颗粒大小对颗粒材料力学行为影响初探

利用一种特殊颗粒材料-玻璃珠进行了一系列室内直剪试验,研究颗粒大小对颗粒材料力学行为的影响。试验一共考虑了3条近乎平行的级配曲线和4种颗粒摩擦情况：干燥状态、水浸润状态、水淹没状态和油浸润状态。试验结果表明,颗粒大小对颗粒材料的力学行为有显著影响,剪胀性随着粒径的增大而增强。为考虑颗粒大小对剪胀性的影响,提出了一种新的剪胀关系式。在该剪胀关系式中,剪胀系数为依赖于颗粒大小和颗粒摩擦等颗粒基本性质的变量。试验研究同时表明临界状态摩擦角随着颗粒大小的增加而增加。此外,从颗粒细观运动的角度提出了颗粒滑动的功能模型,推导出了功能方程,并以此揭示了颗粒大小对临界状态摩擦角影响的细观机制。     

青海省元石山铁镍矿床铁镍元素的赋存状态及变化规律

青海省元石山铁镍矿床产于超基性岩体中,其成矿元素赋存状态与典型的岩浆型矿床有很大差别。成矿元素N i不以独立矿物形式存在,而是呈氧化态被铁吸附成凝胶状态存在。本文主要对矿床成矿元素及伴生有益元素的赋存状态及变化规律进行归纳总结。     

广西弄拉峰丛山区土壤有机质与微量营养元素有效态

以广西弄拉峰丛山区为例探讨岩溶区偏碱性条件下土壤有机质与有效态养分含量之间的相关关系。结果表明土壤有机质可显著影响有效态养分含量。主要微量营养元素的有效态多大于其缺素临界值,但存在潜在缺素的可能性。有机质与有效态锌、铁和硼均存在三种函数类型的正显著水平相关关系,反映出土壤有机质与它们的关系密切且稳定。说明有机质含量的增加,有利于提高有效锌、铁和硼的含量。前两者以指数函数类型建立的回归方程最好,后者以幂函数类型建立的回归方程最好。有效态锰与有机质较符合幂函数方程,呈显著负相关。      

大厂锡矿的成矿流体

本文详细研究了矿带内流体包裹体特征,测定了不同类型包裹体在冷热状态下相的转变点温度,利用有关的NaCl-H_2O体系、CO_2-NaCl-H_2O体系相图获得了矿带内不同类型矿床成矿的温度、压力等物理、化学参数。通过包裹体成分和同位素研究,阐明了成矿流体的性质、来源及其演化特征,探讨了成矿流体的沸腾和不混溶作用以及它们对成矿所作的贡献。估测了矿化深度和盲矿体存在的可能性。     

长岛震群震源谱参数反演和震源参数特征

采用高频截止(High-Cut)震源模型,以均方根误差最小原则稳健地求解震源谱参数,并由此推算震源尺度和静态应力降。实际应用显示,该模型的理论谱对观测谱有很好的拟合,可明显改善拐角频率识别准确度。计算了长岛震群内71次M_L≥2.5地震事件的震源参数,结果表明：(1)拐角频率处于2～10 Hz范围,与震级大小存在一定的相关性,截止频率范围处于10～30 Hz之间,与地震大小的相关性不明显;(2)地震矩M₀分布在10¹²～10¹⁴ N·m,与震级M_L存在正相关关系：logM₀=0.977M_L+10.186;M_L与矩震级M_W之间的关系为：M_W=0.651M_L+0.766;(3)根据相对应力降时域演化发现,自2017年3月3日M_L4.5地震之后应力快速释放,应力降水平在均值附近波动,而且多数M_L≥3.5地震发生于...     

