水滑石类化合物的研究进展及其在PP中的应用进展

水滑石类化合物是一种重要的无机材料,因其特殊的晶体化学性质,有良好的热稳定性、阻燃性和离子交换性,广泛应用于化工、材料、环保和医药等领域。本文综述了水滑石类化合物的结构、性质、制备方法及其优缺点,水滑石在PP中的应用进展,以及水滑石作为PP阻燃剂的优异性能,并指出了今后的发展方向。     

半参数模型在平面坐标转换中的应用

坐标转换在测绘领域一直起着至关重要的作用,而模型的选取又直接制约着转换的精度,通常在坐标转换中采用相似变换（Hermert）的方法,在平面坐标转换过程中一般采用4参数模型。然而当系统误差不可忽略时,该模型处理得到的结果并不理想。本文将半参数模型应用到平面坐标转换中,分别采用4参数模型和半参数模型两种方法对实验数据进行了处理,并进行了对比与分析。实验结果表明：在处理带有系统误差的平面坐标数据时,半参数模型比传统的参数模型更加精确。     

云南程海浮游植物初级生产力的时空变化及其影响因子

2016年4月-2017年2月,采用黑白瓶法研究了云南程海单点（码头点位）浮游植物初级生产力的垂直分布及其季节变化,同时基于全湖9个点位的现场调查和生产力垂向归纳模型（VGPM）估算并探讨了程海浮游植物初级生产力的时空变化及其主要影响因子.结果显示,码头点位的年均（均值±标准误）水柱（0~3 m）总初级生产力（GPP_C）、净初级生产力（NPP_C）和呼吸消耗量（R_C）分别为5.40×10³±0.64×10³、2.36×10³±0.63×10³和3.06×10³±0.82×10³ mg O₂/（m²·d）;不论春夏季（4-8月）、秋冬季（9月-次年2月）还是全年,码头点位的单位生物量GPP（GPP/Chl.a）和单位生物量NPP（NPP/Chl.a）的最大值和最小值均分别出现在水下0.5 m和3.0 m处.经VPGM估算,程海全湖的初级生产力（PP_eu）年均值为6.54×10³±0.30×10³ mg C/（m²·d）（2.74×10³~18.62×10³ mg C/（m²·d））.PP_eu的时空变化方面,春夏季是PP_eu快速上升的时节,秋冬季PP_eu的月变化则呈波动状态,春夏季与秋冬季PP_eu无显著性差异;PP_eu整体空间异质性较弱,仅在降水最为充沛的7、8月表现出南北向的异质性,这与降水条件和流域营养盐输入的空间异质性有关.回归分析发现,虽然程海PP_eu的主要影响因子具有季节异质性,但不论春夏季、秋冬季还是全年,浮游植物生物量均是重要的影响因子,水温亦是春夏季的重要影响因子.     

利用唐山地震台资料研究唐山断裂活动特征

本文研究了唐山地震台内的唐山断裂形变、断层活动协调比、断层土壤气CO₂的变化特征。结果显示,唐山地震台内的唐山断裂近35年来整体上在水平方向呈微弱的右旋张性活动,垂直方向呈正断活动,但不同时段的运动状态有所不同;综合分析认为,唐山地震台形变和流体前兆观测对附近及华北因区域地壳应力场调整引起的中小地震有一定的显示,说明该台具有一定的前兆异常显示能力;随着观测资料和经验的持续积累,在该区域发生更大地震前,有望捕捉到更显著的前兆异常。     

赤道两层海洋模式中基本流的切变不稳定性

设计了一个热带赤道β-平面的两层海洋模式,在准长波近似下,应用最大截断模分析赤道波的基本形态,指出无论是正压模或斜压模Kelvin波、Rossby波及基本流所对应的\     

