XDL-1800型全液压岩心钻机的研发

为满足深孔绳索取心钻探需求,研究开发了XDL-1800型全液压岩心钻机。阐明了钻机的研制背景,介绍了钻机的特点、性能参数及结构和功能。     

LXZJ4000型履带式坑道钻机的研制

介绍了LXZJ4000型履带式坑道钻机的研制背景和总体结构布局设计,并分别叙述了钻机主要组成部分的功能、结构特点、工作原理及该钻机的试验和应用情况。     

圆形巷道围岩层裂或板裂化的等效连续介质模型及侧压系数的影响

为了避免均质和非均质模型不能较好地模拟围岩的层裂或板裂化现象,将岩石视为等效连续介质,即颗粒体材料。颗粒被视为弹性材料,而颗粒之间的界面破坏后被视为摩尔-库仑材料。颗粒和界面均被离散为正方形单元。采用FLAC研究了不同侧压系数时圆形巷道围岩中的剪切应变增量、最小、最大主应力等的分布规律。研究发现,颗粒体材料模型在压应力作用下诱发出的拉应力值接近于在模型边界上所施加的最大压应力,而最大压应力是所施加的最大压应力的数倍。这些结果意味着均质和非均质模型的计算结果是偏于不安全的。另外,最小主应力和剪切应变增量的等值线图均显示,这些量的高值区的距离大致相等,这与V形岩爆坑内的板裂化现象类似。围岩层裂现象的原因是环向的高压应力和径向的高拉应力的共同作用的结果。     

地震荷载作用下土钉支护边坡稳定性拟静力分析

在极限平衡分析框架内,使用滑动面搜索新方法和圆弧滑动面方法对地震作用下的土钉支护边坡进行稳定性分析。考虑地震作用时,采用拟静力分析方法,并根据不同的条分模式,推导出水平地震动态分布系数的计算公式。针对地震效应下圆弧滑动面竖直条分法的不足,采用水平和竖直条分法相结合的改进方式。通过算例对比分析,并研究土钉支护间距与不同地震烈度条件下土钉长度的变化对边坡静力和动力稳定性的影响,结果表明,滑动面搜索新方法计算得的最小安全系数与圆弧滑动面方法的计算结果颇为接近,且比以往研究成果要小,可说明滑动面搜索新方法的可行性;在土钉支护边坡的静力和动力稳定性分析中,滑动面搜索新方法计算得的临界滑动面与临界圆弧滑动面接近,但表现出非圆弧特性;在一定程度上可减小土钉支护间距和增大土钉长度,可有效地改善土钉支护边坡在地震作用下的稳定性。     

热-水-力共同作用下圆形洞室弹塑性解析解

基于已有的工作和Mohr-Coulomb屈服准则,建立了热-水-力三场共同作用下的圆形洞室弹塑性解析解,并分别在单力场、热-力场、水-力场、热-水-力场以及改变介质强度参数的条件下计算和比较了围岩中的应力分布、变化及塑性区范围。结果显示,温度场使得塑性区半径有所减小,但总的来看温度作用不明显;与仅有力作用时相比,孔隙水压力使得塑性区半径、径向应力和切向应力有较大幅度增长。     

波浪作用下曲面防波堤水力特性及波能损耗研究

执行了一系列规则波与曲面防波堤相互作用实验。采用π定理确定了两种曲面防波堤(半圆堤和圆弧堤)反射透射水力特性的三个主要影响因素,包括入射波陡、相对水深和堤顶相对超高。基于实验数据对比分析了两种曲面防波堤的反射和透射特性,从能量守恒角度计算了波浪与曲面防波堤相互作用过程中的能量损耗率,并利用数值模拟探讨了波浪越堤过程中两种曲面防波堤波能损耗差异的机理,表明圆弧堤背浪面更强的尾涡区使得其局部能耗总体上高于半圆堤。     

