静力触探单、双用探头测得的p_s、q_c值的关系

用静力触探求地基土的各种设计参数及解决工程问题的大量经验关系式,均是以带7厘米长度护套的单用探头所测得的比贯入阻力P_s为依据而建立起来的。但近年来,双用探头的应用日益广泛,双用探头所测得的是锥尖阻力q_c,侧壁摩阻力f_s;另外国际上不管是单用探头,还是双用探头所测得的均为锥尖阻力q_c。众所周知。

静力触探单、双用探头测得的p_S、q_C的关系

一、前言静力触探是一种简便、快速,经济而又可靠的地基土原位测试手段,在工程地质勘测中已被广乏应用,在确定土的工程分类、土的强度和变形参数、估算单桩承载力、判定饱和砂土液化可能性等方面的经验关系均已为工程界接受。有的已纳入了国家规范和部颁规程,深受广大岩土工作者欢迎。

{P_(4)Mo_(6)}基多金属氧酸盐构筑的镍配合物作为一种电化学传感器用于检测Cr^(Ⅵ)和Fe^(Ⅲ)离子

以钼酸钠、硫酸镍和3-氨甲基吡啶为原料,通过水热法合成了一个{P_(4)Mo_(6)}基多金属氧酸盐构筑的镍配合物,其化学式为[H_(2)(3-AP)]_(6){Ni[Mo_(6)O_(12)(OH)_(3)(PO_(4))_(2)(HPO_(4))_(2)]_(2)}(化合物1),3-AP为3-氨甲基吡啶.该化合物为三维超分子结构,其由{Ni[P_(4)Mo_(6)^(Ⅴ)O_(31)]_(2)}^(22-)记为{Ni(P_(4)Mo_(6))_(2)}和质子化的3-AP通过氢键相互作用连接而成.研究了该配合物修饰的碳糊电极(1-CPE)对Cr^(Ⅵ)和Fe^(Ⅲ)离子的电化学检测,检出限(LODs)分别为2.3和4.6μmol/L.同时1-CPE在各种金属离子的存在下对Cr^(Ⅵ)和Fe^(Ⅲ)表现出良好的选择性和较强的抗干扰能力.

可溶性P_(2)O_(5)对超细硫铝酸盐水泥基双液注浆材料早期水化性能的影响及机理

为了指导磷石膏在超细硫铝酸盐水泥基双液注浆材料(SCBGM)中的高效应用,研究了可溶性P_(2)O_(5)对大水灰比下SCBGM早期水化性能的影响及作用机理。结果表明,可溶性P_(2)O_(5)的加入不显著影响SCBGM浆体的凝结时间。可溶性P_(2)O_(5)掺量为0%~1.5%时,随着其掺量的增加,SCBGM早期强度逐渐增大。在1.5%最佳掺量下,可溶性P_(2)O_(5)可显著提高早期SCBGM中钙矾石的生成量,还可以显著优化硬化体中钙矾石的分布特征,使其由团簇状转变为显著的搭接交错分布状态,进而充分发挥钙矾石晶体的强度骨架效应。

快压缩P_(1)波在饱和冻土与弹性基岩分界面上的能量传输特性

基于弹性波在冻结饱和多孔介质与单相弹性介质中的传播理论,选取了饱和冻土中传播速度最大的快压缩P 1波入射在饱和冻土与弹性基岩分界面上的能量传输问题。根据分界面上的边界条件,推导出了快压缩P 1波从饱和冻土介质入射到弹性基岩分界面上透反射振幅比和能量率的解析表达式。研究了快压缩P_(1)波入射在饱和冻土与弹性基岩分界面上的能量与入射角度,入射频率,温度(含冰量),孔隙率,胶结参数以及接触参数的关系。研究结果表明:当入射角度为0°时仅存在压缩波,达到临界角后透射P波消失;各种波在达到临界角时出现不同程度的脉冲,其中反射P_(1)波最为显著;随着胶结参数,孔隙率,接触参数的增大,临界角越早出现;入射频率仅对反射P_(2),P_(3)和S_(2)波的能量反射率影响较大;当温度和含冰量较低或较高时,均不利于反射S_(2)波的能量产生。

