Analysis of the interaction between bolt-reinforced rock and surface support in tunnels based on convergence-confinement method

To investigate the interaction of the bolt-reinforced rock and the surface support,an analytical model of the convergence-confinement type is proposed,considering the sequential installation of the fully grouted rockbolts and the surface support.The rock mass is assumed to be elastic-brittle-plastic material,obeying the linear Mohr-Coulomb criterion or the non-linear Hoek-Brown criterion.According to the strain states of the tunnel wall at bolt and surface support installation and the relative magnitude between the bolt length and the plastic depth during the whole process,six cases are categorized upon solving the problem.Each case is divided into three stages due to the different effects of the active rockbolts and the passive surface support.The fictitious pressure is introduced to quantify the threedimensional(3D)effect of the tunnel face,and thus,the actual physical location along the tunnel axis of the analytical section can be considered.By using the bolt-rock strain compatibility and the rocksurface support displacement compatibility conditions,the solutions of longitudinal tunnel displacement and the reaction pressure of surface support along the tunnel axis are obtained.The proposed analytical solutions are validated by a series of 3D numerical simulations.Extensive parametric studies are conducted to examine the effect of the typical parameters of rockbolts and surface support on the tunnel displacement and the reaction pressure of the surface support under different rock conditions.The results show that the rockbolts are more effective in controlling the tunnel displacement than the surface support,which should be installed as soon as possible with a suitable length.For tunnels excavated in weak rocks or with restricted displacement control requirements,the surface support should also be installed or closed timely with a certain stiffness.The proposed method provides a convenient alternative approach for the optimization of rockbolts and surface support at the preliminary stage of tunnel design.

Magneli phase titanium sub-oxide conductive ceramic Ti_nO_(2n-1) as support for electrocatalyst toward oxygen reduction reaction with high activity and stability

Magneli phase titanium sub-oxide conductive ceramic Tin O2n-1 was used as the support for Pt due to its excellent resistance to electrochemical oxidation, and Pt/Tin O2n-1 composites were prepared by the impregnation-reduction method. The electrochemical stability of Tin O2n-1 was investigated and the results show almost no change in the redox region after oxidation for 20 h at 1.2 V(vs NHE) in 0.5 mol/L H2SO4 aqueous solution. The catalytic activity and stability of the Pt/Tin O2n-1 toward the oxygen reduction reaction(ORR) in 0.5 mol/L H2SO4 solution were investigated through the accelerated aging tests(AAT), and the morphology of the catalysts before and after the AAT was observed by transmission electron microscopy. At the potential of 0.55 V(vs SCE), the specific kinetic current density of the ORR on the Pt/Tin O2n-1 is about 1.5 times that of the Pt/C. The LSV curves for the Pt/C shift negatively obviously with the half-wave potential shifting about 0.02 V after 8000 cycles AAT, while no obvious change takes place for the LSV curves for the Pt/Tin O2n-1. The Pt particles supported on the carbon aggregate obviously, while the morphology of the Pt supported on Tin O2n-1 remains almost unchanged, which contributes to the electrochemical surface area loss of Pt/C being about 2times that of the Pt/Tin O2n-1. The superior catalytic stability of Pt/Tin O2n-1 toward the ORR could be attributed to the excellent stability of the Tin O2n-1 and the electronic interaction between the metals and the support.

The Co_3O_4 nanosheet array as support for MoS_2 as highly efficient electrocatalysts for hydrogen evolution reaction

The electrochemical hydrogen evolution reaction（HER） on a non-precious electrocatalyst in an alkaline environment is of essential importance for future renewable energy. The design of advanced electrocatalysts for HER is the most important part to reduce the cost and to enhance the efficiency of water splitting. MoSis considered as one of the most promising electrocatalysts to replace the precious Pt catalyst.Herein, for the first time, we have successfully loaded MoSelectrocatalysts onto the CoOnanosheet array to catalyze HER with a low onset potential of6 mV. The high hydrogen evolution activity of MoSsupported on the CoOnanosheet array may be attributed to the increased active sites and the electronic interactions between MoSand CoO.

