MEASUREMENT OF TWO-PROTON CORRELATION FROM THE BREAK-UP OF Al-23

Experiments of Al-23 and Mg-22 radioactive beams bombarding a C-12 target at an energy of 60 similar to 70 A MeV have been performed at the projectile fragment separator beamline (RIPS) in the RIKEN Ring Cyclotron Facility to study the two-proton emission from Al-23 and Mg-22 excited states, respectively. The trajectorie of the decay products, namely Na-21 + p + p from Al-23 and Ne-20 + p + p from Mg-22, are clean identified. The relative momentum and opening angle between two protons in the rest frame of three body decay channels are obtained by relativistic-kinematics reconstruction. The results demonstrate that there are some di-proton emission components from He-2 cluster for the excited Al-23 and Mg-22.

MEASUREMENT OF THE PROTON-PROTON CORRELATION FUNCTION FROM THE BREAK-UP OF Mg-22 AND Ne-20

An experiment of Mg-22 and Ne-20 beams bombarding on a C-12 target at an energy of 60 similar to 70 A MeV has been performed at the RIKEN projectile fragment separator (RIPS)in the RIKEN Ring Cyclotron Facility to study the two-proton correlated emission from Mg-22 and Ne-20 excited states. The two-protons momentum correlation functions have been obtained for Mg-22 and Ne-20, respectively. The trajectories of the Mg-22 decayed products (Ne-20 + p + p) were also measured to get the angular correlations between the two protons in Center of Mass of decaying system by relativistic-kinematics reconstruction. The results exhibit that Mg-22 has the features of He-2 cluster decay mechanism.

Direct numerical simulation of transition and turbulence in compressible mixing layer

The three-dimensional compressible Navier-Stokes equations are approximated by a fifth order upwind compact and a sixth order symmetrical compact difference relations combined with three-stage Ronge-Kutta method. The computed results are presented for convective Mach number Mc = 0.8 and Re = 200 with initial data which have equal and opposite oblique waves. From the computed results we can see the variation of coherent structures with time integration and full process of instability, formation of Lambda-vortices, double horseshoe vortices and mushroom structures. The large structures break into small and smaller vortex structures. Finally, the movement of small structure becomes dominant, and flow field turns into turbulence. It is noted that production of small vortex structures is combined with turning of symmetrical structures to unsymmetrical ones. It is shown in the present computation that the flow field turns into turbulence directly from initial instability and there is not vortex pairing in process of transition. It means that for large convective Mach number the transition mechanism for compressible mixing layer differs from that in incompressible mixing layer.

Evaluation of the Cumulative Formation of High-Speed Liquid Jets

This paper describes the generation of pulsed, high-speed liquid jets using the cumulation method. This work mainly includes (1) the design of the nozzle assembly, (2) the measurement of the jet velocity and (3) flow visualization of the injection sequences. The cumulation method can be briefly described as the liquid being accelerated first by the impact of a moving projectile and then further after it enters a converging section. The experimental results show that the cumulation method is useful in obtaining a liquid jet with high velocity. The flow visualization shows the roles of the Rayleigh-Taylor and Kelvin-Helmholtz instabilities in the breakup of the liquid depend on the jet diameter and the downstream distance. When the liquid jet front is far downstream from the nozzle exit, the jet is decelerated by air drag. Meanwhile, large coherent vortex structures are formed surrounding the jet. The liquid will break up totally by the action of these vortices. Experimental results showing the effect of the liquid volume on the jet velocity are also included in this paper. Finally, a method for measuring the jet velocity by cutting two carbon rods is examined.

Stability and Bifurcation Bahaviour of Electrostatic Torsional NEMS Varactor Influenced by Dispersion Forces

The influences of Casimir and van der Waals forces on the nano-electromechanical systems (NEMS) electrostatic torsional varactor are studied. A one degree of freedom, the torsional angle, is adopted, and the bifurcation behaviour of the NEMS torsional varactor is investigated. There are two bifurcation points, one of which is a Hopf bifurcation point and the other is an unstable saddle point. The phase portraits are also drawn, in which periodic orbits are around the Hopf bifurcation point, but the periodic orbit will break into a homoclinic orbit when meeting the unstable saddle point.