Zn_(3)(As_(1-x)P_(x))_(2)纳米结构制备及光谱特性研究

Zn_(3)As_(2)与Zn_(3)P_(2)具有相同的伪立方晶格结构,它们具有较高的电子迁移率、较窄的直接带隙和良好的空气稳定性,在光电器件领域呈现出广泛的应用前景。目前关于Zn_(3)As2-Zn_(3)P_(2)固溶体纳米结构的研究相对较少,采用高气压烧结技术得到Zn_(3)(As_(1-x)P_(x))_(2)(x=0、0.05、0.1)母合金,再利用化学气相沉积方法合成出多种形态的Zn_(3)(As_(1-x)P_(x))_(2)纳米结构,包括宏观尺寸的纳米带(长度3~10 mm;宽度1~4 mm;厚度约20μm)、纳米帆、纳米棒及纳米银簪等。系统的研究了P掺杂对相组成、元素含量、微结构以及光谱特性的影响。X射线衍射(XRD)结果表明,Zn_(3)(As_(1-x)P_(x))_(2)宏观纳米带样品的主相为α′相,随着P掺杂含量的增加,(224)衍射峰向右发生偏移,表明晶格常数减小。电子能谱分析显示P理论值(光致发光光谱)掺杂含量值x=0.05和x=0.1的Zn_(3)(As_(1-x)P_(x))_(2)母合金纳米带中P的实际含量分别为x=0.026及x=0.062。微结构分析表明,Zn_(3)As_(2)宏观纳米带的生长模式为沿〈221〉晶面菱形层状生长,P掺杂使纳米带的宏观尺寸减小,生长模式由菱形层状生长转变为纳米颗粒堆积层状生长。纳米带样品的拉曼光谱在79、97、198、320、428和1107 cm^(-1)出现特征峰,P掺杂导致拉曼光谱中1107 cm^(-1)特征峰发生蓝移,傅里叶红外光谱(FTIR)中1101和1599 cm^(-1)特征峰与PL谱中的300、422和635 nm特征峰也发生蓝移。Zn_(3)As_(2)与Zn_(3)(As_(0.974)P_(0.026))_(2)纳米带光电流与电压的线性关系良好,存在较好的欧姆特性,P掺杂后的Zn_(3)(As_(0.974)P_(0.026))2纳米带在900 nm条件下的光响应最为敏感。

乳酸浸出中低品位磷块岩富集P_(2)O_(5)的新工艺研究

贵州织金中低品位含稀土型磷矿石中P_(2)O_(5)的质量分数为15.47%,其主要矿物成分为氟磷灰石、胶磷矿、白云石、石英等属难选磷矿石。采用传统的选矿方法不能对该类磷矿石中的有用矿物与脉石矿物进行有效分离,为解决这一难题,利用相对分子质量较低的乳酸作为浸出剂对矿石中的碳酸盐组分进行选择性溶解,其中有用组分磷灰石因不溶于乳酸而得以保留,过滤除去滤液后,达到富集P_(2)O_(5)的目的。系统考察了乳酸质量分数、反应时间、反应温度、液固质量比、矿石粒度等因素对P_(2)O_(5)富集效果的影响。结果表明,在乳酸质量分数为9%、反应温度为50℃、反应时间为3 h、液固比(体积质量比,m L/g)为30∶1、矿石粒度为0.075~<0.09 mm的条件下,获得的磷精矿中P_(2)O_(5)质量分数为33.99%,达到了市场要求的磷矿石品位。利用乳酸选择性浸出磷矿石中碳酸盐脉石组分从而富集P_(2)O_(5)的工艺,具有富集率高、工艺简便、经济节能等特点,可有效提高含稀土磷矿资源的综合利用率,具有良好的推广应用前景。

