IMPACTS OF FUTURE SEA LEVEL RISE ON SALT WATER INTRUSION IN THE CHANGJIANG RIVER ESTUARY

Sea level rise could increase the salinity of an estuary by altering the balance between fresh water and salt water. The implications of sea level rise for increasing salinity have been examined in the Changjiang (Yangtze) River estuary. By correlative analysis of chlorinity, discharge and tidal level and calculation of two-dimensional chlorinity, distribution of the Changjiang River estuary, the changes of the intensity and lasting hours of salt water intrusion at Wusong Station and the changes of chlorinity distribution in the South Branch of the Changjiang River estuary have been estimated when future sea level rises 50-100 cm. The intensity of salt water intrusion in the future will be far more serious than current trend.

喷砂处理钢板高强度螺栓摩擦型连接循环抗剪试验研究

为了解决地震下高强度螺栓抗剪连接承载力性能的问题,对钢板喷砂处理的不同螺栓尺寸和孔型的36个高强度螺栓抗剪连接件进行了双剪、单剪和夹紫铜片双剪的循环加载试验,获得了连接件抗剪承载力、抗滑移系数、滑移前变形、刚度、滑移后的滑动承载力、实测摩擦因数、名义摩擦因数和螺栓拉力。结果表明:双剪连接刚度大,单剪连接滑移前变形是双剪连接的1.8倍;在喷砂钢板间夹紫铜片后抗滑移系数提高约16.1%并可减小摩擦力离散性和滑移噪声;螺栓垫圈与喷砂钢板间的摩擦力对单剪抗剪承载力有提高作用;提出修正的单剪连接抗滑移承载力公式;给出双剪、单剪和夹紫铜片双剪连接的滑移前变形建议取值,提出3类连接的滑动承载力公式。

跑台运动对慢性酒精中毒大鼠学习记忆的影响

目的:探究适当运动对慢性酒精中毒(CA)大鼠学习记忆障碍的影响。方法:取36只雄性SD大鼠随机分为正常组(n=8)、模型组(n=10)、低强度运动组(n=9)和高强度运动组(n=9),采用每只大鼠持续8周每天灌胃30%酒精4 mL的方法建立CA模型,正常组等容量注射生理盐水。通过戒断评分表和体质量变化等鉴定模型。造模成功后,对低强度运动组和高强度运动组分别以每天10、20 m/min的速度进行100 m的跑台运动,持续3周。最后通过5 d的Morris水迷宫实验对各组大鼠的学习记忆功能进行检测。结果:①CA模型鉴定,模型组大鼠较正常组的戒断评分表得分较高(P<0.05),且体质量明显下降(P<0.01)。②Morris水迷宫实验,与模型组相比,低强度运动组和高强度运动组Morris水迷宫的潜伏期有缩短趋势。低强度运动组较正常组在第一象限停留时间较长(P<0.01),低强度运动组较模型组在第一象限停留时间较长(P<0.05),高强度运动组不明显。结论:跑台运动对CA大鼠的学习记忆障碍可能有改善作用。

风化壳中不同种类黏土矿物对离子态稀土元素富集的贡献——以帽峰山风化剖面为例

在离子吸附型稀土矿床中,黏土矿物被认为是可交换离子态稀土元素的主要载体。高岭石和埃洛石是风化壳中富集稀土元素的主要黏土矿物,高岭石和埃洛石属同族矿物,结构相似,互为多型,由于常规方法无法准确区分高岭石和埃洛石的矿物组成和含量,从而无法准确区分各黏土矿物对稀土元素富集的贡献。本文以帽峰山风化剖面为研究对象,采用甲酰胺法处理风化壳样品,对风化壳中的高岭石和埃洛石进行半定量分析。并且,通过模拟吸附实验,查明了各类黏土矿物对稀土离子的吸附特征和吸附量,并结合等温吸附模型,揭示了黏土矿物对稀土离子的吸附机理。进一步通过理论计算,量化了各类黏土矿物对风化剖面不同深度稀土元素富集的贡献。结果表明,全风化层稀土元素富集的主要贡献矿物是高岭石,全风化层下部和表土层稀土元素富集的主要贡献矿物是埃洛石,半风化层稀土元素富集的贡献矿物同时包括高岭石、埃洛石和伊利石。本文半定量分析了风化壳中高岭石和埃洛石的矿物组成,量化了各类黏土矿物对风化壳各层稀土元素富集的贡献作用,厘清了各类黏土矿物对稀土离子的吸附机理,为进一步认识风化壳中稀土元素富集机制奠定理论基础。

