Shape and diffusion instabilities of two non-spherical gas bubbles under ultrasonic conditions

Ultrasonic cavitation involves dynamic oscillation processes induced by small bubbles in a liquid under the influence of ultrasonic waves. This study focuses on the investigation of shape and diffusion instabilities of two bubbles formed during cavitation. The derived equations for two non-spherical gas bubbles, based on perturbation theory and the Bernoulli equation, enable the analysis of their shape instability. Numerical simulations, utilizing the modified Keller–Miksis equation,are performed to examine the shape and diffusion instabilities. Three types of shape instabilities, namely, Rayleigh–Taylor,Rebound, and parametric instabilities, are observed. The results highlight the influence of initial radius, distance, and perturbation parameter on the shape and diffusion instabilities, as evidenced by the R_0–P_a phase diagram and the variation pattern of the equilibrium curve. This research contributes to the understanding of multiple bubble instability characteristics, which has important theoretical implications for future research in the field. Specifically, it underscores the significance of initial bubble parameters, driving pressure, and relative gas concentration in determining the shape and diffusive equilibrium instabilities of non-spherical bubbles.

Surgical Treatment of Anterior Shoulder Instabilities Using the Latarjet Technique (about 40 Cases)

Purpose: Surgical treatment of chronic anterior shoulder instability is a difficult therapeutic challenge for contact athletes. The aim of our study is to evaluate the clinical and radiological results of 40 cases of chronic anterior shoulder instability treated in our institution by Latarjet technique. Methods: We report our experience with the intervention of Latarjet modified by the analysis of a retrospective study of 40 cases. They were all young athletic men, with an average age of 29 years with a predominance of the dominant shoulder. Results: Eighty percent had bone lesions, the first dislocation being traumatic (plating). One patient had a recurrence of his instability due to a new trauma and 67% resumed sport within an average period of eight months, some of whom still had functional discomfort in sports practice (9 patients). After an average follow-up of 75 months, 93% of patients were satisfied with their intervention. Only two mechanical complications were observed. Conclusion: Chronic anterior shoulder instability is pathology of young and active subjects. The preregulenoid coracoid block according to Latarjet represents the therapeutic method of choice in the treatment of chronic anterior instabilities of the shoulder, especially in young and athletic subjects. The result of this intervention remains good despite the complications that can occur such as pseudarthrosis, osteoarthritis, lysis or mobility of the screw.

Observing eddy dye patches induced by shear instabilities in the surf zone on a plane beach

The effects of surf zone eddy generated by alongshore currents on the deformation and transport of dye are still poorly understood,and related tracer release experiments are lacking.Therefore,a tracer release laboratory experiment was conducted under monochromatic,unidirectional incident waves with a large incident angle(30°)on a plane beach with a 1:100 slope in a large wave basin.A charge-coupled device suspended above the basin recorded the dye patch image.The evolution of eddy dye patch was observed and the transport and diffusion were analyzed based on the collected images.Subsequently,a linear instability numerical model was adopted to calculate the perturbation velocity field at the initial stage.The observation and image processing results show that surf zone eddy patches occurred and were separated from the original dye patches.Our numerical analysis results demonstrate that the structure of the perturbation velocity field is consistent with the experimental observations,and that the ejection of eddy patches shoreward or offshore may be ascribed to the double vortex.

Effect of ideal internal MHD instabilities on NBI fast ion redistribution in ITER 15 MA scenario

