共查询到18条相似文献,搜索用时 437 毫秒
1.
隧洞开挖重复爆炸荷载作用下围岩累积损伤特性 总被引:1,自引:0,他引:1
隧洞毫秒爆破开挖推进过程中,预留岩体在重复爆炸荷载作用下产生不可逆的损伤叠加。而现有的岩体爆破损伤数值模拟基本都是针对单孔装药和单段爆破,很少涉及实际工程中的重复爆炸。基于LS-DYNA程序的用户自定义材料接口,将统计损伤演化模型嵌入到弹塑性本构材料中,模拟圆形隧洞全断面毫秒爆破过程中重复爆炸荷载作用下的岩体累积损伤效应,并考虑地应力对岩体爆破损伤的影响。计算结果表明,围岩损伤范围和损伤程度随重复爆炸荷载次数而增加,在一个爆破进尺内,围岩损伤的临界峰值质点振动速度较单段爆破降低了12%;爆炸荷载作用下,围岩主要表现为拉损伤,围岩地应力对爆破张拉效应起到非常敏感的"抑制"作用,在210 MPa应力水平时,围岩爆破累积损伤范围随着应力增加而明显减小,围岩损伤的临界峰值质点振动速度增加24%10 MPa应力水平时,围岩爆破累积损伤范围随着应力增加而明显减小,围岩损伤的临界峰值质点振动速度增加24%57%。 相似文献
2.
为利于判断巷道围岩在爆破荷载作用下的稳定性及巷道内壁混凝土衬砌的安全,采用ANSYS/LS-DYNA分析了巷道钻爆法掘进爆破荷载作用下震动区岩体的动力响应。结果表明,近区岩体内部爆破压力、单元有效应力、质点振动速度随爆心距的衰减规律基本符合萨道夫斯基经验公式,单元有效应力与质点振动速度的衰减规律具有很强的相关性;巷道围岩临空面上的质点振动速度以沿巷道方向的振动速度为主,巷道横截面内垂直临空面方向次之,横截面内沿临空面方向为最小。巷道同一横截面处各质点的振动波形基本相同,拱顶的振动速度峰值比帮部的要大10%左右,拱与帮的连接处振动速度峰值较小。巷道围岩沿巷道方向临空面上质点振动速度衰减规律也基本符合萨道夫斯基公式,以上分析结果对采用钻爆法进行岩巷施工时,控制近区震动区爆破荷载对结构的影响具有一定的指导作用。 相似文献
3.
隧道爆破开挖围岩动力损伤效应数值模拟 总被引:1,自引:0,他引:1
采用数值模拟技术预估岩体开裂深度及爆破损伤影响范围对工程设计可以起到事先指导作用,对施工安全具有重大意义,其中科学的、合理的损伤模型及迭代计算方法是关键。基于FLAC3D程序的用户自定义本构模块,将考虑累积应变和荷载作用时间的Yang-Liu率相关动力损伤模型与Mohr-Coulomb弹塑性本构进行耦合,将围岩破坏过程中的损伤特性反映在荷载增量迭代计算中,形成了弹塑性动力损伤本构模型,详细推导了损伤应力修正迭代计算方法。对一圆形隧道爆破开挖进行模拟,探讨了爆破诱发的质点振动衰减特征及围岩损伤分布规律。分析结果表明,爆破产生的质点振动速度峰值与其所造成的损伤具有很好的相关性。该爆破损伤模型及模拟方法可以为类似工程提供一定参考 相似文献
4.
邻近既有隧道的新建大断面隧道施工参数优化分析 总被引:2,自引:0,他引:2
结合大帽山隧道Ⅴ级围岩段施工参数优化的试验,通过爆破震动速度、岩体声波波速和围岩内部位移的现场监控量测工作,研究既有隧道旁新建大断面隧道双侧壁导坑法施工时岩体的损伤程度和范围,进而优化导洞的单循环进尺、爆破参数等施工参数。研究表明:推进式往复爆破作业的双侧壁导坑法开挖的隧道必然导致围岩产生一定程度的损伤、破坏,尤其是小净距隧道间的中夹岩岩墙;双侧壁导坑法开挖的大断面隧道,控制岩体的损伤程度和损伤范围是相互矛盾的,通过减少单循环开挖进尺来减少爆破震动速度,只能控制岩体的损伤范围,多次的重复爆破导致损伤岩体的损伤程度更大,极大影响围岩稳定;相反,通过适当加大单循环开挖进尺来控制损伤程度的同时,过大的爆破震动速度导致损伤范围更大,极大影响邻近既有隧道的安全运行。利用现场监测数据,通过在UDEC软件中实现的岩体各向异性爆破损伤模型,计算导洞推进式开挖全过程围岩压力的变化和既有隧道支护结构的状态,综合考虑各种因素,优化得到折中的单循环进尺。 相似文献
5.
