动力扰动下深部开挖洞室围岩分层断裂破坏机制模型试验研究

为研究动、静组合加载下深部巷道围岩分区破裂化的机制,在Instron电液伺服材料试验机上对用石膏制作的深部洞室模型进行了动、静组合加载试验。为进一步分析动、静组合加载下深部巷道围岩分层断裂化的力学本质,将动、静组合加载下深部巷道围岩近似视为若干个二维动、静组合加载试样的组合体,并用红砂岩试样进行了二维动、静组合加载试验。试验结果表明,巷道轴向应力为最大主应力且大于一定值时,围岩会发生分层断裂现象;巷道轴向应力为最大主应力且与外部扰动应力叠加达到一定值时,围岩也会发生分层断裂现象;巷道直径越大,在相同的动、静组合加载条件下,更易发生分层断裂现象;相同直径的巷道,在不同的动、静组合加载作用下,巷道围岩分层断裂化程度不同,动、静组合应力叠加值越大,分层断裂化程度越严重;应力状态对试样裂纹扩展及分布方向起着主导作用,试样破裂面一般垂直于最小主应力方向（在最小主应力面内）,与最大主应力方向一致;深部巷道围岩存在形成破裂圈的应力状态,这样的应力状态可诱发巷道围岩分区破裂现象的发生。     

锦屏一级电站地下厂房岩锚梁载荷试验研究

详细介绍了锦屏一级水电站工程地下厂房岩锚梁试验过程、安全监测方法及结果。试验结果表明,岩锚梁锚杆应力、接缝开度、围岩变形及锚索荷载变化主要由围岩二次应力调整引起的,试验荷载引起的增量远远小于各监测物理量,岩锚梁大多数锚杆承受拉应力,C锚杆的应力增量比A、B锚杆的应力增量反应更敏感;锚杆应力增量随着埋深增加迅速减小,岩锚梁荷载试验全过程中各监测物理量变化均小于设计控制标准值。建议在围岩变形较大的条件下,岩锚梁的设计、施工应考虑围岩和岩锚梁共同作用的影响     

周期荷载下盐岩的疲劳变形及损伤特性研究

利用RMT－150C型岩石力学多功能试验机,进行了盐岩单轴循环荷载作用下的疲劳试验,研究了盐岩的疲劳强度、变形及损伤特性。试验结果表明,当上限应力大于“门槛值”时,盐岩疲劳破坏时的轴向应变可以分为初始变形、等速变形和加速变形3个阶段,呈疏－密－疏的发展过程。改变上限应力和平均应力会显著影响疲劳的进程,提高上限应力值和平均应力值,初始轴向变形和循环轴向变形的比率都会提高,疲劳破坏时的总循环次数显著减小。盐岩疲劳破坏终点的变形量同样受静态轴向应力-应变全过程曲线的控制,控制误差范围在10%左右。循环荷载作用下,盐岩的变形模量经历了一个先逐渐增加,后缓慢降低,最后加速减小的过程。对循环荷载作用下盐岩疲劳损伤演化规律进行了初步探讨     

初始剪应力与加荷速率共同作用下饱和软黏土孔压模型试验研究

通过GDS循环三轴试验系统,对循环荷载作用下饱和软黏土的孔压变化规律进行了研究,分析了循环应力比,初始剪应力与振动频率对孔隙水压力的影响。研究结果表明：随着循环应力比的增加,孔压发展速度增快。循环荷载作用下饱和软黏土存在临界循环应力比,通过孔压也可以确定其值大小。在循环初期,孔压率较大,随着循环时间的增加,孔压率逐渐减小。随着循环应力比的增加,孔压率增加。振动频率对孔压比-循环次数关系影响明显,随着频率的增加,孔压比减小;然而,当振动频率大于1 Hz时,振动频率对孔压比-时间与孔压率-时间关系影响不明显。随着初始剪应力的增大,孔压增加。初始剪应力对应变率具有显著影响;随着初始剪应力的增加,应变率增加。在对数坐标下,孔压率与时间呈线性关系。在上述试验基础上建立了孔压率与时间关系表达式,通过积分得到了循环荷载作用下饱和软黏土的动孔压模型     

长期循环荷载下冻土内部温度变化的试验研究

对-0.5、-1.0、-1.5 ℃三种温度下的冻土试样进行单轴循环压缩试验,每5秒测试一次试样内部的温度,得到了不同振动频率、动应力幅值下冻土试样内部温度随振动时间变化的曲线。结果表明：在循环荷载作用下冻土内部温度会升高,动应力幅值越大,温升速率越大;在一定动应力幅值范围内,随着振动频率的增大,温升速率增大;温升幅值受土样是否破坏以及达到破坏的时间长短影响,在一定动应力幅值下,适中的某一振动频率下其内部温升幅值最大;冻土试样的破坏受其内部温度升高的影响,如果冻土试样内部温度不断升高,试样最后将会发生破坏;而不会破坏的试样内部温度升高到一定值后保持稳定或开始下降,这是由于试样和所处环境之间的热交换引起的     

Experimental assessment of dynamic lateral resistance of railway concrete sleeper

