High-Throughput Growth of Hexagonal Boron Nitride Film Using Porous-Structure Isolation Layer

Chemical vapor deposition is considered as the most hopeful method for the synthesis of large-area high-quality hexagonal boron nitride on the substrate of catalytic metal. However, the size the hexagonal boron nitride films are limited to the size of growth chamber, which indicates a lower production efficiency. In this paper, the utilization efficiency of growth chamber is highly improved by alternately stacking multiple pieces of Cu foils and carbon fiber surface felt with porous structure. Uniform and continuous hexagonal boron nitride films are prepared on Cu foils through chemical vapor deposition utilizing ammonia borane as the precursor. This work develops a simple and practicable method for high-throughput preparation of hexagonal boron nitride films, which could contribute to the industrial application of hexagonal boron nitride. .

Mechanical properties and associated seismic isolation effects of foamed concrete layer in rock tunnel

Foamed concrete has a good energy absorption capability and can be used as seismic isolation material for tunnels. This study aims to investigate the mechanical properties and associated seismic isolation effects of foamed concrete layer in rock tunnel. For this, a series of uniaxial/triaxial compression tests was conducted to understand the effects of concrete density, confining stress and strain rate on the mechanical properties of foamed concrete. The direct shear tests were also performed to investigate the effects of concrete density and normal stress on the nonlinear behaviors of foamed concrete layer-lining interface. The test results showed that the mechanical properties of foamed concrete are significantly influenced by the concrete density. The foamed concrete also has high volumetric compressibility and strain-rate dependence. The peak stress. residual stress. shear stiffness and residual friction coefficient of the foamed concrete layer-lining interface are influenced by the foamed concrete density and normal stress applied. Then, a crushable foam constitutive model was constructed using ABAQUS software and a composite exponential model was also established to study the relationship between shear stress and shear displacement of the interface, in which their parameters were fitted based on the experimental results. Finally, a parametric analysis using the finite element method(FEM) was conducted to understand the influence of foamed concrete layer properties on the seismic isolation effect, including the density and thickness of the layer as well as the shear stiffness and residual friction coefficient of the interface. It was revealed that lower density and greater thickness in addition to smaller shear stiffness or residual friction coefficient of the foamed concrete layer could yield better seismic isolation effect, and the influences of the first two tend to be more significant.

Determination of isolation layer thickness for undersea mine based on differential cubature solution to irregular Mindlin plate

The differential cubature solution to the problem of a Mindlin plate lying on the Winkler foundation with two simply supported edges and two clamped edges was derived.Discrete numerical technology and shape functions were used to ensure that the solution is suitable to irregular shaped plates.Then,the mechanical model and the solution were employed to model the protection layer that isolates the mining stopes from sea water in Sanshandao gold mine,which is the first subsea mine of China.Furthermore,thickness optimizations for the protection layers above each stope were conducted based on the maximum principle stress criterion,and the linear relations between the best protection layer thickness and the stope area under different safety factors were regressed to guide the isolation design.The method presented in this work provides a practical way to quickly design the isolation layer thickness in subsea mining.

公路隧道泡沫混凝土减震层减震效果评价

近年来泡沫混凝土材料因优良的抗震性能逐渐被推广应用于隧道减震层结构,本研究分析了强震作用下公路隧道泡沫混凝土减震层的减震机理。使用ABAQUS有限元软件建立精细化隧道结构模型,其中泡沫混凝土减震层采用可表征泡沫混凝土受压行为的可压缩泡沫本构模型,用于分析强震作用下隧道二次衬砌结构损伤。结果表明,隧道结构在水平向与竖向地震荷载共同作用下的损伤比水平向荷载单独作用的情况严重,泡沫混凝土减震层虽不能从根本上改变隧道结构受力状态,但可显著降低二次衬砌的内力幅值。其次对比了不同厚度泡沫混凝土减震层的减震效果得出,对于穿越高烈度地震区公路隧道,当采用厚度为0.4 m的泡沫混凝土减震层时,其在强震作用下减震效能最高。

考虑机组弹性的双层隔振系统刚度匹配方法

为解决柴油发电机组对不同类型和功率发电机的连接套与隔振系统刚度匹配问题,提出以广义弹性力做功为基础的能量解耦法来量化刚度匹配对双层隔振系统固有特性的影响.基于某内燃动力总成双层隔振系统建立3自由度和18自由度动力学模型进行分析.结果表明:3自由度模型能够反映系统耦合的主要特点,机组弹性模态频率与低阶刚体振动模态频率比大于2.96时可以降低刚体振动对弹性模态的影响;考虑惯性耦合和弹性耦合后,18自由度模型对应的频率比应大于4.10才可以显著降低该振动耦合.同一柴油机匹配不同惯性参数的发电机,均可参考小惯性参数发电机隔振设计时对应的频率比和刚度比进行双层隔振系统刚度匹配.