Study on Microstructure and Nanomechanics Properties of Antibacterial Bone China

Fracture appearance, surface and nanomechanics properties of antibacterial ceramics contairing rare earth phosphate composite antibacterial materials were characterized and measured by SEM, AFM and Nanoindenter, respectively. Results show that grain of fracture surface of antibacterial ceramics grows uniform refinement topography of bubble break-up appears at the surface, which is flat and has liquid character, by adding the phosphate composite containing rare earth, nevertheless needle-like crystal and granular outgrowth form at fracture surface and surface of common ceramics, respectively. Young's modulus of antibacterial ceramic film is 74. 397 GPa and hardness is 8. 134 GPa, which increses by 4.4﹪ and 1.6﹪ comparing with common ceramics, respectively. Loading curves of two kind of ceramics have obvious nonlinear character under 700 nm and linear character between 700 ～ 1000 nm, and unloading curve have obvious linear character.

Growth Mechanism And Joint Structure Of Zno Tetrapods

Regular zinc oxide (ZnO) tetrapods with a flat plane have been obtained on Si(1 0 0) substrate via the chemical vapour deposition approach. The x-ray diffraction result suggests that these tetrapods are all single crystals with a wurtzite structure that grow along the (0 0 0 1) direction and corresponding electron backscatter diffraction analysis reveals the crystal orientation of growth and exposed surface. Furthermore, we find some ZnO tetrapods with some legs off and the angles between every two legs are measured with the aid of scanning electron microscopy and image analysis, which benefit to reveal the structure of ZnO tetrapods joint. The structure model and growth mechanism of ZnO tetrapods are proposed. Besides, the stable model of the interface was obtained through the density-functional theory calculation and the energy needed to break the twin plane junction was calculated as 5.651 J m(-2).

Stability and bifurcation behaviour of electrostatic torsional NEMS varactor influenced by dispersion forces

The influences of Casimir and van der Waals forces on the nano-electromechanical systems (NEMS) electrostatic torsional varactor are studied. A one degree of freedom, the torsional angle, is adopted, and the bifurcation behaviour of the NEMS torsional varactor is investigated. There are two bifurcation points, one of which is a Hopf bifurcation point and the other is an unstable saddle point. The phase portraits are also drawn, in which periodic orbits are around the Hopf bifurcation point, but the periodic orbit will break into a homoclinic orbit when meeting the unstable saddle point.

On post-instability processes in adiabatic shear in hot rolled steel

EXPERIMENTS carried out using a split Hopkinson torsional bar have shown that only one shear band develops in specimens of hot rolled steel which break during testing. We observed, however, that in specimens which were not deformed to failure, several fine shear bands appeared. We believe that these formed during the loading cycle before the appearance of the final shear band and were not due to the effect of unloading. So we developed a numerical model to study the evolution of shear banding from several finite amplitude disturbances (FADs) in both temperature and strain rate. This numerical model reveals the detailed processes by which the FADs evolve into a fully developed shear band and suggests that beyond instability, the so-called shear banding process consists of two stages: inhomogeneous shearing and true shear-banding. The latter is characterized by the collapse of the stress and an abrupt increase of the local shear strain rate.

Vortex motion in the early stages of unsteady flow around a circular cylinder

In this paper, processes in the early stages of vortex motion and the development of flow structure behind an impulsively-started circular cylinder at high Reynolds number are investigated by combining the discrete vortex model with boundary layer theory, considering the separation of incoming flow boundary layer and rear shear layer in the recirculating flow region. The development of flow structure and vortex motion, particularly the formation and development of secondary vortex and a pair of secondary vortices and their effect on the flow field are calculated. The results clearly show that the flow structure and vortices motion went through a series of complicated processes before the symmetric main vortices change into asymmetric: development of main vortices induces secondary vortices; growth of the secondary vortices causes the main vortex sheets to break off and causes the symmetric main vortices to become “free” vortices, while a pair of secondary vortices is formed; then the vortex sheets, after breaking off, gradually extend downstream and the structure of a pair of secondary vortices becomes relaxed. These features of vortex motion look very much like the observed features in some available flow field visualizations. The action of the secondary vortices causes the main vortex sheets to break off and converts the main vortices into free vortices. This should be the immediate cause leading to the instability of the motion of the symmetric main vortices. The flow field structure such as the separation position of boundary layer and rear shear layer, the unsteady pressure distributions and the drag coefficient are calculated. Comparison with other results or experiments is also made.

The Effect of the Thickness of Fe2 Al5 Phase Layer at Fe/Al Interface on the Mechanics Behavior of Hot Dip Aluminizing Coating

Hot Dip Aluminized Coatings with different thickness were prepared on Q235 steel in aluminum solutions with different temperature for certain time. Through tensile tests and in-situ SEM observations, the effect of the coating's microstructure on the tensile strength of the samples was studied. It was disclosed at certain aluminum solution temperature,transaction layers mainly composed of Fe2 Al5 phase got thicker with time prolonging, and this changed initial crack's extending direction from parallel with to vertical with stretching direction. The change in crack direction decreased tensile strength of samples, thus made the coating easy to break. It was concluded that the existence of thick Fe2 Al5 phase layer was the basic reason for the lowering of tensile strength of the coating.