爆破荷载作用下岩体振动特征的数值模拟 总被引:41,自引:2,他引:39
根据福建牛头山水电站地基岩体爆破开挖监测,运用离散元方法模拟了节理岩体距爆源不同距离处质点的振动速度和频率的变化特征,由此确定岩体质点最大振动速度和振动主频随爆源距离的衰减规律,并得到了距爆源一定距离处质点最大振动速度和振动主频与爆破药量的关系。数值模拟与现场实测的结果表明,用离散元软件UDEC计算得到的岩体振动特征和衰减规律与现场监测结果是基本符合的,误差在工程应用的允许范围之内,因此UDEC用于对岩体动态响应的数值模拟是适合的。 相似文献
6.
7.
岭澳核电站二期工程基岩爆破安全阈值分析 总被引:2,自引:1,他引:1
核电站基础爆破开挖过程中必须严格控制岩体爆破损伤深度,确保建基面安全。以广东岭澳核电站二期工程基础爆破开挖为例,通过现场爆破振动监测、岩体声波试验以及数值模拟,综合分析了岩体爆炸振动衰减规律和损伤特征,研究了距爆源一定距离处岩体振动速度与损伤特征的关系,提出了岭澳核电站二期工程岩体爆炸损伤深度的控制方法,确定了相应的安全阈值。分析结果表明,岭澳核电站二期工程基础爆破开挖时,当距爆源30 m处的岩体质点振动速度不超过5 cm/s时,可保证下卧基岩的损伤深度小于2 m,确保建基岩完整性。 相似文献
8.
岩石时效损伤模型及其在工程爆破中应用 总被引:2,自引:0,他引:2
为了实现爆破智能化,降低爆破带来的负面影响,通过数值模拟预估出岩体中爆破诱发损伤的大小以及分布范围在工程上具有重要意义,其中科学合理的爆破损伤模型是关键。基于岩石介质是连续的、各向同性的、且存在初始裂纹的假设,把考虑时效的岩石拉裂损伤演化方程和双线形弹塑性本构结合起来,通过用户自定义简明地嵌入到大型LS-DYNA软件中,并引入了该软件中的侵蚀算法,对半无限岩体中临空面附近爆破漏斗问题进行了重点数值模拟,计算结果比较接近实际。本文方法在工程中将具有一定的参考价值。 相似文献
9.
为了研究巷道开挖过程中爆破动荷载对巷道围岩体的累积损伤,运用RSM-SY5智能型声波仪测试巷道围岩体的岩体声波速度。结合理论推导,分析多次爆破震动对巷道围岩体的累积损伤。结果表明,第一次爆破对巷道围岩体的影响最大,多次爆破震动的累积损伤作用仅增加围岩体的破碎程度,并没有扩大巷道围岩体的损伤范围。巷道围岩体的松动圈是由多次爆破累积损伤造成的,且对巷道顶板的累积损伤程度大于巷道两帮的累积损伤。根据巷道围岩体的累积损伤程度,巷道顶板围岩体的1.5 m范围内为开挖引起的围岩体破碎带,1.75~2.5 m为巷道围岩体裂隙带,2.75 m以外的岩体为开挖扰动带和原岩区。此研究为巷道开挖过程中控制巷道的稳定性和巷道支护提供可靠参考依据。 相似文献
10.
考虑累积损伤效应的围岩变形特性研究 总被引:1,自引:0,他引:1
隧道爆破开挖诱发的动力扰动作用范围往往远大于其开挖进尺,同一部位围岩受到循环爆破开挖的多次扰动普遍存在累积损伤。对乌东德水电站左岸导流洞爆破开挖过程中的爆破振动和围岩变形监测进行了监测和数值分析,基于累积损伤理论,通过引入损伤判据及损伤变量,考虑计算中产生的不同程度的损伤区域的岩体参数劣化,并将劣化后的参数引入相应损伤单元进行后续开挖爆破数值模拟计算,从而对岩体爆破开挖累积损伤效应进行模拟。通过比较乌东德水电站导流洞的实测数据以及数值模拟计算结果发现,考虑累积损伤的计算结果无论是爆破振动速度还是围岩变形均更接近于实测值。对爆破开挖的分析模拟中应考虑围岩的多次循环爆破累积损伤效应。 相似文献
11.
Numerical Analyses of the Influence of Blast-Induced Damaged Rock Around Shallow Tunnels in Brittle Rock 总被引:2,自引:1,他引:1
Most of the railway tunnels in Sweden are shallow-seated (<20 m of rock cover) and are located in hard brittle rock masses.