新型组合隔震支座设计与性能研究

在已有研究基础上,为提高摩擦型组合隔震支座变形能力、改进各摩擦组件位移协调性,建立实体化和参数化计算模型,对新型三段两级摩擦组合隔震支座进行构造及内力分析研究,使用ABAQUS软件对摩擦阻尼器和组合隔震支座进行实体有限元模拟。针对设置常规隔震支座和新型组合隔震支座的某隔震结构案例进行建模及非线性时程地震响应分析,推导组合隔震支座出力和构造参数的关系。研究结果表明,文章所采用的摩擦阻尼器参数化建模方法是准确的,新型组合支座可明显降低支座拉应力,减小隔震层位移,提高结构抗倾覆能力。文章提出的针对摩擦阻尼器的简化单元可大幅提高有限元模型的计算效率。

高铁大跨度斜拉桥上无砟轨道变形适应性理论与试验研究

高速铁路大跨度斜拉桥应用无砟轨道可提高线路平顺性和稳定性,消除线路的潜在限速点,统一轨道类型,减少轨道线路运维成本,是我国高速铁路的重要技术创新。依托世界首座无砟轨道大跨度斜拉桥-昌吉赣客专赣州赣江特大桥,建立大跨度斜拉桥-无砟轨道体系精细化有限元分析模型,探明了大跨度斜拉桥-无砟轨道一体化体系的变形特征,设计并制作了大跨度斜拉桥上无砟轨道变形适应性的等效比例室内试验模型,开展了大跨度斜拉桥上无砟轨道变形适应性理论与试验研究,对比分析了大跨度桥上无砟轨道的不同长度、隔离层类型及布置方式的影响,研究了在各类变形条件下大跨度斜拉桥上无砟轨道的变形跟随性和协调性。研究结果表明:大跨度斜拉桥梁端转角和主梁整体挠曲变形仍可依据现行规范中的中小桥梁相关限值进行控制;应合理控制斜拉桥主梁节间的局部变形,避免桥上无砟轨道层间出现脱空离缝;提出了大跨度斜拉桥上单元式无砟轨道设置橡胶隔离层的技术方案,论证了橡胶隔离层的应用效果,建立了桥上无砟轨道橡胶隔离层的“缓冲作用”理念和轨道层间“隔而不离”的设计目标,显著提高了桥上无砟轨道的变形适应性;本文研究成果可为高速铁路大跨度斜拉桥上无砟轨道的推广应用提供技术支持。

壁面粗糙度对隔离段气动性能影响的数值计算

针对粗糙度对隔离段性能影响,本文开展了不同粗糙度大小、不同粗糙度分布对相同背压下隔离段内激波串发展以及对隔离段出口气流参数影响的数值计算。隔离段进口马赫数2.0,总压0.82 MPa,总温840 K。研究结果表明:与光滑壁面相比,整体布置粗糙度时,边界层转捩提前,激波串起始位置向上游移动,隔离段出口气流参数下降;当粗糙带布置在50S时,随着粗糙度的增加,激波串起始位置后移;当粗糙带布置在70S时,随着粗糙度的增加,隔离段出口气流总压恢复系数升高。因此,合理布置粗糙度位置及大小能够使隔离段具有更优的性能。

P波入射下山体-隔震层-隧道的整体响应分析

采用高精度间接边界元方法(IBEM)开展了山体-隔震层-隧道的整体响应分析,研究了P波入射下柔性隔震层对高斯形山体内双线隧道地震动响应的减弱作用。在隔震层与围岩之间考虑了碎土的错动滑移,以模拟不完美交界面,并系统讨论了隔震层弹性模量、厚度、P波入射频率等因素对隧道地震动响应的影响。数值模拟结果表明:适当增加隔震层厚度可以显著降低隧道应力,有效提升隔震效果,应力降低幅度约达50%以上,且使得结构受力更为均匀;随着隔震层材料的弹性模量减小,隧道动应力数值明显减小,有效减少了其应力放大区的面积,从而有效避免因地震而导致的衬砌裂缝。