压缩恢复法在井间层析成像中的应用

本文将“压缩恢复法”应用到钻孔电磁波勘探中,并通过建立两个数字化图像模型予以计算机实现。与非压缩法比较,可以看出“压缩恢复法”有一定效果。     

重庆秀山寒武系锶同位素演化曲线及全球对比

本文评述了国际上已有的寒武纪海相碳酸盐的锶同位素演化曲线，公布了重庆秀山寒武系海相碳酸盐的锶同位素分析结果，尽管对样品进行了成岩蚀变检测和必要的筛选，但样品仍可能不同程度地经历了成岩蚀变，锶同位素组成与地层厚度投点图显得较为离散，笔者主要利用87Sr/86Sr比值较低的样品建立的寒武纪海水的锶同位素演化曲线在长期旋回上与国际上已公布的同时代锶同位素演化曲线仍具有较好相似性和可比性，说明全球事件是海水锶同位素组成的主要控制因素，海水的87Sr/86Sr比值在盆内对比，盆间对比，以及全球对比中都具有潜在价值。根据锶同位素地层学的基本原理，笔者尝试确定了重庆秀山寒武纪剖面一些关键点的年龄，累积厚度1340m处的年龄为503－509Ma，累积厚度1950m处的年龄为496－498Ma，这对秀山寒武纪剖面下，中寒武统和中、上寒武统界线的确定具有参考价值。     

Why do 2-day waves propagate westward?

In observations, the 2-day waves, identified as the convectively coupled equatorial inertio-gravity (IG) waves, only propagate westward. To understand this feature, a simple theoretical model is presented for the convectively coupled equatorial waves (CCEWs). Under the assumption that the convective heating is proportional to the vertical velocity on the first baroclinic mode, the nonlinear governing equation for the meridional velocity of the CCEWs can be derived. The optimal method is used to obtain the dispersion relation from this nonlinear equation, and the results show that the deep convection can slow down the IG waves by decreasing the mean state static stability, but the key leading to the westward propagation of the IG waves is the full meridional variation of the sea surface temperature (SST). The warm SST trapped near the equator excites long westward propagating IG waves, whereas the warm SST trapped near the ITCZ centered at 10° N excites short westward propagating IG waves. This theoretical model provides a simple tool to study the CCEWs in understanding the tropical circulation.     

Multilevel Optimal Design of Prestressed Lightweight Concrete-Steel Platform Structures

The concrete-steel platform structure is rather complicated because it involves such materials as concrete, reinforcing bars, steel, and so on. K the traditional dimension optimization method is employed, the optimal design of the platform will meet many handicaps, even it cannot be implemented at all. The multilevel optimal design approach is an efficient tool for the solution of large-scale engineering structures. In this paper, this approach is applied to the optimal design of a concrete-steel platform, which is formulated as a system level optimal design problem and a set of uncoupled substructure level optimal design problems. The process of optimization is a process of iteration between system level and substructure level until the objective function converges. An illustrative example indicates that this method is effective in the optimal design of concrete-steel platforms.     

The influence of ENSO on sea surface temperature variations in the China seas

Positive SST anomalies usually appear in remote ocean such as the China seas during an ENSO event.By analyzing the monthly data of HadISST from 1950 to 2007,it shows that the interannual component of SST anomalies peak approximately 10 months after SST anomalies peak in the eastern equatorial Pacific.As the ENSO event progresses,the positive SST anomalies spread throughout the China seas and eastward along the Kuroshio extension.Atmospheric reanalysis data demonstrate that changes in the net surface heat flux entering into the China seas are responsible for the SST variability.During El Ni o,the western north Pacific anticyclone is generated,with anomalous southwester lies prevailing along the East Asian coast.This anticyclone reduces the mean surface wind speed which decreases the surface heat flux and then increases the SST.The delays between the developing of this anticyclone and the south Indian Ocean anticyclone with approximately 3–6 months cause the 2–3 months lag of the surface heat flux between the China seas and the Indian Ocean.The northwestern Pacific anticyclone is the key process bridging the warming in the eastern equatorial Pacific and that in the China seas.