行星际激波的传播及其相应的地磁效应

基于 2.5 维理想磁流体力学（Magnetohydrodynamic,MHD）方程组分析了行星际激波在日球层子午面内的传播过程及其相应的地磁效应.日球层电流片（Heliospheric Current Sheet,HCS）-日球层等离子体片（Heliospheric Plasma Sheet,HPS）对于行星际激波的传播具有一定的阻碍作用.当行星际激波相对于HCS 倾斜传播时,相对于扰动源位于HCS 异侧的激波强度较同侧的明显减弱.局地激波面的法线（或形状）对通过激波阵面的磁力线发生偏转的程度和方向起决定性作用.沿激波传播方向其为准平行激波,磁场偏转程度较小,而其两侧部分则为斜激波,磁场偏转程度较大.位于HCS-HPS 位置处的波前形成凹槽,磁力线偏转程度明显加强.行星际激波对磁场的偏转效应是其驱动地磁暴的重要机制,而且地磁效应的强度与地球相对于HCS 的角距离Δθ_p有明显关系.数值模拟结果表明：任何行星际激波,Δθ_p=0°处均无法形成较大强度的地磁效应;沿HCS 传播的行星际激波,地磁效应最强的区域位于HCS 两侧;相对于HCS 倾斜传播的行星际激波,地磁效应最强的区域位于HCS 异侧.     

应用TM影像进行大比例尺土地利用类型划分探讨——以花江喀斯特峡谷区示范区为例

通过花江示范区土地利用类型的划分,说明利用TM遥感数据进行喀斯特峡谷区1∶ 10000大比例尺土地利用类型划分中存在的问题,包括混合像元、阴影、同物异谱、同谱异物,以及独特的石旮旯土。根据国家环保局2000年分类标准,结合花江喀斯特峡谷的实际情况,本文采用了RS、GI S和传统勾绘技术相结合的方法进行土地利用类型划分,分类结果表明此方法是可行的,其精度可达89. 65% 。      

江西省地震工程地质现状与防灾展望——兼谈汶川地震对江西的启示

(1 概况.江西省位于欧亚板块东南部,跨扬子准地台和华南褶皱系两个地块(24°29′～30°04′N,113°34′～118°29′E).其南部地处华南沿海地震带,主要受河源一邵武断裂带与南岭纬向构造带控制;北部地处长江中游地震带,主要受郯城一庐江断裂带和扬州一铜陵断裂带控制,地质构造复杂,新构造及现代构造运动活跃,历史上曾多次发生破坏性地震.     

Stretching characteristics and its dynamic significance of the northern continental margin of South China Sea

To investigate the thinning of the whole crust, and the contribution of the upper versus lower crust to the stretching since Cenozoic, we calculated the stretching factor of the northern margin of South China Sea with data such as whole crustal thickness, depth of Cenozoic sedimentary basement and the horizontal displacement of faults. An isometric line drawing on whole crustal stretching factor is then obtained. Along the seismic Line 1530 in Baiyun sag, we also calculated the stretching factors of the upper and lower crust. The results suggest that the whole crustal thickness decreases seaward while the whole crustal stretching factor increases from shelf to slope. The Moho upwells highest beneath where the crust is thinned most. The value of the whole crustal stretching factor ranges from 1.5 to 6. Two areas were thinned intensely: the center of Yinggehai Basin, and the Baiyun sag in the Pearl River Mouth Basin. The calculation of the upper and lower crustal stretching factors from DSP1530 in Baiyun sag shows that the original crust of Baiyun sag should be thinned before deformation. Its pre-Cenozoic evolution as well as tectonic position during Cenozoic might be responsible for that.     

Mesozoic paleogeography and tectonic evolution of South China Sea and adjacent areas in the context of Tethyan and Paleo-Pacific interconnections

Abstract   During the Mesozoic era, the South China Sea and its environs were located at the south-eastern margin of the Eurasian continent. There has been hot debate on the influences of Tethyan and Paleo-Pacific tectonics to the Mesozoic evolution of the area. This paper compiles lithofacies maps of six time slices and discusses the paleogeographic and tectonic evolution of the area based on this compilation and other data on structural deformation and magmatism. In the Early Triassic, the Paleotethys Ocean extended eastward to the study area through the Song Da passage. Then a significant east–west differential evolution began. In the Late Triassic, the western area uplifted as a result of the collision between the Indosinian and South China blocks during the Indosinian orogeny, and the Song Da passage has closed since then. Meanwhile, a transgression of Paleo-Pacific waters occurred in the eastern and south-eastern portions of the area, forming the 'East Guangdong–North-west Borneo Sea'. In the Early Jurassic, seawater transgression was even more pronounced, resulting into the connection of this sea with the Mesotethys Ocean to the west. Large quantities of Tethyan water carrying Tethyan organisms entered the area. In the Middle Jurassic, a short-lived transgression occurred in the eastern Mesotethys and resulted in the formation of the 'Yunnan–Burma Sea'. The Late Jurassic to Early Cretaceous was the climax of the subduction of both the Mesotethys and Paleo-Pacific towards the Eurasian continent. This led to the formation of the great 'Circum South-east Asia Subduction–Accretion Zone' in the Middle or Late Cretaceous. This paper also presents various lines of evidence for a newly recognized segment of this Mesozoic subduction–accretion zone buried under Cenozoic sediments in the north-eastern South China Sea.     