成年初期男同性恋性道德结构构想及影响因素分析

男同性恋作为性少数群体,在身心发展过程中,其性道德发展及结构可能存在自身独特的特点。研究采用深度访谈对30名18~30岁成年初期男同性恋者进行研究,对访谈资料进行文本分析得出:成年初期男同性恋道德发展可分为四个阶段:单一异性恋道德准则阶段、多元道德准则阶段、整合对立信息阶段、初步稳定性道德阶段;性道德结构可以分为性道德认知、性道德行为发展、性道德情感发展三个主要部分;主要问题为:受到同性恋同伴、早期性教育和网络发展的影响,男同性恋在将异性恋道德规范迁移到同性恋性生活的过程中,由于缺乏正确的引导,在拒绝和接受的尺度拉扯之下,对不道德性行为的接受程度更高,这也间接导致男同性恋群体成为艾滋病的高发群体。

镁热还原Ta_(2)O_(5)制备电容器用钽粉工艺研究

通过镁热还原Ta_(2)O_(5)制备电容器用钽粉,研究了镁加入量、保温温度及时间对钽粉成分及其电性能的影响。结果表明:镁加入量过少、保温温度过低以及保温时间过短均会造成Ta_(2)O_(5)还原不彻底;但镁加入量过多会造成钽粉漏电流增大以及镁屑和酸的浪费,保温温度过高、保温时间过长则会造成钽粉电容损失及能耗增大,成本增加。为了达到降本增效的目的,镁加入量宜为理论量的2倍,保温温度宜控制在960℃左右,保温时间以6 h为宜。此工艺条件下制备的钽粉氧含量为0.362 0%,镁含量为0.001 1%,漏电流系数K值为4.4×10^(-4)μA/(μF·V),重量比容为15 630μF·V/g。

基于斑马鱼模型的酸枣仁复合保健酒助睡眠功效和安全性研究

为研究酸枣仁复合保健酒的助睡眠功效和安全性,以受精后5 d斑马鱼为实验对象,通过水溶给予对戊四唑(PTZ)建立斑马鱼失眠模型,利用行为分析仪测定模型斑马鱼和正常斑马鱼的觉醒活动量和觉醒总时间,评价酸枣仁复合保健酒改善睡眠功效。以受精后2 d斑马鱼为实验对象,通过斑马鱼组织器官毒性发生率评价酸枣仁复合保健酒安全性。结果表明,酸枣仁复合保健酒具有改善模型斑马鱼和正常斑马鱼睡眠的功效,具体表现为:显著降低模型斑马鱼的觉醒活动量和觉醒总时间(P<0.05),降低了正常斑马鱼的觉醒活动量和觉醒总时间。斑马鱼急性毒性实验结果显示,酸枣仁复合保健酒在2.83μL/m L给予量下对斑马鱼是安全的,超过8.48μL/m L给予量对斑马鱼产生毒性作用。综上,酸枣仁复合保健酒对斑马鱼具有助睡眠功效。

Nonreciprocal Photon Blockade Based on Zeeman Splittings Induced by a Fictitious Magnetic Field

Quantum nonreciprocity, such as nonreciprocal photon blockade, has attracted a great deal of attention due to its unique applications in quantum information processing. Its implementation primarily relies on rotating nonlinear systems, based on the Sagnac effect. Here, we propose an all-optical approach to achieve nonreciprocal photon blockade in an on-chip microring resonator coupled to a V-type Rb atom, which arises from the Zeeman splittings of the atomic hyperfine sublevels induced by the fictitious magnetic field of a circularly polarized control laser. The system manifests single-photon blockade or multi-photon tunneling when driven from opposite directions. This nonreciprocity results from the directional detunings between the countercirculating probe fields and the V-type atom, which does not require the mechanical rotation and facilitates integration. Our work opens up a new route to achieve on-chip integrable quantum nonreciprocity, enabling applications in chiral quantum technologies.

球化退火冷却速率对SR19热作模具钢组织和硬度的影响

利用DEFORM软件模拟得到大尺寸(200 mm×800 mm×2 000 mm)SR19热作模具钢在退火降温过程中不同深度位置的温度场,根据降温曲线设计该钢小尺寸试样的球化退火工艺,如下:将试样加热至860℃保温2 h,分别以不同速率(15,30,45,60℃·h^(-1))缓冷至740℃保温4 h,再炉冷至500℃后空冷至室温。分析了冷却速率对试样组织和硬度的影响。结果表明:随着冷却速率增大,试样中的先共析铁素体含量和碳化物分布均匀程度均先减小后增大,球化率先保持平稳后快速下降,退火硬度先减小后增大;当冷却速率为45℃·h-1时得到的显微组织最佳,碳化物分布均匀,球化率较高,先共析铁素体含量较少且出现了硬度的回落。先共析铁素体产生的原因主要是退火过程中冷却速率的控制不当导致奥氏体优先转变为铁素体并保留在最终组织中。