Transport of fast ions is a crucial issue during the operation of ITER.Redistribution of neutral beam injection(NBI)fast ions by the ideal internal magnetohydrodynamic(MHD)instabilities in ITER is studied utilizing the guiding-center code ORBIT(White R B and Chance M S 1984Phys.Fluids 272455).Effects of the perturbation amplitude A of the internal kink,the perturbation frequency f of the fishbone instability,and the toroidal mode number n of the internal kink are investigated,respectively,in this work.The n=1 internal kink mode can cause NBI fast ions transporting in real space from regions of 0<s≤0.32 to 0.32<s≤0.53,where s labels the normalized plasma radial coordinate.The transport of fast ions is greater as the perturbation amplitude increases.The maximum relative change of the number of fast ions approaches 5%when the perturbation amplitude rises to 500 G.A strong transport is generated between the regions of 0<s≤0.05 and 0.05<s≤0.12 in the presence of the fishbone instability.Higher frequency results in greater transport,and the number of fast ions in 0<s≤0.05 is reduced by 30%at the fishbone frequency of 100 k Hz.Perturbations with higher n will lead to the excursion of fast ion transport regions outward along the radial direction.The loss of fast ions,however,is not affected by the internal MHD perturbation.Strong transport from 0<s≤0.05 to 0.05<s≤0.12 does not influence the plasma heating power of ITER,since the NBI fast ions are still located in the plasma core.On the other hand,the influence of fast ion transport from 0<s≤0.32 to 0.32<s≤0.53 needs further study.

Chirping instabilities produced by a runaway electron beam at a spherical tokamak

Two different types of MHD instabilities with rapidly chirping frequency were found to arise in the Globus-M2 spherical tokamak in substantially different frequency ranges.The first type arises at frequencies of an order of 1 MHz in ohmic plasmas at relatively low density(n_(e))<2×10^(19) m^(-3) in a wide range of toroidal magnetic fields and plasma currents.This type of instability was identified as compressional Alfven waves,driven by electrons,accelerated during a sawtooth crush.It was found that the mode frequency is sweeping in time,according to the Berk-Breizman hole-clump nonlinear chirping model.The second type of wave arises in a specific single-swing regime of the central solenoid current with a very narrow plasma column,when the plasma tends to decay at extremely low density(n_(e))<2×10^(18) m^(-3) and,in fact,is an instability of the runaway electron beam.The exited modes cover the whole observed frequency range and are divided into several(two or three)frequency regions:approximately 0-30 MHz,60-120 MHz and sometimes 30-60 MHz.Reconnection of the branches was also observed.Single chirps are more rapid than for 1 MHz Alfven instability and follow an exponential law.This paper,to our knowledge,is the first report of frequency chirping instabilities excited by accelerated electrons at a spherical tokamak.

心理护理干预对慢性踝关节不稳定伴抑郁症患者情绪的影响

目的研究心理护理干预对慢性踝关节不稳定合并抑郁症患者情绪的影响。方法前瞻性研究,选取2020年1月至2022年1月在郑州大学第一附属医院骨科住院的61例慢性踝关节不稳定合并抑郁症患者,随机分为对照组(30例)和观察组(31例),对照组服用抗抑郁药,接受常规护理措施,观察组在对照组基础上接受心理护理干预,比较两组的焦虑抑郁状态、术后疼痛状况、康复效果及足踝功能。结果干预后,两组焦虑自评量表(SAS)和抑郁自评量表(SDS)评分均降低,且观察组低于对照组(P<0.05)。干预后,观察组视觉模拟评分(VAS)比对照组低,下床活动时间、住院时间比对照组短,踝关节肿胀的发生率比对照组低(P<0.05)。干预后,观察组的美国矫形外科足踝协会踝-后足功能评分系统(AOFAS)评分比对照组高(P<0.05)。结论心理护理干预能缓解慢性踝关节不稳定患者术后的焦虑抑郁情绪,缓解疼痛程度,促进患者康复。

考虑结构面震动劣化效应的岩质边坡块体动力稳定性评价

为解决岩质边坡块体在地震作用下的动力稳定性评价问题,基于结构面的循环剪切数值试验研究结构面的震动劣化效应,从而构建结构面震动劣化数学模型;结合坐标投影原理提出考虑结构面强度震动劣化效应的块体动力稳定性系数计算方法;基于数值分析法研究地震波波动特性对岩质边坡块体稳定性的影响,并进一步基于突变理论提出位移动力响应放大系数突变判据,最后形成一套以块体动力稳定性系数时程曲线和位移动力响应放大系数共同评价块体动力稳定性的评价体系,拓展地震作用下块体动力稳定性评价新思路。研究表明,结构面震动劣化效应不仅受循环剪切幅值、循环剪切次数及相对运动速度影响,还与起伏角度密切相关;通过算例证实了考虑结构面震动劣化的块体动力稳定性系数计算方法的准确性,所提出的以块体动力稳定性系数时程曲线和位移动力响应放大系数的共同评价体系更加安全可靠,将促进块体动力稳定性理论的发展,对边坡地质灾害的防治具有重要的科学意义和应用价值。