THE FORMATION MECHANISM OF THE VITRIFIED SLAG IN A PLASMA ARC REACTOR FOR HAZARDOUS WASTE TREATMENT

Various hazardous wastes with additives have been vitrified to investigate the formation mechanism of the glassy slag by a 30 kW DC plasma-arc reactor developed by the Institute of Mechanics, Chinese Academy of Sciences. The average temperature in the reaction area is controlled at 1500°C. The chemical compositions of three sorts of fly ashes are analyzed by XRF (X-Ray Fluorescence). Fly ashes with vitrifying additives can be vitrified to form glassy slag, which show that the ratio of the whole oxygen ions to the whole network former ions in glass (R) is appropriate in the range of 2~3 to form durable vitrified slag. In this experiment, the arc power is controlled below 5 kW to inhibit waste evaporation. To enhance the effects of heat transfer to wastes, ferrous powder has been added into the graphite crucible, which aggregates as ingot below the molten silicate after vitrification. The slag fails to form glass if the quenching rate is less than 1 K/min. Therefore, the slag will break into small chips due to the sharp quenching rate, which is more than 100 K/sec.

水稻花药绒毡层特异基因及减数分裂相关基因的分离与功能分析

　利用RNA减法杂交、差异筛选和5’-RACE等方法从水稻分离到了一花药绒毡层特异表达的基因RA39。Southern 杂交表明，RA39在水稻基因组中是以单拷贝的形式存在的。RT-PCR 结果初步表明，RA39是一水稻花药特异表达的基因。RNA原位杂交进一步表明，RA39主要在水稻花药的绒毡层中表达，而且在小孢子母细胞减数分裂期和四分体时期表达量最高。RA39 cDNA全长1013bp，编码298个氨基酸残基。 RA39 cDNA与数据库中的已知序列没有明显的相似性，由其推测的多肽与核糖体失活蛋白（ribosome-inactivating protein, RIP）的序列相似在19-34%之间。多重序列排列分析结果表明构成RIPs活性位点的5个关键氨基酸残基在RA39中是保守的，在蓖麻毒蛋白中分别为Tyr80、 Tyr123、 Glu177、 Arg180 and Trp211 。利用原核表达系统，通过蛋白质分离和纯化获得了在SDS电泳图谱上为单一条带的纯的RA39蛋白，用兔rRNA作底物进行的酶活性分析证明该蛋白有N-糖基化作用，是一种类型I的核糖体失活蛋白。反义转基因植株的花粉用TTC进行活性染色结果显示其活性明显减弱，成熟的T0代反义转基因植株的结实率明显降低，只有对照的20-60%。这说明，RA39蛋白可能和小孢子母细胞的发育相关。 　　酵母DMC1是减数分裂过程中同源染色体配对和重组修复所必需的减数分裂特异基因。根据酵母Dmc1和拟南芥AtDmc1的保守区设计简并性引物，通过RT-PCR和RACE等方法，从水稻中分离出了酵母DMC1的同源基因OsDMC1。RT-PCR分析表明，OsDMC1在花中表达量最高，在根中表达量较低，在叶片和幼芽几乎不表达。水稻基因组中有两个拷贝的OsDMC1。OsDmc1蛋白与酵母Dmc1和拟南芥AtDmc1氨基酸一致性分别为53%和81%。 　　酵母Spo11在减数分裂过程中具有催化DNA双链断裂从而起始同源重组的功能。以酵母Spo11氨基酸序列为探针和现有的数据库通过数据分析，结合RACE技术，克隆了水稻SPO11同源基因OsSPO11-1， OsSPO11-1是一个单拷贝基因，有3个外显子和2个内含子，在转录过程中通过内含子的可变剪切产生4个不同的转录本（OsSPO11-1A、OsSPO11-1B、OsSPO11-1C和OsSPO11-1），其中，OsSPO11-1A是一个未剪切的转录本，OsSPO11-1B包含内含子2，OsSPO11-1C包含内含子1，OsSPO11-1D是一个完全剪切的转录本。这些转录本编码的蛋白有一致的246氨基酸残基的C-端，包含了Spo11/TopVIA家族蛋白共有的5个功能基元，是该家族的新成员。OsSPO11-1A和 OsSPO11-1C在花中优势积累，OsSPO11-1B是花特异的，而OsSPO11-1D在营养器官中优势积累。在花中该基因主要在减数分裂的花粉母细胞和胚曩中表达，在减数分裂期的绒毡层细胞和不同花器官的微管束细胞中也表达。这些结果说明内含子涉及到了OsSPO11-1表达的器官特异性调节，该基因除了参与减数分裂的调节外，在体细胞的发育中可能起重要作用。