铝合金点阵激光选区熔化成形及其准静态与动态压缩性能研究

研究探索了铝合金点阵材料的激光选区熔化(SLM)制备工艺,通过调整激光功率和扫描速率,成功制备出BCC型AlSi10Mg点阵结构,并系统考察了SLM工艺参数、热处理对铝合金点阵结构准静态与动态压缩性能的影响。试验结果表明:SLM技术制备的AlSi10Mg合金点阵结构具有良好的成形性,其压缩性能随激光功率增加而显著提升,且展现出明显的应变率强化效应。树脂填充进一步增强了铝合金点阵结构的抗冲击性能,并降低了基于组织缺陷的应变率敏感性,为该结构在缓冲防护、抗冲击及轻量化防爆装置等工程领域应用提供了支持。

某超高层项目钢管混凝土组合柱应用

某超高层项目荷载较大,导致框架柱截面较大,严重影响建筑空间使用。采用钢管混凝土组合柱,和型钢混凝土柱相比,标准层每根柱节约建筑有效使用面积1.5~1.8m^(2),结构主体成本节约近1000万元。提出了对钢管进行开孔的梁柱节点做法并分析五种不同节点方案,采用大型通用有限元软件ABAQUS进行仿真分析,充分考虑框架梁对节点的约束作用,得到五种节点方案的极限承载力及钢管的最大应力,结果表明采用钢管开孔的梁柱节点做法可行,并得到最合理的开孔形式;分别对7种不同箍筋形式进行受力性能分析,并考虑实际施工因素,得到最为合理的箍筋设置形式。

Relating estimates of wood properties of birch to stem form, age and species

Birch has long suffered from a lack of active forest management,leading many researchers to use mate-rial without a detailed management history.Data collected from three birch(Betula pendula Roth,B.pubescens Ehrh.)sites in southern Sweden were analyzed using regression analysis to detect any trends or differences in wood proper-ties that could be explained by stand history,tree age and stem form.All sites were genetics trials established in the same way.Estimates of acoustic velocity(AV)from non-destructive testing(NDT)and predicted AV had a higher correlation if data was pooled across sites and other stem form factors were considered.A subsample of stems had radial profiles of X-ray wood density and ring width by year created,and wood density was related to ring number from the pith and ring width.It seemed likely that wood density was negatively related to ring width for both birch species.Linear models had slight improvements if site and species were included,but only the youngest site with trees at age 15 had both birch species.This paper indicated that NDT values need to be considered separately,and any predictive models will likely be improved if they are specific to the site and birch species measured.

融合先验信息的单株植物三维结构点云配准方法

针对样本一致性初始对化(SAC-IA)点云配准算法在处理样本抽样和误差计算时存在的高计算成本和鲁棒性不足的问题,提出一种融合先验信息的单株植物三维结构点云粗配准方法。该方法首先采用“体素下采样+直通滤波+统计离群点去除”的点云预处理策略,在有效降低点云数据量的同时保留植物结构的关键特征信息。通过引入基于先验知识的初始姿态约束,对SAC-IA算法进行改进,减少不合理变换矩阵的迭代次数,从而提高配准效率,降低误匹配风险。实验结果证明,所提方法配准均方根误差为6.242,时间为0.902 s,相比SAC-IA方法节省了1.407 s,显著提升了单株植物三维结构点云配准的运算效率和鲁棒性。

水泥特性对UHPC水化性能及抗压强度的影响分析

超高性能混凝土(UHPC)是一种新型水泥基复合材料,具有超高的力学性能、良好的材料韧性及优异的抗冲击性能与耐久性能。基于采用不同水泥制备的超高性能混凝土试件的试验研究,分析了水泥颗粒粒径、成分对UHPC体系水化放热速率和放热量、微观孔隙结构以及不同龄期抗压强度的影响规律,建立了水化动力学特性、微观孔隙结构以及宏观力学性能间的关联,揭示了水泥对UHPC水化动力学特性及力学性能的影响机理。

不锈钢双极板涂层-TiO_(2)薄膜的导电耐腐蚀行为研究

为了提高燃料电池金属双极板的导电耐腐蚀性,本文采用原子层沉积(ALD)工艺,在不锈钢316L上制备了TiO_(2)纳米薄膜,对比了不同加热温度以及基板加热与否时薄膜的导电耐腐蚀性能。结果表明,当加热250℃且基板不加热时,0.84 V恒电位腐蚀24 h,双极板涂层-TiO_(2)薄膜的电流密度最小,为1×10^(-10)A/cm^(2),且腐蚀前后接触电阻相对较小,导电和耐腐蚀性能均表现优异。通过XPS分析腐蚀前后薄膜表面的成分结构,发现二氧化钛保持了较稳定的结构,接触电阻增大主要源于表面C的氧化。