基于密度泛函理论的团簇Co_(2)Mo_(2)P_(3)的磁学性质

为探究微观状态下非晶态合金Co-Mo-P三元体系的磁学性质,基于拓扑学原理对团簇Co_(2)Mo_(2)P_(3)进行空间立体结构设计,使用密度泛函理论在B3LYP/Lanl2dz水平下对设计构型进行优化分析,得到8种稳定构型,其中二重态和四重态各4种,运用Gaussian09和Multiwfn软件对团簇Co_(2)Mo_(2)P_(3)的原子轨道成单电子数分布、电子自旋磁矩和自旋态密度进行微观层面理论分析.结果表明:s轨道和p轨道成单电子数较少,对团簇磁性的贡献较小;d轨道上成单α电子对团簇磁性贡献最大;Co是团簇中产生磁性的主要贡献原子.s轨道和p轨道上均出现了α电子和β电子自旋方向变化的现象;s轨道会在某一点上改变自身的电子自旋方向,而d轨道不会改变自身的电子自旋方向,p轨道与s轨道一样会改变方向.电子自旋密度图对称性最差的是d轨道.

Eosin Y敏化CQDs-Ni_(12)P_(5)光催化制氢研究

通过水热法和低温煅烧法分别合成了稳定的碳量子点(CQDs)和Ni_(12)P_(5),通过简单的机械研磨将两者复合成CQDs-Ni_(12)P_(5)。采用X射线衍射(XRD)、透射电镜(TEM)和电化学阻抗(EIS)等对催化剂进行了表征,并通过荧光光谱(FL)测试其电子转移行为。以染料Eosin Y(EY)为催化剂(敏化剂),Ni_(12)P_(5)为助催化剂,三甲胺(TMA)为牺牲剂,研究了CQDs修饰Ni_(12)P_(5)的染料敏化制氢性能。研究表明,CQDs负载量为15 wt%的Ni_(12)P_(5)(15CQDs-Ni_(12)P_(5))拥有最高的染料敏化制氢活性(3565μmol·h^(-1)·g^(-1)),是纯Ni_(12)P_(5)的3.36倍。活性的提高是因为EY、CQDs及Ni_(12)P_(5)之间有效的电子传递。此外,探讨了可能的析氢反应机理。

基于密度泛函理论的团簇Co_(2)Mo_(2)P_(3)催化性质研究

基于拓扑学原理和密度泛函理论,本文探究团簇Co_(2)Mo_(2)P_(3)的催化反应作用机理及其活性产生的原因,使用Gaussian09程序,在B3LYP/Lanl2dz水平下,对团簇的初始构型进行全参数优化和运算分析。对Co_(2)Mo_(2)P_(3)中各个原子对其HOMO和LUMO轨道的贡献进行研究,得到Co对其前线轨道的贡献率为53.511%、59.013%,Co原子在该团簇中是潜在的活性位点。通过观察态密度图和HOMO-LUMO图,发现Co原子是引起费米能量级两边峰值的主要因素。进一步的能隙差和库普曼斯定理分析显示,构型1(4)和3(4)具有较强的得失电子能力,并且拥有比其他构型更强的催化活性,这些结果为深入理解团簇Co_(2)Mo_(2)P_(3)的催化性能提供了有力支持。本研究的发现为团簇Co_(2)Mo_(2)P_(3)在催化反应中的应用机制和活性产生的原因提供了重要理论依据,为进一步优化催化性能,设计高效催化剂提供了有益参考。

钠离子电池正极材料Na_(4)Fe_(3-x)Cr_(x)(PO_(4))_(2)P_(2)O_(7)/C@CNT的制备及电化学性能研究

为改善钠离子电池正极材料Na_(4)Fe_(3)(PO_(4))_(2)P_(2)O_(7)的导电性,提高其充放电性能,采用Cr^(3+)掺杂提高正极材料本征导电性,采用包覆碳和复合碳纳米管(CNT)构筑高效导电网络以加快纳米活性物颗粒间的电子传导,制备并探究了Na_(4)Fe_(3-x)Cr_(x)(PO_(4))_(2)P_(2)O_(7)/C@CNT复合材料的结构与电化学性能。结果表明,当Cr^(3+)掺杂量x为0.075、CNT添加质量分数为3%时,所制备材料表现出较小的电荷传递阻抗和优异的高倍率充放电性能。其0.1 C和20 C倍率下的放电比容量分别达到120.64 mAh/g和87.11 mAh/g,10 C倍率下循环500次后容量保持率高达92.37%。