新疆天山中段北部空中花粉数量的时空变化及其气候与植被指示意义

空中花粉是植被类型、气候状况与大气环境质量的指示物之一。空中花粉雨的取样实验对化石花粉谱的解释和古植被的恢复具有指导意义，因此空中花粉分析成为第四纪孢粉学和古生态学研究的有效辅助手段。本研究在新疆天山中段北坡进行了短期的空中花粉监测（2001年7月~2006年7月），目的是获得局域性和区域性植被所散发的花粉类型及其数量信息，并探讨花粉数量的植被与气候指示意义、花粉传播以及受环境条件影响的程度，同时分析和检测花粉浓度受气候条件的影响情况。空中花粉的收集使用Cour-type捕捉器，分别在3个不同海拔梯度进行5年连续的空中花粉收集（夏秋季节每周一个样品，冬春季节每两周一个样品）。取样地点分别是新疆天山中段北部的天池气象观测站（43°53'58.38"N, 88°07'15.75"E , 海拔1942.5m）、中科院阜康荒漠生态系统定位站（44°17'27.41"N, 87°55'52.65"E, 海拔477m）和准噶尔盆地古尔班通古特沙漠南缘的北沙窝试验站(44°22'40.74"N, 87°55'9.74"E, 海拔443m），取样点的植被带跨度天山北坡的森林草原到低海拔的典型荒漠。 光学显微镜鉴定的空中花粉主要有43种类型（24科30属），而蕨类、苔藓与真菌孢子数量较少。孢粉类型多样性指数为2.45（Shannon Index）。显然，从样品中所鉴定的空中花粉种类与所观察的植物种类有很大的差距。花粉类型与数量在三个不同海拔梯度的取样点上也有明显差异。天池取样点的花粉类型较丰富，与天山北坡垂直带植被分布以及丰富的植被成分相对应，花粉的优势种类为雪岭云杉(Picea schrenkiana)、蒿属(Artemisia)、藜科(Chenopodiaceae)、柽柳科(Tamaricaceae)和麻黄属(Ephedra)，高代表性的外源荒漠花粉类型“削弱了”本地花粉类型的代表性;阜康与北沙窝取样点的花粉类型主要来自荒漠成分的藜科、蒿属、麻黄属、蒺藜科(Zygophyllaceae, 白刺属Nitraria为主）、柽柳科（柽柳属为主）、蓼科(Polygonaceae, 沙拐枣属Calligonum为主）等耐旱植物。花粉数量与植被数量并非简单的线性关系。空中和表土花粉的数量分析表明，藜科、蒿属、麻黄属花粉具有超代表性;雪岭云杉花粉的代表性适中;禾本科(Gramineae)、榆属(Ulmus)、白刺属、柽柳科、沙拐枣属花粉代表性较差。 5年平均花粉浓度大小依次是阜康（81.668 grains/100m3）>天池（51.726 grains/100m3）>北沙窝（45.7685 grains/100m3）。蒿属花粉的峰值出现在秋季，并且出现双峰现象（可能与不同蒿类花期分布不均有关），而其它木本和草本类植物花粉浓度的峰值为单峰，具有明显的季节性，春夏之交开花的桦木属、榆属等类型较为明显。藜科花粉的峰值出现在夏季，麻黄和柽柳的峰值出现在盛夏，桦木属、柳属Salix、雪岭云杉等花粉浓度峰值出现在初夏，与其花期物候相对应。木本植物花粉以雪岭云杉为主，其次为桦木属(Betula)、榆属、柳属、胡颓子科(Elaeagnaceae)花粉，柳属花粉百分比在三个取样点分配比较均匀，桦木属花粉在空间分布上差异明显，与植物分布数量相关。胡颓子科的花粉出现时间短，数量也较少。榆属花粉出现的季节性明显，代表性也较差。因此解释地层中出现类似的低代表性和高代表性的花粉类型时，需要注意其百分比数量的适当校正。木本植物花粉百分比随海拔高度变化成正比关系，对植被的指示性较好。雪岭云杉的年平均花粉浓度在天池取样点明显高于其它两个取样点，5年的平均花粉浓度和百分比与海拔高度呈正比。