the Stokes classical drift model describing mass transfer by periodic waves propagating over the surface of an infinitely deep incompressible liquid to the case of a viscous liquid is constructed. An analytic expression is proposed for the velocity of an additional flow into which the liquid is involved by horizontal viscous shear stresses emerging between adjacent horizontal layers of the liquid participating in the drift.