Mg^(2+)掺杂对焦磷酸盐Sr_(2)P_(2)O_(7):Eu^(2+)紫色荧光粉的发光性能影响

紫光具有光固化、防伪检测以及光催化净化等特性,在特殊照明领域应用广泛。然而,高性能紫外或者近紫外光用紫色(380~420 nm)荧光粉相对稀缺,极大地制约了紫光照明的进一步发展和应用。焦磷酸盐Sr_(2)P_(2)O_(7)因其合成温度较低、稳定性高等优点,是一种理想的发光材料基质,鉴于此,本文以Sr_(2)P_(2)O_(7):Eu^(2+)紫色荧光粉为研究对象,研究了Mg^(2+)掺杂对样品结构、形貌以及发光性能影响。结果表明,掺杂Mg^(2+)能够显著提升荧光粉的发光性能,同时晶体形貌表面由粗糙转变为光滑,颗粒平均粒径尺寸增大。当Mg^(2+)掺杂浓度为0.45 mol时,Sr1.55Mg0.45P2O7:Eu^(2+)样品在150℃温度下的发光强度维持初始强度的75%,并且拥有88.17%的高量子效率,荧光寿命为0.48μs。这表明(SrMg)2P2O7:Eu^(2+)紫色荧光粉具备在光固化性防伪检测以及光催化净化等领域潜在应用前景。

B_(2)O_(3)含量对磷酸盐玻璃结构和性能的影响及其成纤工艺初探

采用熔融冷却法制备不同B_(2)O_(3)含量的P_(2)O_(5)-CaO-B_(2)O_(3)(PCB)系磷酸盐玻璃,研究B_(2)O_(3)含量对结构以及热稳定性的影响,选取单位表面积失重量最大的玻璃样品,通过高温黏度与差示扫描量热(DSC)测试分析,初探该玻璃的成纤工艺。结果表明,B_(2)O_(3)质量分数为3%时,P-O-P键被破坏;B_(2)O_(3)质量分数达到12%时,B^(3+)参与形成键强较大的P-O-B键,此时玻璃的热稳定性达到最佳;B_(2)O_(3)质量分数达到18%时,[BO_(3)]、[BO_(4)]单独存在并参与玻璃网络结构的形成,说明PCB三元系统磷酸盐玻璃具有成纤的可能性,并发现低拉丝速率会造成纤维表面存在缺陷。研究结果可为后续功能性PCB玻纤的研究提供参考。

秦淮河流域降水汛期分配不均匀性分析

为探究秦淮河流域汛期降水不均匀性,本文以秦淮河流域内16个气象站点1978—2019年汛期逐日降水资料,利用反距离权重插值、气候倾向率、SPSS相关分析等方法对秦淮河流域汛期降水集中度P_(CD)和集中期P_(CP)进行分析。结果表明,1978—2019年,秦淮河流域汛期P_(CD)为0.09~0.57,呈不显著增加趋势,总的分布特征是中游高上下游低;P_(CP)波动范围为18.5~21.5旬,呈不显著延迟趋势,地域差异较小;汛期降水量与P_(CD)在流域内表现出一致正相关,而与P_(CP)基本呈负相关。多水年和少水年P_(CD)和P_(CP)空间分布差异较大。研究结果可为秦淮河流域洪涝灾害防治提供依据。

Two-dimensional layered In_(2)P_(3)S_(9): A novel superior anode material for sodium-ion batteries