New Damage Localization Method for Bridges Using Vertical Support Reaction Data under Truck Load

The localization of damage for bridges to ensure their safety is investigated in this paper. Equivalent element concept is introduced into this study at the beginning. Support reaction data of each bearing under truck load are found to be able to lend themselves to indicate damage. A novel index termed as symmetrical support reaction difference index （SSRDI） is then developed. The reverse mapping between the local flexurai stiffness change induced by damage and the SSRDI is generated. The proposed method based on SSRDI can be sensitive to tiny damages, and comparatively simple measurements are required during the application procedure. Another significant attraction of this method is that it can work in the presence of random uncertainties and actual support condition, which means it is suitable for real-world bridges. The effectiveness of the proposed method is demonstrated by numerical simulations performed on two kinds of bridges with reasonable damage severities. Its comparative advantage over the previous frequency method is also investigated.

Novel Design Method of COG Measurement System Via Supporting Reaction Method

Center of gravity(COG)is an important parameter of projectiles and rockets,for which supporting reaction method(or support reaction method)is an important COG measurement method.Based on this supporting reaction method a novel design method is proposed to determine the key design parameters of the COG measurement system.The method can quantitatively analyze the influence of the design parameters on the COG accuracy,in the measurement system designed with supporting reaction method.Using the principle of static balance,the error propagation theory,and the system accuracy analysis method,the equal-range required sensor precision(RSP)surface and non-equal-range required sensor pair precision(RSPP)adapted surface are adopted.The influence of random errors(like sensor accuracy and distance calibration accuracy)is analyzed.The selection strategy of equal-range and non-equal-range sensors is chosen,and then the recommended calibration accuracy values are obtained.For the quality detection accuracy of±0.6 kg and the axial COG detection accuracy of±1.5 mm,the RSP surface is drawn by the proposed method,and the force sensor with±0.23 kg detection accuracy is selected.The experimental verification meets the accuracy requirements and verifies the effectiveness of the proposed design method for the system parameters of the COG measurement equipment.

Direct asymmetric aldol reaction using MBHA resin-supported peptide containing L-proline unit

MBHA resin-supported tripeptide catalyst system containing L-proline unit has been developed for use in the direct asymmetric aldol reaction of acetone and aldehydes, which afford the corresponding products with satisfactory isolated yields and enantiomeric excesses. 2009 Hong Bin Zou. Published by E]sevier B.V. on behalf of Chinese Chemical Society. All rights reserved.

Nation-Teflon bimembrane-supported palladium catalysts for Suzuki coupling reactions

Nation-Teflon bimembrane was used as an efficient support for the preparation and application of heterogeneous palladium catalysts. The supported palladium catalysts exhibit high activity and stability in the Suzuki cross-coupling of aryl bromides with arylboronic acids to afford the corresponding biaryls in good to excellent yields, and can be readily recovered and reused several times without significant loss of activity.

间隔织物双剑杆织机平行打纬机构箱体的振动分析

针对双剑杆织机共轭凸轮与四连杆组合的平行打纬机构箱体随着织机转速的提高产生强烈振动,影响打纬精度和可靠性的问题,采用理论分析与虚拟仿真结合的方法对打纬机构及箱体进行动应力和振动特性研究。建立了平行打纬机构的动态静力分析方程,运用ADAMS软件对机构进行多体动力学仿真,求解箱体所受的支反力;构建箱体—弹簧阻尼—柔性基础的系统模型,分析箱体在竖直方向的受迫振动,并在仿真过程中探索减小箱体振动的方法。研究结果表明:摆臂轴孔处箱体所受支反力峰值最大,打纬推程阶段箱体的受力最为集中;当凸轮轴转速为260 r/min时齿轮啮合频率与箱体一阶固有频率相等,会产生共振,应避免使用这一转速工作;箱体在竖直方向上产生周期性振动,增加螺栓个数和附加动力减震器有助于改善箱体的振动特性,振幅分别减少38%和23%。

