液化判别临界曲线的变化模式与一般规律

液化临界值与砂层深度的关系是液化判别方法的基本表征,但对比分析表明,现有液化判别方法的临界曲线有不同的表现模式,甚至定性相反。以Seed-Idriss模型为基础,推导出了砂层埋深对液化势影响的理论解答,提出了砂层埋深与液化临界值的普遍关系,得到了液化判别临界曲线的变化模式和一般规律。结果表明:一般而言,随砂层深度增加,水平地震剪应力和土体抗液化强度同时增大,但前者增大速率大于后者,液化势及液化临界值与砂层深度呈正相关关系;液化临界值与砂层深度呈非线性递增关系,浅埋处饱和砂层液化势递增较为剧烈,深埋处趋于平缓;我国规范CPT液化判别公式的液化临界值与砂层深度呈递减关系,存在定性错误,需要纠正;现有一些液化判别公式中,液化临界值与砂层深度呈线性递增关系,定性正确但模型需要改进。所得结果可为液化判别方法正确发展提供理论基础和借鉴。

根据细粒含量和标贯击数确定砂土液化强度曲线的方法

液化强度曲线是确定和验证本构模型材料参数的重要依据,也是决定有效应力动态有限元分析的可靠性的关键。但确定砂土的液化强度曲线需进行动三轴试验,耗费较大。因此利用一些常规数据来推算出液化强度曲线就很有必要了。已有方法通过整理地层信息数据库中的192个动三轴数据得到了细粒含量和液化强度的分布关系,但其分布范围太广。针对这一不足,文中提出了结合标贯击数N值进一步明确液化强度曲线的位置。经工程应用说明新方法可较好地确定液化强度曲线的位置;同时通过比较动态有限元计算结果和常规液化判定结果,说明基于该方法得到的材料参数是比较可靠的。

基于剪切波速的砂土液化临界公式

利用Kayen等收集的地震现场液化资料,以双曲线和幂函数为基础,提出了基于剪切波速的砂土液化临界公式。将临界公式和国内3种代表性判别方法对比分析,检验其液化判别效果。通过振动三轴液化试验,验证了液化临界公式下延至深层的适用性。结果表明:临界公式优化了判别成功率,其液化判别成功率达95%以上,非液化判别成功率可接受,同时避免在低烈度不安全而高烈度过于保守等现象。试验验证了本文临界曲线判别深度可下延至20 m以深。临界公式可作为现行规范的一种补充性和替代性的液化判别方法。

以标贯试验为依据的砂土液化确定性及概率判别法

核电厂址非基岩场地的地基液化问题是核电厂选址的关键问题,亟需建立核电厂址地基液化判别方法。回顾了以标贯试验和地表峰值加速度为依据的砂土液化判别方法的演化历史,依据Idriss-Boulanger确定液化临界曲线的基本方法,提出了确定液化临界曲线的基本原则,分别依据美国液化数据库、中国抗震规范液化判别式所用的液化数据及综合两者的液化数据资料,给出了相应的液化临界曲线,验证了液化临界曲线的位置对不同的细粒含量、有效上覆压力、现场试验方法的液化数据的合理性,分析了测量或估计土层循环应力比和修正标贯击数各种因素的不确定性对液化临界曲线的敏感性,结果表明:所提的液化临界曲线不易受各种因素的影响。利用Monte Carlo模拟、加权最大似然法和加权经验概率法,给出了液化临界曲线的名义抗液化安全系数与液化概率的经验关系式及概率等值线,并对核电厂Ⅰ类、Ⅱ类和Ⅲ类抗震物项地基,给出了相应的液化临界曲线。

基于径向基函数神经网络模型的砂土液化概率判别方法

以国内外25次大地震中的344组场地液化实测资料为基础,通过径向基函数神经网络模型的训练和检验,分析了修正标准贯入击数N1与饱和砂土抗液化强度之间的非线性关系,建立了饱和砂土液化极限状态曲线或抗液化强度临界曲线经验公式。经统计分析,给出了液化和非液化的概率密度函数以及抗液化安全系数与液化概率之间的经验公式,最后导出了具有概率意义的饱和砂土抗液化强度经验公式。当液化概率水平为50%时,即等价于传统的确定性砂土液化判别,该方法预测液化和非液化的可靠性分别为90.4%和81.2%,具有较高的可靠性。本文提出的砂土液化概率判别方法,使工程场地的砂土液化概率判别如同确定性砂土液化判别一样简单、方便,从而使砂土液化概率判别方法用于工程实践和纳入有关规范成为可能。

砂土液化判别的液化系数法

在标准贯入试验法判别砂土液化的基础上,提出了砂土液化判别的液化系数法,即应用各贯入试验点标准贯入锤击数的临界值与实测值之比,并结合液化系数曲线,对砂土液化程度进行判别.以南水北调中线工程滹沱河段引水干渠地基砂土液化的评价为例,应用液化系数法对地基各土层的液化系数进行对比分析,探明液化程度较严重土层的存在位置,从而为地基处理的设计和施工提供更明确的依据.实际应用表明,该方法简便明了,具有较高的实用性.