Developing reliable and efficient anode materials is essential for the successfully practical application of sodium-ion batteries.Herein,employing a straightforward and rapid chemical vapor deposition technique,two-dimensional layered ternary indium phosphorus sulfide(In_(2)P_(3)S_(9)) nanosheets are prepared.The layered structure and ternary composition of the In_(2)P_(3)S_(9) electrode result in impressive electrochemical performance,including a high reversible capacity of 704 mA h g^(-1) at 0.1 A g^(-1),an outstanding rate capability with 425 mA h g^(-1) at 5 A g^(-1),and an exceptional cycling stability with a capacity retention of88% after 350 cycles at 1 A g^(-1).Furthermore,sodium-ion full cell also affords a high capacity of 308 and114 mA h g^(-1) at 0.1 and 5 A g^(-1).Ex-situ X-ray diffraction and ex-situ high-resolution transmission electron microscopy tests are conducted to investigate the underlying Na-storage mechanism of In_(2)P_(3)S_(9).The results reveal that during the first cycle,the P-S bond is broken to form the elemental P and In_(2)S_(3),collectively contributing to a remarkably high reversible specific capacity.The excellent electrochemical energy storage results corroborate the practical application potential of In_(2)P_(3)S_(9) for sodium-ion batteries.

基于注入/压降试井的煤层气井产能分析

针对部分煤层气区块存在单井产量差异大、低产井多的问题,以大宁-吉县区块浅层煤层气的9口生产井为研究对象,通过注入压降试井测试方法,分析了高产井与低产井的试井解释特征。结果表明:高产井的特征为见气压力高、地层压力低、渗透率高、裂缝特征明显;低产井的特征为地层压力高、渗透率低、裂缝特征不明显;在地质条件相近、排采制度相同的情况下,单井产量主要受钻井、压裂等工程因素的影响;通过引入动态p_(d)值(解吸区间)发现,低单井产量主要是由p_(d)值较低(小于1 MPa)、解吸区间小、储层物性较差造成的。在此类井中开展储层二次改造后,产量由200~400 m^(3)/d提升至1000 m ^(3)/d。

Unraveling the incompatibility mechanism of ethylene carbonate-based electrolytes in sodium metal anodes

Ethylene carbonate(EC)is widely used in lithium-ion batteries due to its optimal overall performance with satisfactory conductivity,relatively stable solid electrolyte interphase(SEI),and wide electrochemical window.EC is also the most widely used electrolyte solvent in sodium ion batteries.However,compared to lithium metal,sodium metal(Na)shows higher activity and reacts violently with EC-based electrolyte(NaPF_(6)as solute),which leads to the failure of sodium metal batteries(SMBs).Herein,we reveal the electrochemical instability mechanism of EC on sodium metal battery,and find that the com-bination of EC and NaPF_(6) is electrically reduced in sodium metal anode during charging,resulting in the reduction of the first coulombic efficiency,and the continuous consumption of electrolyte leads to the cell failure.To address the above issues,an additive modified linear carbonate-based electrolyte is provided as a substitute for EC based electrolytes.Specifically,ethyl methyl carbonate(EMC)and dimethyl carbon-ate(DMC)as solvents and fluoroethylene carbonate(FEC)as SEI-forming additive have been identified as the optimal solvent for NaFP_(6)based electrolyte and used in Na_(4)Fe_(3)(PO_(4))_(2)(P_(2)O_(7))/Na batteries.The batter-ies exhibit excellent capacity retention rate of about 80%over 1000 cycles at a cut-off voltage of 4.3 V.