In situ IR, pulse reaction and TPD-ITD study of catalytic performance of room-temperature carbon monoxide oxidation on supported gold catalysts

With in situ IR, two different CO adsorption bands were detected on various chemical state gold catalysts. One band is attributed to the linear CO on an oxidized gold catalyst(2100 cm -1 ), the other one is ascribed to the bridged CO on metallic gold (2085 cm -1 ). CO pulse reaction showed that Au/Fe 2O 3 catalyst had a room temperature activity even in the presence of moisture. The produced CO 2 was detained and more easily desorbed from supported gold catalyst than support oxide. TPD IDT results indicated that the O - 2 superoxide ions are the possible active oxygen species.

富马酸亚铁联合营养支持对营养不良儿童营养、免疫及血液指标的影响

目的探讨富马酸亚铁联合营养支持对营养不良儿童营养、免疫及血液指标的影响。方法前瞻性选取2020年1月至2023年6月烟台市烟台山医院收治100例的营养不良的患儿,按照随机数字方法分为对照组及研究组,各50例。研究组在营养支持基础上口服富马酸亚铁,对照组采用单纯营养支持,连续治疗4周。比较两组患儿治疗后临床疗效及不良反应,以及营养指标、血液指标及免疫指标水平。结果研究组患儿临床有效率(86.00%)明显高于对照组(68.00%),差异有统计学意义(χ^(2)=4.574,P=0.033)。治疗后,研究组患儿体质量指数(BMI)、转铁蛋白(TRF)及前清蛋白(PAB)、白蛋白、前白蛋白、血清铁(SI)、血红蛋白(Hb)及网织红细胞(Ret)水平明显高于对照组(P<0.05);IgA、IgG、IgE明显高于对照组(t=4.602,3.393,2.772,P<0.05),IgM水平明显低于对照组(t=3.805,P=0.001);两组患儿不良反应比较差异无统计学意义(P>0.05)。结论富马酸亚铁联合营养支持可显著提高营养不良患儿营养状态及免疫功能,改善铁代谢障碍及提高血红蛋白含量,且不良反应少,安全性较高,值得应用。

玻纤负载α-Fe_(2)O_(3)/CuFe_(2)O_(4)异质结薄膜的制备 及其催化性能

为了克服传统芬顿催化剂的降解速率慢、pH适用范围窄、难回收等缺点,采用浸涂溶胶-凝胶法制备了玻璃纤维负载的α-Fe_(2)O_(3)/CuFe_(2)O_(4)异质结薄膜(FCGF),对其结构、形态和化学组成进行表征,并将其用于亚甲基蓝的光芬顿催化降解,考察其催化活性、pH值适用性和重复使用稳定性。结果表明:CuFe2O4颗粒生长在α-Fe_(2)O_(3)颗粒表面,形成α-Fe_(2)O_(3)/CuFe_(2)O_(4)异质结;在模拟太阳光辐射条件下,加入2 g FCGF和20 mmol/L的H_(2)O_(2),50 mL质量浓度为30 mg/L的MB溶液在40 min后降解率达到97%,而在相同条件下加入α-Fe_(2)O_(3)与CuFe_(2)O_(4)降解率分别为20%和30%,其催化活性的增强可归因于异质结光催化剂产生的光诱导电位差驱动的光生载流子的有效分离;同时,FCGF在宽pH范围显示出较高活性,pH=10时,MB溶液40 min后降解效率仍达到63%;FCGF具有良好的稳定性,5次循环后其催化性能没有衰减,反应40 min后MB降解率仍可达97%。