历代安徽名人的地理分布及其成因初探

从人才数量、类型和籍贯3个方面对安徽历代名人的资料进行统计与分析,在此基础上,探讨了历代安徽名人地理分布的重心与区域分异的原因。研究发现：由于时代背景、地理环境、政治、经济、文化等方面的差异,安徽名人时空分异特点显著。时间上,不同时期的名人数量差别较大,名人的影响领域随时间推移呈扩大之势;空间上,军政名人多出自皖北和皖中,而科学、文化教育和经济方面的名人以皖南居多,呈现出明显的“南文北武”分布格局。此外,安徽名人地理分布还呈现明显的南移趋势。     

Soil slip/debris flow localized by site attributes and wind-driven rain in the San Francisco Bay region storm of January 1982

GIS analysis at 30-m resolution reveals that effectiveness of slope-destabilizing processes in the San Francisco Bay area varies with compass direction. Nearly half the soil slip/debris flows mapped after the catastrophic rainstorm of 3–5 January 1982 occurred on slopes that face S to WSW, whereas fewer than one-quarter have a northerly aspect. Azimuthal analysis of hillside properties for susceptible terrain near the city of Oakland suggests that the skewed aspect of these landslides primarily reflects vegetation type, ridge and valley alignment, and storm–wind direction. Bedrock geology, soil expansivity, and terrain height and gradient also were influential but less so; the role of surface curvature is not wholly resolved. Normalising soil-slip aspect by that of the region's NNW-striking topography shifts the modal azimuth of soil-slip aspect from SW to SE, the direction of origin of winds during the 1982 storm—but opposite that of the prevailing WNW winds. Wind from a constant direction increases rainfall on windward slopes while diminishing it on leeward slopes, generating a modelled difference in hydrologically effective rainfall of up to 2:1 on steep hillsides in the Oakland area. This contrast is consistent with numerical simulations of wind-driven rain and with rainfall thresholds for debris-flow activity. We conclude that storm winds from the SE in January 1982 raised the vulnerability of the Bay region's many S-facing hillsides, most of which are covered in shallow-rooted shrub and grass that offer minimal resistance to soil slip. Wind-driven rainfall also appears to have controlled debris-flow location in a major 1998 storm and probably others. Incorporating this overlooked influence into GIS models of debris-flow likelihood would improve predictions of the hazard in central California and elsewhere.     

锈蚀钢筋混凝土圆柱抗震性能的试验研究

对不同锈蚀程度的钢筋混凝土圆柱进行低周反复试验,研究了不同轴压比下的钢筋锈蚀率对钢筋混凝土圆柱滞回曲线、骨架曲线、刚度、延性及耗能能力的影响;给出了试件累积耗能、屈服荷载、极限荷载、荷载最大值和位移延性系数与钢筋锈蚀率和轴压比的关系。研究表明,随着钢筋锈蚀率和轴压比的增大,试件的滞回曲线趋于干瘪,骨架曲线下降段变陡,试件的刚度、延性和耗能能力减小。     

Vertical uplift capacity of a group of shallow circular plate anchors in sand

ABSTRACT

The uplift capacity of a group of circular plate anchors buried horizontally in sand along a line has been determined. The uplift capacity of an interfering anchor is presented in terms of nondimensional uplift factors, F_γi and F_qi, due to components of soil unit weight and surcharge pressure acting on the ground surface, respectively. Theoretical solutions have been developed by applying the upper bound theorem of limit analysis based on a simple rigid wedge collapse mechanism. In the case of two and infinite number of anchors, closed-form solutions have been developed for computing the factor F_qi, whereas the factor F_γi is determined using a semianalytical approach. As expected, the interference of the anchors leads to a continuous reduction in the uplift resistance with a decrease in the spacing between the anchors, and the uplift resistance decreases with the increasing number of anchors at a given spacing. The results compare reasonably well with the available theoretical and experimental data from the literature.