Long-term Stability and Oceanic Mean State Simulated by the Coupled Model FGOALS-s2

We describe the long-term stability and mean climatology of oceanic circulations simulated by version 2 of the Flexible Global Ocean-Atmosphere-Land System model(FGOALS-s2).Driven by pre-industrial forcing,the integration of FGOALS-s2 was found to have remained stable,with no obvious climate drift over 600 model years.The linear trends of sea SST and sea surface salinity(SSS) were 0.04°C(100yr)-1 and 0.01 psu(100yr)-1,respectively.The simulations of oceanic temperatures,wind-driven circulation and thermohaline circulation in FGOALS-s2 were found to be comparable with observations,and have been substantially improved over previous FGOALS-s versions(1.0 and 1.1).However,significant SST biases(exceeding 3°C) were found around strong western boundary currents,in the East China Sea,the Sea of Japan and the Barents Sea.Along the eastern coasts in the Pacific and Atlantic Ocean,a warm bias(>3°C) was mainly due to overestimation of net surface shortwave radiation and weak oceanic upwelling.The difference of SST biases in the North Atlantic and Pacific was partly due to the errors of meridional heat transport.For SSS,biases exceeding 1.5 psu were located in the Arctic Ocean and around the Gulf Stream.In the tropics,freshwater biases dominated and were mainly caused by the excess of precipitation.Regarding the vertical dimension,the maximal biases of temperature and salinity were located north of 65°N at depths of greater than 600 m,and their values exceeded 4°C and 2 psu,respectively.     

青藏高原及周边2001年以来三次特大地震引起的形变场分布特征

基于地壳黏弹模型在GPS观测资料和地震位错数据为约束条件下,应用有限元数值模拟方法对2001年昆仑山8.1级、2008年汶川8.0级和2015年尼泊尔8.1级特大地震引起的地壳形变分布特征进行了模拟计算,获得了地震位移场和形变场.这3次大地震分别发生在青藏高原的北部、东部边界和南部边界,尽管震级大小基本相当,但发震区域和发震断层性质都各不相同,其各自产生的地壳形变场分布特征存在明显的差异,主要表现为形变场区域大小、幅值大小等的差异,以及在不同地壳深度也存在明显的差异,这些差异主要取决于地震断层性质和地下介质结构的不同.通过模拟计算,可以进一步了解大地震产生的应力加卸载区分布特征,对预测未来地震发生区域范围提供重要参考依据.     

辽宁岫岩M_S5.9地震前应力积累的讨论

使用营口地震台记录的地震波形资料, 对1999年11月29日辽宁岫岩MS5.9地震前后进行剪切波分裂分析, 结果表明剪切波分裂参数在岫岩地震前后有明显的变化, 慢剪切波时间延迟在岫岩地震前约142天开始增加, 揭示了震前的应力积累过程. 应力积累的持续时间与震级的关系符合对数坐标下的直线拟合经验统计关系.     

由井水位资料反演大同-阳高6.1级地震前后应力场的动态演化过程

利用献[1]给出的用井水位资料反演含水层应力变化的方法和井水位动态观测资料，反演了大同－阳高地震前后大区域应力场的动态变化特征。结果表明：应力场的零值线穿过震中区，地震前，震中区周围应力场发生转向，由正应力区变为负应力区，同时正应力的量值逐渐增大。地震发生后应力场呈缓慢变化。     

The tropical intraseasonal oscillation in SAMIL coupled and uncoupled general circulation models

Simulations of tropical intraseasonal oscillation(TISO) in SAMIL,the Spectral Atmospheric Model from the Institute of Atmospheric Physics(IAP) State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics(LASG) coupled and uncoupled general circulation models were comprehensively evaluated in this study.Compared to the uncoupled model,the atmosphere-ocean coupled model improved the TISO simulation in the following aspects:(1) the spectral intensity for the 30-80-day peak eastward periods was more realistic;(2) the eastward propagation signals over western Pacific were stronger;and(3) the variance distribution and stronger signals of Kelvin waves and mixed Rossby gravity waves were more realistic.Better performance in the coupled run was assumed to be associated with a better mean state and a more realistic relationship between precipitation and SST.In both the coupled and uncoupled runs,the unrealistic simulation of the eastward propagation over the equatorial Indian Ocean might have been associated with the biases of the precipitation mean state over the Indian Ocean,and the unrealistic split of maximum TISO precipitation variance over the Pacific might have corresponded to the exaggeration of the double Intertropical Convergence Zone(ITCZ) structure in precipitation mean state.However,whether a better mean state leads to better TISO activity remains questionable.Notably,the northward propagation over the Indian Ocean during summer was not improved in the mean lead-lag correlation analysis,but case studies have shown some strong cases to yield remarkably realistic northward propagation in coupled runs.