移动荷载作用下层状横观各向同性饱和土中排桩的隔振效应

利用有限元-边界元耦合法评估了移动荷载下层状横观各向同性饱和土体中排桩的隔振效果。利用有限元法将排桩离散成单桩以及桩单元,基于Bernoulli-Euler梁理论得到桩的有限元矩阵方程;在桩-土边界,土体单元与桩单元进行了等节点离散,并以层状饱和地基的解析层元基本解作为核函数,利用边界积分法得到桩-土界面处地基的柔度矩阵;基于两阶段理论,将侧摩阻力响应与移动荷载直接引起的振动进行耦合,结合边界元法得到饱和地基的边界元方程;考虑Bernoulli-Euler梁和土体之间不发生相对滑移和脱开的位移协调条件,耦合有限元和边界元方程,得到排桩的动力响应方程;计算有无排桩隔振下某一观测点的位移,即可结合隔振理论分析排桩的隔振效率。在验证所提方法准确性的基础上,分析了桩长、桩身刚度、移动荷载速度以及横观各向同性参数对排桩隔振效应的影响。结果表明:最优桩长约等于2倍瑞利波长,超过该值隔振效果提高不大;桩与地基的刚度差越大,隔振效果越好;荷载速度超过剪切波速,桩基隔振表现反而更好。

崩落法转充填法开采安全隔离层厚度研究

地下矿山崩落法转充填法开采是矿山行业维持可持续发展与保护生态环境的重要趋势,为保障某大型地下矿山崩落法转充填法安全开采的有序衔接,本文对该矿安全隔离层厚度及稳定性进行了深入的计算与分析。首先,通过荷载传递线交汇法、结构力学简化梁法、普氏拱理论计算了隔离层厚度,厚度分别为19.5 m、20.1 m和22.7 m;其次,建立三维精细化矿体开采模型,设计崩落法转充填法安全隔离层15 m、20 m、25 m三种厚度方案进行对比,采用有限差分计算软件FLAC^(3D)对矿体崩落法分层开采、充填法首采中段开挖进行了全过程模拟。研究结果表明:安全隔离层厚度20 m时,最大沉降变形值为21 cm,最小主应力为压应力0.05 MPa,隔离层岩体未出现受拉破坏,产生的塑性破坏区域零散分布,影响范围有限。综合理论计算和数值模拟结果,最终确定矿山安全隔离层厚度应不小于20 m。矿体留设安全隔离层可有效降低崩落法开采和充填法开采区域的相互影响,保证深部矿体充填法开采的安全进行,研究方法和结果可为相似条件矿山提供参考。

非饱和土地基中双层波阻板屏障对S波的隔离效应研究

在传统波阻板的基础上,将屏障隔振改进为相同厚度的双层波阻板。基于非饱和多孔介质和弹性介质中的波动理论,研究非饱和土地基中双层波阻板对S波的隔离效应。根据Helmholtz原理,获得S波入射下非饱和土地基中设置双层波阻板后地表竖向位移解答。首先研究双层波阻板的材料参数对其隔振性能的影响规律,研究发现通过调控双层波阻板的密度和剪切模量能够使双层波阻板隔振屏障获得最优隔振效果;然后对比双层波阻板与相同材质的单层均质波阻板的隔振效果,并分析入射角、频率、饱和度、波阻板的厚度和埋深等物理力学参数对其隔振性能的影响规律。研究结果表明:同一厚度的波阻板隔振体系中,双层波阻板的隔振效率比同等材质的单层波阻板分别提高了49.18%和42.59%;双层波阻板对低频、中频和高频的环境振动均有较好的隔振效果。

“一站式”学生社区的社交网络分析方法

为了对线上学生社区进行社交网络分析,文章提出了一种基于学生社交数据的孤立者检测方法,旨在识别社交网络中可能存在的孤立者。文章设计了一个包含连接特征、活跃度特征和中心性特征的特征提取层,通过综合分析构建了学生特征向量。随后,采用多层感知机作为神经网络层,对学生特征进行数据挖掘,最终输出学生为社交孤立者的概率。最后,以Friendster数据集为基础进行了实验,结果表明所提方法的准确度、精确度、召回率等较高。

BIM技术在医疗综合楼及附属设施建设施工阶段的应用分析

大型医院建设项目专业性强,工序穿插较复杂,工程体量大,专业数量多,协调施工难度大。文章以漳县人民医院医疗综合楼及附属设施建设项目(一期)工程为例,基于BIM技术实现方案深化、管线综合排布、BIM参数化建模、施工过程工序模拟等,解决项目施工的重难点问题,验证了BIM全过程实施的优势与风险。项目顺利施工,证明BIM技术应用可行,优势明显,对今后类似项目深入推进BIM岗位级应用、提升各岗位工作效率具有重要意义。