The single tie (sleeper) push test (STPT) is a common method to evaluate the lateral resistance of a railway track sleeper. This methodology evaluates the lateral resistance phenomenon in a static manner despite the fact that the majority of the exerted loads on a railway track have a dynamic nature. For this reason, a mass–spring–damper numerical model was created to investigate the dynamic lateral interaction between an isolated sleeper and ballast layer in the presence of various lateral impact loads. On the basis of the model outputs, a pendulum loading test device (PLTD) was designed and developed in the laboratory. In this regard, a cylindrical hammer with modifiable mass and triggering angle was installed on a steel frame for imposing lateral impact load on an instrumented concrete sleeper. The graphs of the sleeper–ballast interaction force versus the sleeper lateral displacement were extracted for different masses and triggering angles of the hammer. Considering a same condition for sleeper, the maximum value of this interaction force was called the dynamic lateral resistance (DLR) and static lateral resistance (SLR) respect to the dynamic and static states of lateral loading. Comparing the values of the sleeper DLRs and SLR indicated that unlike the constant SLR of 6.5 kN, the DLR was in the range 2–10.2 kN in the impact load domain of 3–40 kN. However, as a key finding, the average slopes of the DLR and SLR graphs were equivalent in the dynamic and static tests.     

隧道开挖对下伏水平薄煤层采空区地层的扰动及衬砌受荷特征

为探明下伏薄煤层采空区地层中隧道施工对地层的扰动以及衬砌结构受荷特性,采用离散元颗粒流软件,从细观角度对隧道开挖引起的地层应力变化特性进行了模拟分析,同时在室内开展模型试验量测了下伏煤层采空区地层隧道衬砌背后土压力以及二次衬砌结构内力（轴力、弯矩）,分析了特定围压下间距对土压力和二次衬砌受力的影响。结果表明,下伏煤层采空区地层因隧道开挖引起的围岩松动区呈“O”形分布,隧道下伏围岩颗粒接触力反而小于隧道上覆围岩;洞周允许位移越大,颗粒接触力链间断区域越大;间距越小,颗粒接触力链间断区域越大,当间距大于2.0D（D为隧道跨度）时,下伏采空区对隧道围岩颗粒接触力影响逐渐消失,降低了地基反力,间距越小,降低程度越高;二次衬砌内力分布有一定的离散性,二次衬砌裂缝最先出现在拱底,是隧道主体结构的薄弱环节。     

复杂应力路径下饱水砂岩宏细观力学特性研究

饱水作用对砂岩变形及强度特征影响显著,考虑岩体实际赋存环境,为了解复杂应力路径下饱水砂岩宏细观力学特性,利用RMT-150C岩石力学多功能试验机及SEM电镜扫描技术,对饱水砂岩进行循环荷载作用后卸荷破坏试验,研究不同影响因素作用下的疲劳损伤特征,重点分析了加载频率、上限应力等因素对卸荷变形、强度及细观损伤特征的影响规律。研究表明,根据试验设计方案获得的饱水砂岩应力-应变曲线大致可以划分为5个典型阶段,其中,同一应力状态下,疲劳损伤阶段轴向不可逆应变在等速变形阶段的应变速率随加载频率的增大迅速增加,这表明上限应力的“门槛值”极有可能是变化的,且与加载频率及循环次数密切相关;同时,卸围压变形破坏阶段的总应变及围压卸荷量均随加载频率（或上限应力）的增大而减小,与该阶段持续时间随加载频率（或上限应力）的变化规律一致。不仅如此,通过分析饱水砂岩破坏面细观损伤特征发现,加载频率与上限应力作用下的细观损伤特征差异显著,其中破坏面微裂隙面积占比随加载频率增大而减小,上限应力则恰好相反。     

光通信用IOGHzCMOS八分频器设计

在比较反转触发器（TFF）的各种结构基础上,采用一种单时钟信号控制,实现高速分频的电路结构,设计实现了用于光通信中时钟数据恢复电路的八分频器。该八分频器使用动态负载,输出两路互补信号,采用SMIC0．18um1P6MCMOS工艺,使用Cadence公司的Spectre仿真器进行模拟验证,实验结果证明,在电源电压为1．8V的情况下,该八分频器的工作速度10GHz、功耗仅为4．705mW。     

A numerical study of the behavior of fully grouted rockbolts under dynamic loading

The widespread preference for rockbolts in providing adequate rock stability in underground mines and man-made cavities make it necessary to obtain a better understanding of the response of these support systems. It is widely accepted that the fully grouted rockbolts provide better roof stability in areas of very poor roof condition which may be caused by high ground stress conditions. There is little information about the in situ behavior of these systems especially under dynamic loading. Hence, to study the behavior of fully grouted rockbolts under dynamic loading, a numerical modeling study was conducted using the FLAC^3D code. In this study the behavior of three types of fully grouted rockbolts were compared with each other including rockbolts with and without head plate and a yielding type one. The results of analyses indicated that under dynamic loading the fully grouted rockbolts without the head plate are incapable of controlling the rock mass movement. Although fully grouted rockbolts with head plate damp a considerable amount of the dynamic energy through friction as these bolts slide within the grout, but the elongation of the rockbolt is not possible due to the rapid breakage of the rockbolt–grout interface. Yielding rockbolts are the best choice for the absorption of the dynamic stress wave and controlling of the rock mass movement. The obtained results show that the optimal design of yielding rockbolt should be in such a way that after dynamic loading, anchoring part of bolt has a limited movement to prevent stress concentration in the shaft of rockbolt and its breakage.