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关键词： Open pit mining  

摘要： When large-scale near-level coal field adopts open-pit mining, in order to realise safe and efficient production and recover the investment cost as soon as possible, it usually adopts the way of mining in sub-districts, so before the old mining area is about to reach the boundary, it is inevitable to consider the problem of the transition succession between the old and new mining areas. Therefore, before the old mining area reaches the boundary, the issue of the transition between the old and new mining areas must be considered. The formulation of a turning plan for an open-pit coal mine mining area is related to the smooth transition of production capacity during the turning period, which directly affects the economic benefits of the mine. In actual production, some mines are limited by issues such as the land acquisition system, mining intensity, and complex geological conditions, which force open-pit coal mines to turn early. Research has shown that by adjusting key parameters such as the length and advancement speed of the local working line during the turning period, the stripping and mining plan during the turning period can be optimized to ensure a smooth transition of the mine. Due to the serious deformation of the east side of the north bench of the Baiyinhua No.1 open-pit coal mine, the first mining area was forced to shift to the second mining area ahead of schedule in order to ensure the smooth continuation of production capacity. However, the land acquisition for the second mining area was limited, and the gentle bench working line could not be fully deployed, resulting in changes to the original mining procedures. In order to ensure the smooth transition of the first mining area to the second mining area of Baiyinhua No. 1 Open Pit Coal Mine, an improved method of transition and connection for the L-shaped working line mining area is proposed, and on this basis, the constraint relationship between the length and advancement of different working lines i

关键词： Damping  

摘要： This paper discusses a method for uniformizing the maximum inter-story drift angle of multiple seismic responses in elastic equivalent shear-spring models with untuned inertial mass dampers. First, the author proposes using pseudo-equivalent stiffness to assess the effect of untuned inertial mass dampers. Then, this pseudo-equivalent stiffness is applied to the method using closed-form representations of the primary mode, confirming the effectiveness of the control strategy for untuned inertial mass dampers. This allows for comparison with the damping effects of viscous dampers and demonstrates the potential for a wide range of applications of untuned inertial mass dampers. © 2025 Architectural Institute of Japan. All rights reserved.

关键词： Surface reservoir   Groundwater/surface-water relations   Groundwater recharge/water budget   Yangzhuang Basin   China  

摘要： The construction of a surface reservoir in a karst area will inevitably change the regional hydrogeological conditions and impact the groundwater circulation process and recharge dynamics. In this study, a representative synclinal basin-type karst groundwater system in the Yangzhuang Basin, northern China, was selected to analyze the influences of surface reservoir construction on the groundwater circulation mechanism and recharge conditions through multi-factor regime monitoring, multiple regression analysis, and the groundwater balance equation. Following the filling of the Zhuangli Reservoir, the hydraulic gradient in the karst groundwater system gradually decreased from upstream to downstream, accompanied by a decrease in the groundwater depression cone area. The flow of a downstream karst spring increased, while the responsiveness of karst groundwater levels to surface water runoff significantly decreased due to the influence of artificial storage. Karst groundwater levels remained significantly influenced by precipitation. Comparative analysis of conditions before and after the reservoir construction of the Zhuangli Reservoir showed that the amount of recharge to karst aquifers increased from 8598.56 x 104m3/year to 11,731.89 x 104m3/year, with seepage from the reservoir becoming one of the main sources of karst groundwater recharge in the Yangzhuang Basin. Concurrently, the discharge of karst groundwater resources decreased from 10,443.29 x 104m3/year to 9994.42 x 104m3/year, and the water budget for the karst groundwater system changed from negative to positive.