以剪切波速与地表峰值加速度为依据的地震液化确定性及概率判别法

剪切波速作为土性的基本参数,为评价土体抵抗地震液化的能力提供了一种方法。回顾了以剪切波速和地表峰值加速度为依据的场地地震液化判别方法的演化历史,依据他人收集的现场液化资料,合计49次地震、618例液化/不液化场地数据,提出了确定液化临界曲线的基本原则,给出了基于修正剪切波速与地表峰值加速度的液化临界曲线,验证了液化临界曲线的位置对细粒含量、有效上覆压力、震级等因素取值变化的合理性,分析了估计土层循环应力比CSR的剪应力折减系数、震级标定系数、有效上覆压力修正系数等因素的不确定性对液化临界曲线的敏感性。结果表明:液化临界曲线对各种影响因素具有很好的适用性。利用Monte Carlo模拟、加权最大似然法和加权经验概率法,给出了建议的液化临界曲线的名义抗液化安全系数与液化概率的经验关系式及概率等值线,并对核电厂Ⅰ类、Ⅱ类和Ⅲ类抗震物项地基,分别建议了相应的液化临界曲线。该方法以丰富的现场液化数据为依据,具有广泛的应用前景。

厦门砂土的动力特性研究

为了探讨厦门砂土的动力特性,对厦门金秋豪园场地的中粗砂和细粉砂做了一系列振动三轴试验,并对同一场地的含泥中砂做了4个共振柱试验。根据试验结果,确定了中粗砂与细粉砂的液化曲线和动本构关系,提出了相应的动孔压模型,得到了含泥中砂在小应变条件下动剪切模量和阻尼比的变化规律。

In situ investigation of atmospheric corrosion behavior of PCB-ENIG under adsorbed thin electrolyte layer

The effects of relative humidity (RH) on a printed circuit board finished with electroless nickel immersion gold (PCB-ENIG) under an adsorbed thin electrolyte layer (ATEL) were investigated in situ via the measurement of cathodic polarization curves, electrochemical impedance spectroscopy, scanning electron microscopy, energy-dispersive X-ray spectroscopy, and X-ray photoelectron spectroscopy to clearly elaborate the corrosion behavior of PCB-ENIG in the atmospheric environment. Results indicated that the cathodic process of PCB-ENIG under ATEL was dominated by the reduction of dissolved oxygen, corrosion products, and H2O. The cathodic current density of PCB-ENIG increased progressively with increasing RH. Moreover, its cathodic current density in the solution was greater than that under ATEL. This result demonstrated that the diffusion process was not the controlling step during the limiting reduction of cathodic oxygen. When the polarization potentials were located in a more negative region, the cathodic polarization current density gradually decreased under 75% and 85% RH. Notably, the anodic process became the controlling step in the extremely thin liquid film during the remainder of the experiment.

The Most Probable Mechanism Function and Kinetic Parameters of Gibbsite Dissolution in NaOH

Determination of probable mechanism function and kinetic parameters is important to hydrometallurgical kinetics.In this work,the most probable mechanism function and kinetic parameters of gibbsite dissolution in NaOH solution are studied.The sample,the mixture of synthetic gibbsite and sodium hydroxide solution,was scanned in high-pressure differential scanning calorimetry(DSC) equipment with the heating rate of 10 K·min-1. Integral equation and differential equation of non-isothermal kinetics were solved to fit the data related to DSC curve.According to the calculation results,the most probable mechanism function for pure synthetic gibbsite dissolution in sodium hydroxide solution is presented based on the optimum procedure in the database of the mechanism function.The apparent activation energy obtained is(75±1) kJ·mol-1,the frequency factor is 10 8±1mol·s-1,and the reaction is a second order reaction.

The Electrodeposition of Rhenium in Alkaline and Acidic Elektrolytes

The investigation of electrodeposition of rhenium in alkaline and acidic electrolytes was carried out, polarization curves were obtained by electrochemically and cyclically potentiodynamic methods. By the investigation of rhenium concentration, sulphuric acid, alkali, ammonium sulphate, temperature and acidity of solution, it was found that reaming velocity was an optimal regime and electrolyte composition for an obtaining of high quality rhenium deposits from an alkaline electrolyte and acidic electrolyte. It was defined that the process of electrodeposition of rhenium in alkaline electrolyte is accompanied by chemical polarization and the electrodeposition of rhenium in acidic electrolyte goes gradually with the formation of intermediate films of sediments,