对流风暴大气不稳定机制研究的若干问题

大气不稳定是强对流天气发生的必要条件之一,具有复杂性。首先简要回顾了气块假设,给出了该假设的应用局限性,比如气块在对流风暴中的强上升运动必然会导致环境大气气压和涡度的变化等;然后梳理了大气的静力不稳定、对称不稳定以及其他多种类型不稳定的概念,重点总结了条件不稳定、湿绝对不稳定和条件对称不稳定的判据及其与对流风暴发生发展的关系,同时澄清了一些错误认识。判别条件不稳定最有效的方法是对气块作有限虚拟位移、使用对流有效位能(CAPE)来判别。CAPE和对流抑制能量的计算对抬升气块的温湿状况较为敏感,并需要进行虚温订正;最优CAPE值较地表CAPE具有更好的代表性。在强垂直风切变、低CAPE环境中,由于旋转导致的动力扰动气压梯度的加速作用对强对流风暴的发展至关重要;对流不稳定不一定对应于条件不稳定。条件对称不稳定的方便判别方法是使用饱和湿地转位势涡度,文中进一步总结了该不稳定所致的中尺度雨带特征。

带电射流非稳态破碎的可视化试验

采用高速数码相机对毛细管带电射流破碎形态的演化过程进行了可视化研究,探讨了大流量下带电射流破碎的基本形态及射流不稳定破碎模式的转变,分析了物性参数、电压及液体流量对带电射流破碎模式的影响.采用半球形毛细管喷嘴研究锥射流模式向简单射流模式演化的过程,采用普通毛细管喷嘴对比研究去离子水和乙醇的静电简单射流雾化模式.结果表明:在特定电压下,随着流量增加,锥射流模式可以逐渐过渡为简单射流模式;当初始状态为射流时,随着电压增加,大流量下的去离子水静电雾化射流破碎模式主要为曲张不稳定破碎和鞭动不稳定破碎;表面张力较小的无水乙醇更容易产生破碎,还出现了鞭动辅助分叉模式和枝状破碎模式.

开挖面失稳导致地下结构变形破坏的离心模拟

城市密集地下工程结构群下进行地下空间开发遭遇复杂地质环境时,可能会导致隧道开挖面失稳从而对既有结构的安全造成巨大威胁。开展了三个离心模型试验,模拟均质粉土地基和有黏土夹层的粉土地基中多层既有地下结构,研发了模拟隧道开挖面失稳的试验技术,再现了施工扰动引发的土体破坏模式和既有结构变形破坏机理。试验表明,控制开挖面位移(0.48H,H为开挖面高度)或者开挖面附近存在黏土夹层时,其附近形成的土拱有效地控制破坏区域,显著降低既有隧道的变形和应变,最终竖向变形为0.3~0.35 m,最大拉应变为850微应变;如果开挖面位移增大至0.86H,均质粉土地基出现整体失稳,既有隧道的最终竖向变形0.48 m,最大拉应变达到1900微应变。