关键词： Vibration analysis  

摘要： Deep thick overlying strata mine often faces frequent occurrence of mine earthquake during mining, among which large energy mine earthquakes may induce rock burst. In order to investigate the burst inducing ability of large energy earthquakes, based on the engineering background of the 3106 working face of Menkeqing Coal Mine in Ordos mining area, the vertical height of large energy mine earthquakes is modified based on the moment tensor mechanics mechanism, the temporal and spatial distribution characteristics of large energy mine earthquakes are analyzed, and the factors influencing the frequent occurrence of large energy mine earthquakes near the goaf side are explored combined with drilling data. Based on the moment tensor inversion method, the mechanical types and focal mechanisms of large energy mine earthquakes under the condition of thick overlying strata are studied. The results show that the large energy mine earthquake is caused by the fracture of the low thick overburden on one side of the production wall of the working face, and the focal mechanism is mainly tensile fracture type, and a few are compression fracture type. Based on the attenuation law of vibration wave, the large energy mine earthquake attenuation model is established, and the 12 large energy mine earthquakes produced during the mining of 3106 working face are divided into three types. The FLAC3D numerical model is established according to the field support and mining conditions, and the peak particle vibration velocity (PPV) of the roadway near the goaf side of 3106 working face is 0.35 m/s by using the dynamic calculation method. Further, according to the established relationship model of energy E, propagation distance r and PPV, the calculation and analysis confirm that except the second type has a certain influence on the roadway, the other two types of the large energy mine earthquake burst inducing ability is weak, which explains the reason why there is no damage at the site. The re

关键词： Seismic design  

摘要： This paper evaluated the relationship between load-carrying capacity and maximum displacement response of buildings by response analysis using typical Japanese strong motion observation data. The analytical results revealed that the maximum response displacement was almost constant regardless of the base shear coefficient in areas where the acceleration response spectrum decreases rapidly after the predominant period. The paper named these areas "Concentrated Areas of Response Displacement (CARD)" and theoretically proves that such phenomena were inevitable for buildings on the ground with a pronounced predominant period. Finally, the outstanding findings for seismic design were concluded based on CARD. © 2025 Architectural Institute of Japan. All rights reserved.

关键词： Earthquakes  

摘要： The high-frequency (3–10 Hz) motion generation areas (HMGAs) of the 2023 Mw7.8 Turkey-Syria earthquake were estimated using the empirical Green's function method. One of the HMGAs was located near the end of the southwestern segment, where the off-fault deformation was large. The other HMGA was located near the stepover. The edges of strong motion generation areas revised from Satoh (2023) were near the stepover, the bend, and the junction. These results show that off-fault damage and discontinuity in fault geometry generated high-frequency motion. This is identical to the features shown by numerical simulations for strike-slip earthquakes in previous studies. © 2025 Architectural Institute of Japan. All rights reserved.

关键词： 微型桩   锚杆   基坑支护  

摘要： 近年来,基坑失稳时常引发安全事故,特别是在建筑物比较密集的城市区域,深基坑开挖对毗邻建筑物的结构安全影响很大.以洛铜新城项目为例,通过对三种支护方案进行分析和比较,可知在选择基坑支护方案时,微型桩锚支护较能满足预期.采用微型桩锚支护,可以有效缩短工期,并降低施工成本,杜绝安全隐患.重点介绍了微型桩锚支护的关键施工技术及施工质量控制要点,以期为从业人员提供参考.

关键词： 地震响应分析   减震技术   减震系统   数值模拟   结构安全  

摘要： 地震响应分析与减震技术是结构工程领域的重要研究课题之一,其主要目标是评估建筑在地震作用下的动态响应,并采取有效的减震措施来减少结构损伤.通过对地震波的特性进行分析,结合数值模拟技术,可以准确预测结构在地震中的表现,并为减震系统的设计提供依据.减震技术主要包括隔震技术、耗能减震技术和主动减震控制技术等,这些技术可以显著提高建筑的抗震能力和安全性.本文综述了地震响应分析的主要方法,探讨了减震技术的发展现状及应用效果,以期为未来的建筑抗震设计提供参考.

关键词： 韧性评估   室内地震应急避难场所   避难建筑   PSR模型   云模型  

摘要： 为评估室内地震应急避难场所的韧性等级,提出一种基于压力-状态-响应(PSR)模型+云模型的室内地震应急避难场所韧性评估方法.从PSR角度构建室内地震应急避难场所韧性评估指标体系,划分韧性评估等级标准,利用AHP-DEMATEL为指标赋权,并结合云模型构建室内地震应急避难场所的韧性评估模型.以该模型对绵阳市九洲体育馆进行实证分析,分别确定其压力韧性、状态韧性、响应韧性的隶属度等级,最终得到综合等级C 2的结论,与九洲体育馆在汶川地震中表现出的韧性状态吻合,验证了模型的有效性.