天池取样点的百分比最高为28.85%，平均为21.15%，而北沙窝与阜康两地5年平均百分比含量分别为0.69%和1.57%，这种时空变化规律与植被数量的关系密切。藜科花粉百分比在阜康和北沙窝取样点占绝对优势，5年的平均花粉浓度与海拔高度呈反比。蒿属花粉年平均浓度与海拔高度关系微弱（R2=0.04，p =0.46），而花粉百分比与海拔高度有显著的线性正比关系（R2=0.72，p<0.0001）。但在低海拔的两个取样点之间差异不明显。 年平均花粉百分比和花粉浓度随海拔梯度而变化，主要花粉类型的变化规律存在差异。暗针叶林雪岭云杉花粉的年平均百分比在低海拔的阜康和北沙窝地区低于3%，在盛花期的6月初，低海拔的取样点也未见超过5%，雪岭云杉花粉的传播在研究区范围内数量分布变化较大，再次表明该类型的花粉在原地沉积效率很高。空中花粉数量能够较好地指示主要的植被带，盛花期内50%以上的雪岭云杉花粉含量则指示了雪岭云杉森林植被带，而高含量的蒿属植物花粉指示了天山山前冲积平原上的蒿类荒漠，相反，高含量的藜科花粉代表了低海拔地区的荒漠。雪岭云杉花粉百分比与浓度均与海拔高度呈显著的线性正比关系，表明雪岭云杉花粉传播的局限性。主要的非木本植物藜科花粉的浓度与海拔高度成反比，蒿属则相反，表明藜科与蒿属花粉在研究区具有很好的植被与气候指示意义。 花粉绝对数量、百分比、浓度具有明显的年际变化，其原因与气候状况的变化有关，年平均花粉浓度、主要类型的花粉浓度与气候参数（降水量、平均温度、最高和最低温度、相对湿度等）的相关分析表明，降水量和湿度与花粉浓度呈负相关程度较高，与其它气候参数则呈显著的正相关。干旱指数、花粉比值、花粉百分比（AP，NAP）与七月份平均气温，年平均降水量的相关系数（Pearson correlation），Ar/Ch与七月平均温度在0.01水平上呈显著的正相关（R2=0.894）, 与年平均降水量在0.01水平上呈显著的负相关（R2=0.874）。AP花粉百分比与七月份平均温度呈显著的负相关（R2=0.71, p<0.0001），与年降水量呈正相关（R2=0.43, p=0.01），而NAP花粉正相反。利用短期监测的空中花粉雨数据计算得到的花粉比值以及干旱指数在研究区具有明确的指示意义，尤其是干旱指数、Ar/Ch、Ar/Ep，这些都可为表土花粉、植被与气候关系模型的建立提供重要的参考信息。 气候参数在很大程度上影响大气花粉的浓度，而风速和风向对空中花粉的传播、散布影响较大，花粉的来源与传播受风向和风速的控制。不同取样点的空中花粉数量差异受地形条件影响很明显，这种差异也可利用地形空气动力学特征的差异来解释，天池监测站因“逆坡”（upslope）的气流促进了低海拔的花粉流向高海拔传播。 研究区的空中花粉数量信息是研究表土花粉、植被和气候关系以及第四纪古生态学的重要基础。本研究提高了对研究区空中孢粉的类型及其传播规律的认识和理解，增加了解空中花粉受环境影响的主要因素及其影响程度，对地层孢粉类型鉴定和花粉数据的解释提出指导性建议，对本地区的古植被与古环境研究增加现代孢粉学的参考依据和信息，并可为建立区域性的现代孢粉－植被－气候关系模型提供可靠依据。 同时，本报告也讨论了存在问题和不足，并提出了今后工作的可能完善方案。

汉江下游武汉段河漫滩沉积物吸附磷的特征

研究了汉江下游武汉段河漫滩7个沉积物的吸附特征及温度和扰动强度对磷吸附等温线的影响,用改进的Langmuir模型和Freundlish模型对实验吸附数据进行拟合,可得到最大吸附容量(Qmax)、原有吸附可交换态磷(NAP)、临界磷平衡浓度(EPC0)和固-液分配系数(Kp)的值.结果表明,改进的Langmuir模型更适用于描述汉江河漫滩沉积物的吸附特征,其物理意义更明确;Kp与Qmax呈较好的线性关系;沉积物吸附和解吸磷能力与温度变化一致;沉积物在等温吸附磷过程中,固体浓度效应在强扰动强度(200 r/m