慢性踝关节外侧不稳关节镜下与切开重建外侧副韧带的疗效比较

目的:比较全关节镜下及切开行距腓前韧带(anterior talofibular ligament,ATFL)和跟腓韧带(calcaneofibular ligament,CFL)重建的临床疗效。方法:回顾性分析2017年1月~2021年7月我科收治的51例慢性踝关节外侧不稳(chronic lateral ankle instability,CLAI)患者的临床资料。24例行全关节镜下ATFL及CFL重建,27例行常规切开ATFL及CFL重建。比较两组手术时间、术中并发症、住院时间、恢复正常行走时间等围手术期资料。术后行CT检查评估骨道位置。对比患者术前、术后3个月、术后6个月、术后1年及2年随访的美国足踝外科学会评分(American Orthopedic Foot and Ankle Society Score,AOFAS)、Karlsson评分、疼痛视觉模拟评分(visual analogue scale,VAS),抽屉试验及内翻试验结果,统计各组术后随访期间并发症发生情况。结果:所有患者均顺利完成手术。关节镜组切口总长度及恢复正常行走时间均显著少于切开组(P<0.05),两组手术时间及住院时间差异均无统计学意义(P>0.05)。术后CT显示,关节镜组1例距骨骨道位置欠佳,切开组1例跟骨骨道及1例距骨骨道位置欠佳,余骨道位置均位于相应足印区内。所有患者均获24~33个月随访。两组术后随访的AOFAS、Karlsson评分及VAS评分均优于术前(P<0.05),抽屉试验、内翻试验均为阴性。术后3个月时,关节镜组AOFAS、Karlsson评分及VAS评分均优于切开组(P<0.05)。术后6个月时,关节镜组AOFAS评分及Karlsson评分均优于切开组(P<0.05)。术后1年及2年时,两组AOFAS、Karlsson评分及VAS评分差异均无统计学意义(P>0.05)。术中及随访过程中均未出现严重并发症。结论:全关节镜下重建ATFL及CFL与切开重建治疗CLAI疗效相当,但全关节镜下恢复更快。

关节镜下Bankart修复术治疗训练伤所致复发性肩关节前脱位的临床疗效

目的探讨关节镜下Bankart修复术治疗训练伤所致复发性肩关节前向不稳的临床疗效。方法选取2017-01至2022-06武警山西总队医院收治的武警官兵因训练伤所致肩关节复发性脱位Bankart损伤患者46例(49肩),行关节镜下Bankart修复术。采用美国肩肘关节外科协会(ASES)评分和Rowe评分、前屈上举角度、外展外旋角度对肩关节功能进行评价。比较患者手术前后关节功能评分、肩关节活动范围、锚钉脱出及术后肩关节不稳复发率等指标。结果术后ASES评分[(87.3±5.7)分]与术前[(52.2±9.5)分]比较,差异有统计学意义(P<0.05)。术后Rowe评分[(95.2±4.9)分]与术前[(46.6±6.4)分]比较,差异有统计学意义(P<0.05)。术后锚钉脱出发生率为4.1%(2/49),肩关节不稳复发率为6.1%(3/49),肩关节活动度:术后前屈上举(168.7°±2.4°),外展外旋(72.8°±3.3°)与术前比较差异均无统计学意义。结论肩关节镜下Bankart修复术治疗军事训练伤所致复发性肩关节前向不稳临床效果满意,创伤小,再脱位发生率低,可有效改善肩关节功能。

同忻煤矿8105工作面上覆坚硬岩层失稳破断研究

为研究坚硬岩层破断对回采工作面的影响,以同忻煤矿8105工作面坚硬顶板为工程背景,利用破裂线理论,得到了极限荷载破坏公式;为探究坚硬岩层失稳破断对工作面的影响,借助薄板理论,建立坚硬岩层结构模型,结合坚硬岩层失稳模式,给出了坚硬岩层失稳判据,分别为坚硬岩层初次失稳尺度及周期失稳计算公式;根据8105工作面综合柱状及物理力学参数,通过坚硬岩层协同变形载荷计算公式、坚硬岩层初次失稳计算公式等,确定低、中、高坚硬岩层层位及坚硬岩层破断尺度。结果显示:低、中、高位坚硬岩层初次失稳尺度分别为35.4 m、74.9 m、122.1 m,周期失稳尺度分别为13.5 m、63 m、109.9 m。通过理论计算坚硬岩层破断尺度发现:高位坚硬岩层失稳尺度最大,而低位和中位坚硬岩层失稳尺度接近一致。因此,高位坚硬岩层破断对工作面开采影响最大;8105工作面上覆岩层失稳破断对微震事件具有一定的影响。通过微震数据统计可知:坚硬岩层随着工作面的开采逐步发生失稳破断,不同坚硬岩层之间易发生耦合作用,形成复合矿压。坚硬岩层失稳判据的理论计算与实际硬岩破断尺度对比发现,高位坚硬岩层的预测准确率最高。