沥青缓冲隔离层老化后水泥混凝土路面受力分析

利用ABAQUS软件进行静力分析,不仅可以进行线性分析,也可以进行非线性分析。文章根据设置沥青缓冲隔离层水泥混凝土路面的受力情况,运用ABAQUS分析了设置沥青缓冲隔离层的水泥混凝土路面结构,以及沥青缓冲隔离层老化后的结构应力及位移分布图,以供参考。

地铁车站近接施工对运营桥梁的影响分析

基于大连地铁香工街车站暗挖近接运营桥梁项目,通过数值模拟方法,研究不同工况下暗挖施工对桥梁桩基的影响。结果表明:三台阶较两台阶开挖,桩基最大沉降可减小18.5%、底板隆起可减小19.0%,沉降控制明显;当洞内注浆达原有围岩刚度1.0倍时,注浆效果最为明显,沉降控制率在25.0%以上;加两排隔离桩对承台的影响最小,较加一排隔离桩沉降减少21.0%,较不加隔离桩沉降减小60.0%。现场监测数据与数值模拟结果趋势相同、位移差异不大,说明加固方案安全有效。

一种适配多协议的水利物联网平台架构方案研究

本文聚焦智慧水利感知网建设,提出一种适配多协议的水利物联网平台架构方案,通过分层标准化架构和高度灵活的配置化、插件化设计,实现不同协议的差异化管理。详细阐述了方案的技术背景、设计细节及测试方案,并对方案性能进行了深入分析和评估。实验结果验证了本方案在兼容性、拓展性方面的较大优势,能够解决大规模终端设备接入带来的协议多样性问题,显著降低了水利物联网平台的运维成本。

Shaking table test and numerical simulation of an isolated cylindrical latticed shell under multiple-support excitations

In order to study the infl uence of the ground motion spatial eff ect on the seismic response of large span spatial structures with isolation bearings, a single-layer cylindrical latticed shell scale model with a similarity ratio of 1/10 was constructed. An earthquake simulation shaking table test on the response under multiple-support excitations was performed with the high-position seismic isolation method using high damping rubber (HDR) bearings. Small-amplitude sinusoidal waves and seismic wave records with various spectral characteristics were applied to the model. The dynamic characteristics of the model and the seismic isolation eff ect on it were analyzed at varying apparent wave velocities, namely infi nitely great, 1000 m/s, 500 m/s and 250 m/s. Besides, numerical simulations were carried out by Matlab software. According to the comparison results, the numerical results agreed well with the experimental data. Moreover, the results showed that the latticed shell roof exhibited a translational motion as a rigid body after the installation of the HDR bearings with a much lower natural frequency, higher damping ratio and only 1/2~1/8 of the acceleration response peak values. Meanwhile, the structural responses and the bearing deformations at the output end of the seismic waves were greatly increased under multiple-support excitations.

基于环境温度概率模型的超长隔震结构温缩变形控制研究

针对寒冷地区超长隔震结构在施工期和运营初期存在较大隔震层温缩变形的特点,以陕西省咸阳市在建的某超长复杂隔震结构为研究对象,从后浇带划分方式、后浇带封闭时间和隔震层刚度生成时间等方面探讨隔震层温缩变形的控制措施。首先,基于广义极值分布模型给出了极端温度重现期为10年、50年和100年的环境温度极值,确定了考虑结构环境温差和干缩变形影响的综合温差取值;然后,将综合温差施加于不同的后浇带划分结构模型,系统分析了隔震层温缩变形演变过程,以及后浇带划分方式、后浇带封闭时间和隔震层刚度生成时间对隔震层最大温缩变形的影响规律。分析结果表明:部分变形监测点温缩变形的变化趋势在后浇带封闭前后发生变化;结构设置后浇带且后浇带处钢筋不连通能有效控制隔震层的最大温缩变形;但随着结构长向后浇带条数的增加,最大温缩变形的减小幅度逐渐降低;后浇带的封闭时间宜结合隔震层温缩变形的控制目标和结构施工的整体性要求进行选择;隔震层刚度生成在温度温和的季节,能明显减小纯温差变形,从而降低隔震层最大温缩变形。

Effect of infusion pressure during cataract surgery on ganglion cells measured using isolated-check visual evoked potential

AIM： To detect the relationship between infusion pressure and postoperative ganglion cells function.METHODS： This prospective observational cohort study included sixty-one eyes that underwent uncomplicated cataract surgery. Patients were divided into two groups according to infusion time（IT） recorded using surgery equipment [Group A： IT〉IT_（mean）（27 eyes）; Group B： IT