基于SOR理论的产前心理弹性支持对瘢痕妊娠再次剖宫产产妇心理弹性及应对方式的影响

目的 探究基于刺激-机体-反应(SOR)理论的产前心理弹性支持对瘢痕妊娠再次剖宫产产妇的影响。方法 选取2022年1月至2023年6月南京医科大学附属南京医院收治的120例拟行剖宫产的瘢痕妊娠产妇作为研究对象,采用随机数字表法将其分为对照组(60例)与观察组(60例)。对照组实施常规护理干预,观察组实施基于SOR理论的产前心理弹性支持干预,两组均连续接受8周干预。比较两组干预前、干预8周后心理弹性水平、应对方式。结果 干预8周后,两组焦虑控制、抑郁抑制、精神状态、不安抑制,以及量表总分均高于干预前,且观察组高于对照组(P<0.05);两组计划-准备、灵性-积极应对得分高于干预前,且观察组高于对照组(P<0.05);两组逃避评分低于干预前,且观察组低于对照组(P<0.05)。结论 基于SOR理论的产前心理弹性支持可提高瘢痕妊娠再次剖宫产产妇的心理弹性水平,促进其采用积极的应对方式。

贵金属催化剂在CO-PROX反应中的应用进展

CO-PROX反应具有操作简单、安全实用、价格低廉等特点。从应用于CO-PROX反应中贵金属催化剂的活性组分、助剂、载体及整体式催化剂方面介绍了贵金属催化剂在CO-PROX反应中的应用进展,提出控制粒子尺寸、提高分散度,选择具有还原性及特定形貌的金属氧化物为载体,掺杂助剂修饰等可有效提高催化性能。整体式催化剂具有床层压降低、传质效率高等优点,适合应用于高空速、大通量的氢能-燃料电池系统中。并对应用于CO-PROX反应催化剂的发展趋势进行展望。

CuAg双金属催化剂的性能及在锌空气电池中的应用

采用化学还原法两步合成了CuAg催化剂。通过扫描电子显微镜(SEM)、透射电子显微镜(TEM)、X射线衍射(XRD)、X射线光电子能谱(XPS)等手段对CuAg催化剂进行表征分析,并对其进行循环伏安(CV)、线性扫描伏安(LSV)等电化学测试。结果表明:在氧饱和的碱性电解质中,CuAg氧还原反应是4电子过程,随着Ag含量的增加,催化活性逐渐增强。将CuAg负载碳黑上,催化性能得到了进一步提高,CuAg/C的起始电位为0.815 V(vs.RHE),Tafel斜率为84.92 mV/(°)。将催化剂应用于锌空气电池时,电池功率密度达到128.96 mW/cm^(2),极限放电比容量达到792 mAh/g,在5 mA/cm^(2)充、放电循环下具有长期循环稳定性。

Pd基MoO_(x)催化剂中金属与载体的相互作用及其对Heck反应的影响

钯(Pd)催化的Heck反应是合成中构建碳-碳键的有效方法之一。金属-载体相互作用(MSI)对于非均相催化剂在某些工业过程中由于金属活性位点暴露或堵塞而显著提高或降低催化性能具有重要意义。本文合成了Pd基MoO_(x)催化剂,利用XRD、XPS、Raman等表征研究了在不同氧化还原处理条件下,钯纳米粒子与氧化钼层的金属-载体相互作用(MSI)在碘苯和丙烯酸甲酯的Heck反应中的性能影响。研究发现Pd/MoO_(3)在氢气条件下的部分还原导致MoO_(x)物种迁移到Pd-NPs的表面并形成包封结构,涂层可能通过空气煅烧重新暴露,MSI导致Pd/MoO_(3)在Heck反应中的催化性能降低。本研究证明了平衡金属-载体相互作用在实际催化剂设计中的重要性,以实现贵金属催化剂在催化Heck反应中的更高利用率。