Engineering hierarchical quaternary superstructure of an integrated MOF-derived electrode for boosting urea electrooxidation assisted water electrolysis

Controllable design of the catalytic electrodes with hierarchical superstructures is expected to improve their electrochemical performance.Herein,a self-supported integrated electrode(NiCo-ZLDH/NF)with a unique hierarchical quaternary superstructure was fabricated through a self-sacrificing template strategy from the metal–organic framework(Co-ZIF-67)nanoplate arrays,which features an intriguing well-defined hierarchy when taking the unit cells of the NiCo-based layered double hydroxide(NiCo-LDH)as the primary structure,the ultrathin LDH nanoneedles as the secondary structure,the mesoscale hollow plates of the LDH nanoneedle arrays as the tertiary structure,and the macroscale three-dimensional frames of the plate arrays as the quaternary structure.Notably,the distinctive structure of NiCo-ZLDH/NF can not only accelerate both mass and charge transfer,but also expose plentiful accessible active sites with high intrinsic activity,endowing it with an excellent electrochemical performance for urea oxidation reaction(UOR).Specially,it only required the low potentials of 1.335,1.368 and 1.388 V to deliver the current densities of 10,100 and 200 mA cm^(-2),respectively,much superior to those for typical NiCo-LDH.Employing NiCo-ZLDH/NF as the bifunctional electrode for both anodic UOR and cathodic HER,an energy-saving electrolysis system was further explored which can greatly reduce the needed voltage of 213 mV to deliver the current density of 100 mA cm^(-2),as compared to the conventional water electrolysis system composed of OER.This work manifests that it is prospective to explore the hierarchically nanostructured electrodes and the innovative electrolytic technologies for high-efficiency electrocatalysis.

一种霍山石斛露酒的研制

本文研究了霍山石斛露酒的最佳调配工艺,通过单因素和正交试验,获得最佳配方为:基酒B、酒精度52%vol、提取液4%。该霍山石斛露酒具有“微黄,香气协调,醇甜柔和,甘润净爽,余味怡畅”的风格特点。产品质量符合国家标准要求,且富含多糖、多酚和生物碱类健康性成分。

白参黄芪酒和枸杞当归酒斑马鱼生物效应评价

该文以斑马鱼总运动距离为指标进行白参黄芪酒抗疲劳效果的评价,以斑马鱼卵黄囊荧光强度为指标进行枸杞当归酒抗氧化性效果的评价。实验结果表明,白参黄芪酒质量浓度在0.391、0.781μL/m L时斑马鱼总运动距离与模型对照组呈极显著差异。枸杞当归酒质量浓度在1.56μL/m L时斑马鱼卵黄囊荧光强度与模型对照组呈显著性差异,说明白参黄芪酒具有抗疲劳的效果,枸杞当归酒具有抗氧化性的效果。

复杂工况条件下大跨径桥梁拱梁结合段吊装技术研究与应用

在某些特定环境下大跨径桥梁施工过程中,拱肋吊装施工阶段由于受限于复杂地理位置及工况,导致安装过程产生较多难点。通过研究分析,采取对原设计节段的再划分,解决拱肋节段的陆路运输受限问题、建立三维模型分析及优化解决吊点设置等一系列施工方法,以确保复杂的异形拱肋吊装作业顺利进行。

Rational Design of Ruddlesden-Popper Perovskite Ferrites as Air Electrode for Highly Active and Durable Reversible Protonic Ceramic Cells

Reversible protonic ceramic cells(RePCCs)hold promise for efficient energy storage,but their practicality is hindered by a lack of high-performance air electrode materials.Ruddlesden-Popper perovskite Sr_(3)Fe_(2)O_(7−δ)(SF)exhibits superior proton uptake and rapid ionic conduction,boosting activity.However,excessive proton uptake during RePCC operation degrades SF’s crystal structure,impacting durability.This study introduces a novel A/B-sites co-substitution strategy for modifying air electrodes,incorporating Sr-deficiency and Nb-substitution to create Sr_(2.8)Fe_(1.8)Nb_(0.2)O_(7−δ)(D-SFN).Nb stabilizes SF’s crystal,curbing excessive phase formation,and Sr-deficiency boosts oxygen vacancy concentration,optimizing oxygen transport.The D-SFN electrode demonstrates outstanding activity and durability,achieving a peak power density of 596 mW cm^(−2)in fuel cell mode and a current density of−1.19 A cm^(−2)in electrolysis mode at 1.3 V,650℃,with excellent cycling durability.This approach holds the potential for advancing robust and efficient air electrodes in RePCCs for renewable energy storage.