长期稳定度2.6×10 ^(-16) 的工程化高可靠铷原子喷泉钟

随着喷泉钟运行可靠性的提升和激光技术的日趋成熟,喷泉钟不仅可以作为基准钟驾驭原子时标,提升原子时标的长期稳定度和准确度指标,还可以紧驾驭氢钟作为复合守时钟使用。铷原子的基态超精细能级跃迁作为次级秒定义,具有碰撞截面小,冷却激光运行可靠性高的优势,更加适合工程化。中国计量科学研究院研制的工程化铷原子喷泉钟采用双金属微波真空一体腔提升系统温度适应性,采用小型化光学系统和笼式结构探测光系统提升了运行可靠性,实现了铷喷泉钟长期准连续运行,年运行率达到97.5%。通过1年的比对测试,铷喷泉钟与NIM5铯喷泉钟频率比对的长期稳定度优于3.7×10^(-16),单台喷泉钟的长期频率稳定度优于2.6×10^(-16)。

长波段半导体激光泵浦光纤激光器实现2 kW功率输出

半导体激光(LD)泵浦的高功率光纤激光器具有效率高、体积小、重量轻、稳定性好等优点,在工业加工等诸多领域都有着广泛的应用。为了提高泵浦光吸收率,传统光纤激光器常用915 nm和976 nm波段的LD作为激光的泵浦源。在该类LD泵浦的光纤激光器中,由于量子亏损和泵浦吸收系数相对较高,光纤激光器的热致模式不稳定(TMI)阈值相对较低。为了提高量子效率和潜在的TMI阈值,提出采用大于1010 nm波段的LD直接泵浦光纤激光器,产生高量子效率激光。搭建了振荡放大一体化的全光纤激光器,采用总泵浦功率为2.56 kW的1010 nm波段LD泵浦,首次获得输出功率2.05 kW、光束质量M^(2)约1.7的激光。后续将通过进一步增大泵浦功率、优化光纤特性以实现更高功率、更优光束质量的光纤激光输出。

大倾角大采高工作面煤壁失稳机理分析

大倾角大采高工作面煤壁灾变易诱使支架-围岩系统失衡,导致围岩稳定性控制复杂化,故煤壁灾变防控对保障工作面安全生产十分关键,而科学化防控技术的前提是明晰煤壁失稳孕育机制,为此采用数值计算及理论分析法展开研究。研究结果表明:大倾角大采高工作面煤壁承压倾向分区异化,下部区域应力集中程度较中部、上部高,集中区范围由下至上减小,垂向中部应力值较低,应力极值及走向位置与回采距具有正相关性,煤壁揭露前后邻域承压环境会突变,且承压态随煤体破坏演变异化,煤体承压结构会由非连续态经压实过渡为类连续状,而后整体移动至阈值后发生破断结构离散化。煤壁前方塑性区随采动作用不同幅度扩展,其稳定性受制于回采距及速度,低速回采、回采距离增加时煤壁稳定性逐步降低,塑性破裂发育区煤体为支承压力等动载、静载主承体,煤壁失稳是支承压力与扰动区内煤体自身抗压性能动态失衡,由运移、变形等承压行为量变诱发煤体结构质变而破断失稳,承压非对称性及多向耦合造成煤壁失稳分区及范围倾向扩展。

计及表面残余应力的旋转凸凹型纳米圆板失稳分析

根据纳米材料表面残余应力和弹性板小挠度理论,建立旋转凸凹型纳米圆板横向振动微分方程,采用微分求积法得到不同条件下凸凹型纳米圆板的无量纲复频率随无量纲角速度和无量纲表面残余应力参数变化情况。研究结果显示:在周边固支和简支条件下,旋转凸凹型纳米圆板均发生第1阶发散失稳现象。在其他条件一定的情况下,周边固支凹型纳米圆板的临界失稳角速度小于凸型纳米圆板,周边简支凹型纳米圆板的临界失稳角速度大于凸型纳米圆板。临界失稳角速度随着表面残余应力的增加而增大,临界表面残余应力随着无量纲角速度的增加而增大。