自支撑Cu/α⁃FeOOH/泡沫镍复合催化剂氧化甲醇耦合电解水高效制氢

采用一步溶剂热法在泡沫镍(NF)基底上原位生长Cu/α⁃FeOOH纳米复合材料,制备了自支撑Cu/α⁃FeOOH/NF催化剂。相比于α⁃FeOOH/NF催化剂,Cu的引入为α⁃FeOOH的生长提供了更多的附着点,使得催化剂表面更加粗糙,并增大了催化剂与反应物的接触面积。Cu和无定形的α⁃FeOOH之间存在晶态和非晶态的异质界面,改变了催化剂的电子结构,促进电子从Ni、Fe向Cu转移,从而显著增强了催化剂对甲醇的吸附和氧化。电化学测试表明,Cu/α⁃FeOOH/NF催化剂具有优异的甲醇氧化反应(MOR)和析氢反应(HER)性能。在Cu/α⁃FeOOH/NF催化剂同时作为阴极、阳极的Cu/α⁃FeOOH/NF||Cu/α⁃FeOOH/NF HER⁃MOR耦合电解水系统中,达到10 mA·cm^(-2)电流密度所需的电压比直接全水解系统降低了125 mV,且在较大电压(2.4 V)下能够稳定反应96 h。此外,阳极MOR产生了价值更高的甲酸盐,1.80 V下生成甲酸盐的法拉第效率高达97%。

下承式钢桁梁托顶推施工受力分析

本文依托龙游站新建天桥的钢桁梁项目,采用数值模拟方法对天桥顶推施工过程中的结构响应进行了模拟分析,其结果如下:在不同施工阶段,钢桁梁的应力分布呈现出显著的动态变化,尤其在悬臂区域和直腹杆区域;钢桁梁最大挠度主要出现在屋面横梁处;顶推过程中反力值与悬臂距离呈现正相关性;该设计方案满足抗倾覆和局部稳定的规范要求,以期研究成果对相似工程有一定的借鉴意义。

不同支撑材料对Na-Mn_(2)O_(3)载氧体化学链甲烷氧化偶联性能的影响

采用浸渍法制备了3种具有稳定多孔结构的支撑材料(SiO_(2),Mg O,TiO_(2))负载的Na-Mn_(2)O_(3)载氧体,采用XRD、N2吸附-脱附、SEM、H_(2)-TPR等方法对载氧体的微观结构进行表征,研究了不同还原温度下各种支撑材料对Na-Mn_(2)O_(3)载氧体化学链甲烷氧化偶联性能的影响。实验结果表明,支撑材料主要影响载氧体的催化活性和储氧能力,SiO_(2)比MgO和TiO_(2)具有更发达的孔结构和更高的比表面积,Na-Mn_(2)O_(3)/Si O_(2)的催化性能最佳,在800℃下C2选择性达74.25%、C2产率为14.12%;Na-Mn_(2)O_(3)/SiO_(2)和Na-Mn_(2)O_(3)/MgO具有较好的结构稳定性,活性组分具有较好的晶格氧稳定性;MgO与Mn_(2)O_(3)的前体在载氧体制备过程中化学反应最显著,形成了Mg_(6)MnO_(8)并产生较高的储氧能力。

氧化物负载磷钨酸催化甘露醇脱水反应的研究

分别以SiO_(2),TiO_(2),ZrO_(2)和Al_(2)O_(3)为载体,采用浸渍法负载Keggin型磷钨酸,制备了一系列不同负载量的催化剂。通过红外光谱(FT-IR)、X射线衍射(XRD)、扫描电镜(SEM)和程序升温脱附(NH3-TPD)等表征手段分析催化剂。在无溶剂、减压条件下,使用制得的催化剂,研究了催化剂催化甘露醇脱水反应的性能,考察了催化剂载体种类、磷钨酸负载量、反应时间、反应温度和催化剂用量对甘露醇转化率和脱水产物的影响。结果表明,以30%PW/SiO_(2)为催化剂,催化反应性能较好,较佳的工艺条件是催化剂与甘露醇质量比为0.03,反应温度为170℃,反应时间为2 h,反应体系真空度为0.09 MPa,在此条件下甘露醇的转化率为100.0%,2,5-脱水山梨醇收率为55.7%,1,4-脱水甘露醇收率为9.7%,异甘露醇收率为25.9%,副产物收率为8.5%。