The majority of these tunnels are excavated by drilling and blasting, which, consequently, result in the development of a
blast-induced damaged zone around the tunnel boundary. Theoretically, the presence of this zone, with its reduced strength
and stiffness, will affect the overall performance of the tunnel, as well as its construction and maintenance. The Swedish
Railroad Administration, therefore, uses a set of guidelines based on peak particle velocity models and perimeter blasting
to regulate the extent of damage due to blasting. However, the real effects of the damage caused by blasting around a shallow
tunnel and their criticality to the overall performance of the tunnel are yet to be quantified and, therefore, remain the
subject of research and investigation. This paper presents a numerical parametric study of blast-induced damage in rock. By
varying the strength and stiffness of the blast-induced damaged zone and other relevant parameters, the near-field rock mass
response was evaluated in terms of the effects on induced boundary stresses and ground deformation. The continuum method of
numerical analysis was used. The input parameters, particularly those relating to strength and stiffness, were estimated using
a systematic approach related to the fact that, at shallow depths, the stress and geologic conditions may be highly anisotropic.
Due to the lack of data on the post-failure characteristics of the rock mass, the traditional Mohr–Coulomb yield criterion
was assumed and used. The results clearly indicate that, as expected, the presence of the blast-induced damage zone does affect
the behaviour of the boundary stresses and ground deformation. Potential failure types occurring around the tunnel boundary
and their mechanisms have also been identified. 相似文献
12.
V. M. S. R. Murthy Kaushik Dey 《Fragblast: International Journal for Blasting and Fragmentation》2003,7(3):149-166
Tunnels are required to be constructed for meeting different human needs such as power generation, transportation, underground storage, sewage etc. The predominant method of excavation, world over, is drilling and blasting owing to its capability to meet changing geo-technical conditions. Irrespective of the purpose for which the tunnels are driven, all are plagued by overbreak problems. Tunnels driven for water conveyance in hydroelectric power projects, in particular, need to be excavated with minimum overbreak to minimise cost of permanent concrete lining. Thus, predicting overbreak assumes significant importance to design site-specific blasts for minimizing rock damage. This paper presents a brief review of existing PPV (Peak Particle Velocity) based blast-induced rock damage estimation criteria and attempts to outline the ground vibration threshold levels for overbreak/rock damage in a tunnel driven through compact basalt. Rock damage manifested as overbreak is measured and correlated with the possible threshold levels of PPV. Also, the PPV levels for crack initiation and widening are proposed. The case pertains to a lake tap horizontal tunnel of Koyna Hydro-electric Power Project, India which is a water feeder tunnel for a fully underground hydroelectric power project. The tunnel was driven under a shallow rock cover of average depth ranging from 20 to 25m beneath a fully charged water body. The parting rock is mainly compact basalt. Blasting was carried out in two rounds in a controlled manner, i.e., by limiting the maximum charge per delay based on ground vibration monitoring. Ground vibration generated with free face (in second round) has been modeled and a new ground vibration propagation equation is proposed for tunnel blasting including the effect of an extra free face. The threshold limits of PPV for different degrees of overbreak/rock damage are proposed from extrapolated vibration predictor equation. The actual overbreak in the tunnel, measured using a Planimeter, varied from 2.45 per cent to 17.75 per cent of the finished tunnel area. The predicted overbreak from extrapolated PPV measurements is compared against the measured overbreak to validate the proposed blast-induced rock damage (BIRD) assessment model. The PPV level for overbreak was found to exceed 2050 mm/s in compact basalt. A linear relationship between the overbreak and maximum charge per delay is also established to design a tunnel blast in similar formations. 相似文献
13.
Vivek K. Himanshu M. P. Roy A. K. Mishra Ranjit Kumar Paswan Deepak Panda P. K. Singh 《Arabian Journal of Geosciences》2018,11(16):460
Excavation of coal, overburden, and mineral deposits by blasting is dominant over the globe to date, although there are certain undesirable effects of blasting which need to be controlled. Blast-induced vibration is one of the major concerns for blast designers as it may lead to structural damage. The empirical method for prediction of blast-induced vibration has been adopted by many researchers in the form of predictor equations. Predictor equations are site specific and indirectly related to physicomechanical and geological properties of rock mass as blast-induced ground vibration is a function of various controllable and uncontrollable parameters. Rock parameters for blasting face and propagation media for blast vibration waves are uncontrollable parameters, whereas blast design parameters like hole diameter, hole depth, column length of explosive charge, total number of blast holes, burden, spacing, explosive charge per delay, total explosive charge in a blasting round, and initiation system are controllable parameters. Optimization of blast design parameters is based on site condition and availability of equipment. Most of the smaller mines have predesigned blasting parameters except explosive charge per delay, total explosive charge, and distance of blast face from surface structures. However, larger opencast mines have variations in blast design parameters for different benches based on strata condition: Multivariate predictor equation is necessary in such case. This paper deals with a case study to establish multivariate predictor equation for Moher and Moher Amlohri Extension opencast mine of India. The multivariate statistical regression approach to establish linear and logarithmic scale relation between variables to predict peak particle velocity (PPV) has been used for this purpose. Blast design has been proposed based on established multivariate regression equation to optimize blast design parameters keeping PPV within legislative limits. 相似文献
14.
