论国家对人力资源生产和再生产的宏观调控

国家宏观调控的实质是从社会经济运行和发展的全局出发，按照预定的目标，对社会经济的决量和总体结构进行调节和管理。在社会主义市场经济条件下，人力资源的生产和再生产各个环节的经济关系错综复杂经济，人力资源生产和再生产与物质资料的生产和再生产之间也涉及方方面面的经济利益关系。市场在调节经济关系中发挥着基础性作用，但由于市场机制的运行本质上在于利益驱动，这必然造成市场失灵和市场激励机制作用的局限性，从而要求国家加强对人力资源生产和再生产中的经济关系的宏观调控。     

中国上市公司的时空变化及机制研究

针对在中国地区发展不均衡的态势下,上市公司分布格局时空演变问题,该文对2009-2017年中国大陆各省上市公司的数量和总资产采用Local Moran’s I指数与Getis-Ord Gi*统计量进行研究,分析了中国大陆上市公司的空间分布格局和时间演变趋势,总结出中国上市公司相关指标的高值聚集和高低聚集分布格局、热点区域及其经济辐射能力。并且以北京、上海和广东为热点区域典型代表,从上市公司产业结构和区域经济发展两方面对时空变化机制的成因进行深入探讨。     

桂海碑林摩崖石刻水害成因分析及防治对策

桂海碑林摩崖石刻景区为国家第五批公布的全国重点文物保护单位,其现存的石刻具有极高的史料价值和书法艺术欣赏价值。由于长期受到地质营力的作用,石刻出现了不同程度的水患病害,严重威胁着文物的长期保存。本文通过现场调查将桂海碑林灰岩质摩崖石刻的水患病害归纳为渗（滴）水病害、坡面雨水冲刷病害和凝结水病害三种类型,并分析了裂隙水、雨水和凝结水诱发石刻损坏的成因机制。为查明裂隙水的运移特征,采用瑞雷波探测技术识别了石刻岩体内部潜在的渗流通道,并基于瑞雷波相速度VR分级对其进行了渗透性分级。基于探测结果结合石刻区的地貌特征,提出了在崖顶区采用土工合成材料黏土衬垫（GCL）防渗铺盖和坡顶截水,在石刻区采用裂隙注浆和表面防水封护的综合治理对策。     

多高层钢结构耐火性能的子结构分析模型与分析方法

基于整体钢结构在局部火灾下的反应规律,将高层钢结构的初始倒塌破坏类型进行了分类(中间柱初始倒塌、边柱初始倒塌以及梁柱同时倒塌),根据整体结构约束影响和荷载影响,提出局部火灾下多高层钢结构耐火性能分析的相应子结构分析模型及其分析方法。子结构模型的边界充分考虑周围约束的影响,尤其是周围梁和上层柱构件以及层数的影响。针对不同类型的子结构模型,通过建立相应的具体子结构有限元模型,合理考虑边界条件的影响。最后基于建立的数值模型,研究了子结构的火灾反应规律与破坏机理,并与整体结构的分析结果进行了比较,结果表明:子结构分析模型与分析方法可以合理准确地分析整体结构的耐火性能。     

北大西洋-东亚和北亚型遥相关的机制及其对新疆夏季旱涝的影响

北大西洋-东亚和北亚（简称NAENA）型遥相关是夏季欧亚大陆对流层上层经向风异常的第二主导模态,对欧亚大陆多尺度气候变率有显著影响。本文在分析NAENA型维持的动力学机制的基础上,研究了该遥相关型对新疆夏季旱涝异常的影响及其可能机制。大气波列的涡度收支分析表明,气候态的旋转纬向风引起的扰动涡度平流可以被扰动旋转经向风引起的平均涡度平流所补偿。能量转换过程分析表明,该大气波列有效地从平均流中提取有效位能,通过斜压能量转换过程得以维持。大西洋海温异常三极子模态则是NAENA型维持的重要外强迫因子。回归分析表明NAENA型遥相关能通过促进南疆夏季降水,显著影响新疆的旱涝异常。NAENA型位于中亚的气旋性低压一方面增强了南疆地区的垂直上升运动,同时气旋性环流将更多的水汽输送到该地区,有利于水汽在对流层中低层的异常辐合,进而对南疆的降水有促进作用。     

Seismic fracture evaluation of diaphragm joints in welded beam-to-box column moment connections

Steel box columns are widely used in steel building structures in Taiwan due to their dual strong axes. To transfer the beam-end moment to the column, diaphragm plates of the same thickness and elevations as the beam flanges are usually welded inside the box column. The electro-slag welding (ESW) process is widely used to connect the diaphragms to the column flanges in Taiwan because of its convenience and efficiency. However, ESW may increase the hardness of the welds and heat-affected zones (HAZs), while reducing the Charpy-V notch strength in the HAZ. This situation can cause premature fracture of the diaphragm-to-column flange welds before a large plastic rotation is developed in the beam-to-box column joints. To quantify the critical eccentricity and the effectiveness of fracture prediction, this study uses fracture prediction models and finite element model (FEM) analysis to correlate the test results. In this study, two beam-to-box column connection subassembly tests are conducted with different loading protocols and ESW chamber shapes. To implement a fracture prediction model, the material parameters are established from circumferential notched tensile tests and FEM analysis. Test results indicate that the fracture instances can be predicted on the basis of the cumulative plastic deformation in the HAZs. Analytical results indicate that fracture instances and locations are sensitive to the relative locations of the ESW joints and beam flange. Tests also confirm that the possible fracture of the diaphragm-to-column flange joints can be mitigated by enlarging the chamber of the ESW joint.     

Reservoir Characteristics and Genetic Mechanisms of the Mesozoic Granite Buried Hills in the Deep‐water of the Qiongdongnan Basin,Northern South China Sea

Due to its structure,rock and mineral composition,fluid and other factors,the granite Buried Hill Reservoir is highly heterogeneous with a complex longitudinal structure and a reservoir space made up of a combination of dissolution pores and fractures.This paper is based on current understanding of tectonic evolution in the northern part of the South China Sea,in conjunction with the seismic phase characteristics.It is determined that the meshed fault system was formed by three stages of movement-tectonic compression orogeny during the Indochinese epoch,strike-slip compression-tension during the Yanshanian Period,early fracture extension activation during the Himalayan-which controlled the distribution of the Buried Hill Reservoir.Drilling revealed two types of buried hills,faulted anticline and fault horst,their longitudinal structure and the reservoir space type being significantly different.The mineral composition,reservoir space and diagenetic characteristics of the reservoir rocks and minerals were analyzed by lithogeochemistry,micro section and logging etc.,it thus being determined that the Mesozoic rocks of the Songnan Low Uplift in the Qiongdongnan Basin are mainly composed of syenogranite,granodiorite,monzogranite,which is the material basis for the development of the Buried Hill Reservoir.The content of felsic and other brittle minerals is more than 70%,making it easy for it to be transformed into fractures.At the same time,the weathering resistance of granodiorite and monzogranite is weaker than that of syenogranite,which is easily weathered and destroyed,forming a thick sand gravel weathering zone.With increasing depth of burial,weathering and dissolution gradually weaken,the deep acidic fluid improving the reservoir property of internal fractures and expanding the vertical distribution range of the reservoirs.The research results lay a foundation for the exploration of Buried Hill in the deep-water area of the Qiongdongnan Basin.