Extending the solid solution range of sodium ferric pyrophosphate:Off‐stoichiometric Na_(3)Fe(2.5)(P_(2)O_(7))_(2)as a novel cathode for sodium‐ion batteries

Iron‐based pyrophosphates are attractive cathodes for sodium‐ion batteries due to their large framework,cost‐effectiveness,and high energy density.However,the understanding of the crystal structure is scarce and only a limited candidates have been reported so far.In this work,we found for the first time that a continuous solid solution,Na_(4−α)Fe_(2+α)_(2)(P_(2)O_(7))_(2)(0≤α≤1,could be obtained by mutual substitution of cations at center‐symmetric Na3 and Na4 sites while keeping the crystal building blocks of anionic P_(2)O_(7) unchanged.In particular,a novel off‐stoichiometric Na_(3)Fe(2.5)(P_(2)O_(7))_(2)is thus proposed,and its structure,energy storage mechanism,and electrochemical performance are extensively investigated to unveil the structure–function relationship.The as‐prepared off‐stoichiometric electrode delivers appealing performance with a reversible discharge capacity of 83 mAh g^(−1),a working voltage of 2.9 V(vs.Na^(+)/Na),the retention of 89.2%of the initial capacity after 500 cycles,and enhanced rate capability of 51 mAh g^(−1)at a current density of 1600 mA g^(−1).This research shows that sodium ferric pyrophosphate could form extended solid solution composition and promising phase is concealed in the range of Na_(4−α)Fe_(2+α)_(2)(P_(2)O_(7))_(2),offering more chances for exploration of new cathode materials for the construction of high‐performance SIBs.

A Multi-Center Randomized Controlled Study UsingΔP_(CO2)/Ca-v_(O2)as the Target to Guide Early Tissue Hypoperfusion in Sepsis in Plateau Areas

Objective:To explore the value of using the venous-arterial carbon dioxide partial pressure difference and the arterial-venous oxygen content difference ratio(ΔP_(CO2)/Ca-v_(O2))as targets to guide early tissue hypoperfusion in sepsis in plateau areas.Methods:90 sepsis patients admitted to the Third People’s Hospital of Xining and Golmud People’s Hospital from June 2017 to December 2022 were selected as the research subjects,and they were divided into the Scv_(O2)(central venous oxygen saturation)group and theΔP_(CO2)/Ca-v_(O2)group,with 45 cases in each group.The two groups were treated with early shock resuscitation according to different protocols.The hemodynamic characteristics of the two groups of patients before and after resuscitation were observed,and the volume responsiveness was evaluated.The ROC(receiver operating characteristic)curve was used to analyze the significance ofΔP_(CO2)/Ca-v_(O2),Scv_(O2),lactate,lactate clearance,and urine output in evaluating patient prognosis and the correlation betweenΔP_(CO2)/Ca-v_(O2)and the above indicators was explored.Results:Compared with before resuscitation,after fluid resuscitation,the heart rate(HR),mean arterial pressure(MAP),central venous pressure(CVP),cardiac index(CI),lactate,lactate clearance rate,and urine output of the two groups of patients were significantly improved(P<0.05);in terms of therapeutic effect,the 28-day mortality rate,6-hour fluid balance,and lactic acid clearance of theΔP_(CO2)/Ca-v_(O2)group were better than the Scv_(O2)group.The ROC characteristic curve showed that theΔP_(CO2)/Ca-v_(O2)value can effectively predict the prognosis of patients(AUC=0.907,sensitivity was 97%,specificity was 72.4%,and critical value was 1.84).ΔP_(CO2)/Ca-v_(O2)significantly correlated with Scv_(O2),lactic acid,and lactic acid clearance rate.Conclusion:TheΔP_(CO2)/Ca-v_(O2)value can be used to guide fluid resuscitation in early hypoperfusion in sepsis in plateau areas,improve patients’hemodynamics,reduce lactate indicators,and increase urine output.ΔP_(CO2)/Ca-v_(O2)level>1.84 can effectively improve patient prognosis.

有机物及钴含量对锌电解的影响

湿法炼锌过程出现烧板情况,分析原因主要是因有机物、钴含量异常引起。对铟萃余液中P_(2)0_(4)和煤油进行化验定量分析,在电解实验中找出萃取液中适合锌电解的P_(2)0_(4)和煤油最高允许值,采用活性碳吸附铟萃余液中的有机物P_(2)0_(4),并验证含钴量对析出锌质量的影响,通过试验等研究了锌电解系统中的有机物、钴含量和采取处理的措施,解决锌电解烧板问题,取得了较好的效果。