管束结构的阻尼控制型流弹失稳特性研究

尽管自2012年SONGS事故以来,流弹失稳对管束结构的危害性和重要性再次引起了重点关注,但对导致这种不稳定现象的根本因素仍未确定。为进一步研究流弹失稳的基本物理机制,以压水堆蒸汽发生器通常采用的平行三角形管束为对象,基于开源CFD(computational fluid dynamics)工具OpenFOAM,同时耦合管的动力学方程,求解具有移动边界的非定常Navier-Stokes(uRANS)方程,建立了研究阻尼控制型不稳定机制的数值模型,进而预测管束的流固耦合振动,揭示影响阻尼控制型不稳定机制的关键参数和流动响应;重点讨论了不同质量阻尼参数下,系统的响应特性、能量输入与耗散,升力与位移间的相干性、相位差、相关系数,升力的频谱特性,主导激励机理。进一步揭示了管束流弹系统中占主导地位的激励机理和关键流动现象,有助于理解管束与流体之间的相互作用机理,同时为工程中使用开源CFD工具OpenFOAM预测流弹失稳行为提供了参考。

基于ANSYS的波纹管波形参数对柱失稳影响分析

为了研究波纹管波形参数对波纹管柱失稳的影响,使用ANSYS Workbench对波纹管进行了模态分析与特征值屈曲分析。采用控制变量的方法,改变波纹管波形参数,分别进行有限元分析;并对相同波数下的复式波纹管进行有限元分析,且与单式波纹管稳定性做分析比较。有限元结果表明:在实际工作中,可通过增加波纹管壁厚、波距,或减小波高、减少波数的方法,减少波纹管柱失稳的发生;当波纹管长度较长、波数较多时,使用复式波纹管是更优的选择。

3D打印辅助寰枢椎置钉的临床分析

目的探讨3D打印辅助寰枢椎置钉的临床效果。方法回顾性分析2014年3月到2022年9月安徽医科大学第二附属医院收治的33例寰枢椎后路钉棒固定融合术患者的临床资料,其中3D打印组15例,男11例,女4例;年龄20~80岁,平均年龄(52.87±16.97)岁;对照组18例,男13例,女5例;年龄19~68岁,平均年龄(43.39±13.59)岁。3D打印组进行3D打印模型的制作、模型研读、模型模拟制作钉道、预制好理想钉道的模型术中参考置钉;对照组根据术者经验常规徒手置钉。比较两组手术时间、术中出血量、透视次数、术后住院天数、置钉准确性Kawaguchi分级、不同时间点疼痛视觉模拟评分(visual analogue scale,VAS)、颈椎功能障碍指数(neck disability index,NDI)。结果两组患者均获随访,随访时间12~36个月,平均(32.88±7.15)个月。3D打印组手术时间(131.07±28.65)min,短于对照组的(168.11±61.75)min,差异有统计学意义(P<0.05)。3D打印组透视次数(9.80±2.21)次,少于对照组的(14.00±3.36)次,差异有统计学意义(P<0.05)。3D打印组术后3 d VAS评分(2.84±1.04)分,较对照组的(3.37±1.26)分更低,差异有统计学意义(P<0.05)。3D打印组置钉60枚,Kawaguchi分级0级56枚,优良率93.33%;对照组置钉72枚,Kawaguchi分级0级57枚,优良率79.17%;3D打印组置钉准确性优于对照组,差异有统计学意义(P<0.05)。其他相关指标组间比较,差异无统计学意义(P>0.05)。结论3D打印辅助寰枢椎置钉技术可缩短手术时间,提高螺钉的置入精度,减少潜在的神经血管损伤风险,疗效满意。