隔震桥梁子结构拟动力实验中加载速率的影响因素研究

本研究运用DSP高速数字信号处理器的实时信号处理与控制技术,研究了基于速度控制法、OS数值积分法和相应的实验误差控制法的子结构拟动力实验系统。该试验系统对动力加载装置采用速度控制,在加载过程中考虑了加载速率对实验结果的影响,使隔震橡胶支座的速度相关性能在试验中得到充分体现,同时采用OS数值积分法,充分地减少了试验的时滞误差,提高了试验精度。并通过不同加载速率的子结构拟动力实验研究了天然橡胶支座、高阻尼橡胶隔震支座和超高阻尼橡胶隔震支座对桥梁的隔震效果,在对实验结果进行分析对比后,定量地研究了不同的加载速率对隔震桥梁子结构拟动力实验结果的影响。     

ADINA有限元软件中材料本构的二次开发

美国ADINA R&D公司开发的软件产品ADINA经过20多年的商业开发,目前已成为全球最重要的非线性求解软件,尤其对结构非线性、流-固耦合等复杂问题的求解具有强大优势,被认为是非线性有限元发展方向的先导。然而,任何商业化的有限元软件都不可能满足客户的所有要求,例如,ADINA软件中没有岩土工程领域常用的Duncan-Chang模型。以土工数值分析中广泛应用的Duncan-Chang E-B模型为例,介绍在ADINA软件中进行材料本构二次开发的方法,给出了开发过程,通过对3个常规三轴压缩模型的数值模拟验证程序的可靠性。结果表明,基于ADINA开发的材料本构模型具有计算速度快、精度高和前后处理快捷方便的优点。另外,验证结果也表明该软件具有超强的非线性求解能力和可靠的求解结果。     

改进的等参逆变换算法在耦合场分析中的应用

实际工程有限元计算中涉及多个物理场的相关分析或耦合分析时场变量之间的数据传递问题非常重要,往往会遇到等参逆变换的需求。分析并指出现有等参逆变换所存在问题,给出了新的改进算法,即在网格内采用新方法进行等参逆变换,在网格外采用距离加权法进行插值传递,并详细说明本算法实施关键。对一大型拱坝施工过程中的温度场和应力应变场耦合分析问题进行研究,结果表明所提出方法具有简便实用、高效和满足工程精度等特点,可应用于实际工程。     

喀斯特文化旅游资源与开发研究——以贵州为例

喀斯特环境孕育了独特的喀斯特文化,喀斯特地区有着丰富而独特的文化旅游资源,耕作、聚落、建筑、洞葬、民俗甚至家用器皿都打上了“喀斯特”的烙印。本文提出了喀斯特文化旅游资源具有“因地制宜”利用的科学价值、丰富的历史文化信息、“和而不同”的文化价值及人地和谐的美学价值,并以贵州为例,探讨喀斯特文化旅游资源的构成及其景观特征,认为喀斯特地区的旅游开发应以“喀斯特文化”为总的文化导向,结合文化赋存的时间和空间,综合发掘“喀斯特文化”的内涵,进行旅游产品的设计。      

湖北清江和尚洞洞穴温度对气候变化的响应

对湖北清江流域和尚洞内、洞外气温进行同步高频监测,发现洞穴温度响应洞外气温的变化,但由于受到洞穴的“缓冲作用” ,由外及里的温度变化幅度变小,时间滞后,且响应的快慢具有明显的季节性。2003- 2008年度监测的数据统计表明,在150m 洞深处,洞内日温度的变化幅度仅0. 2℃ ,明显低于洞外气温变化幅度( 6. 9℃ ) ;同样,洞内夏、冬季节温差变化( 6. 9℃ )也小于洞外( 31. 8℃ )。比较洞内外温度的时间序列,发现日尺度上,洞内气温滞后洞外0～ 2小时,而在季节尺度上则滞后10～ 40天,其中降温阶段滞后小,升温阶段滞后大。此外,一年四季中,洞内温度对外界气温变化的响应呈现慢( 2- 4月)→快( 5- 7月)→较快( 8- 10月)→较慢( 11- 1月)的特点,可能与不同季节下洞穴“缓冲作用”的强弱变化有关。