Far-field peak particle velocity (PPV) measurements were made in the roof while blasting in coal development drivages at Tandsi Mine, Western Coalfields Limited, India. The roof was fragile at this mine and was posing constant support problems for mining, resulting in low productivity. The PPV measurements have been used to decipher the damage zone in the roof. The extent of damage obtained has been compared to establish the threshold limits for the damage zone. Conversely, the maximum charge per delay that can be exploded is calculated and a suitable blast design has been recommended for maintaining the roof stability and pull. A roof vibration predictor equation has been developed that shows a consistent trend indicating that it may have future use in a similar geo-mining setup. The blast pattern recommended has reduced the damage extent, though marginally, but helped in improving pull. Critical PPV for incipient rock damage in underground coal mine development drivages under fragile roof were computed. The PPV level for incipient crack growth was found to vary from 500 to 800 mm/s while for overbreak it varied from 800 to 1200 mm/s. It was also observed that the location of cut holes, charge concentration and firing sequence were found to be responsible for the difference in their damage potential. 相似文献
15.
Amir Sajjad Abedi Sina Shivaei Arsalan Ghahramani 《Geomechanics and Geoengineering》2020,15(2):140-148
ABSTRACTThis study develops a mathematical model of buried pipelines subjected to surface blast loading based on the theory of beam on elastic foundation. The Fourier transform, a mathematical formula that converts the time domain of the problem to the frequency domain, was used in order to solve a fourth-order non-homogeneous partial differential equation. Transforming the solution back to the time domain, the blast-induced Peak Particle Velocity (PPV) of the pipeline can be calculated. In addition to the mathematical model, a three-dimensional finite element model has been established, thereby drawing a comparison between analytical and numerical results. It can be concluded that the analytically calculated PPV values are found to be higher than the corresponding numerical values. Lastly, the safe distance from the pipeline to blast source and the maximum allowable ANFO explosive weight for two types of rock have been presented in the form of graphs by imposing a limit of 50 mm/s for PPV. This comparative study has investigated the effect of road-cut excavation blasting on pipelines buried under only two types of rock mass. However, it can be used for different types of rock and explosives, mainly thanks to the comprehensiveness of the analytical solution. 相似文献
16.
Pijush Pal Roy Chhangte Sawmliana Rakesh Kumar Singh 《Geotechnical and Geological Engineering》2016,34(3):901-909
Directives from the Hon’ble Supreme Court of India led to the banning of mining activities within a radius of 2 km of the Sri Jambunatheswara ancient temple in Hospet taluk of Karnataka State of India. On recommendation of the Department of Archaeology & Museums, Government of Karnataka, CSIR-CIMFR undertook extensive investigations wherein the ground vibration and air overpressure due to blasting in nearby iron ore mines were monitored to assess their damage and annoyance potentials. The magnitudes of blast-induced ground vibration and air-overpressure recorded in the temple were found to be within the standard safe limits stipulated by the Directorate General of Mines Safety, India when trial blasts were carried out at a distance greater than 290 m from the temple. When blasts were conducted at a distance of beyond 845 m from the temple, neither vibration nor sound of blasting could be recorded or heard at the temple premises, indicating it a safe zone for blasting. After thorough analyses of the recorded data, precise blast design parameters were recommended for blasting at distances beyond 200 m from the temple and allowing this distance to be demarcated as the safe zone where controlled blasting could ensure safety of the ancient temple. 相似文献
17.
利用新型数字激光动态焦散线试验系统,采用有机玻璃板试件进行模型试验,研究了含预制不同形状空孔对岩石定向断裂控制爆破的影响规律。试验结果表明:在定向断裂控制爆破中,设置菱形空孔更有利于实现精细化定向断裂控制爆破,可有效保证巷道周边眼爆破的成型效果;对比含3种不同形状空孔试件爆生主裂纹扩展速度可知,含菱形空孔的扩展速度最大,含圆形空孔的次之,含带刻槽圆形空孔的最低;含圆形空孔试件爆生主裂纹端部动态应力强度因子总体比含菱形和切槽圆形空孔试件爆生主裂纹端部动态应力强度因子大;主裂纹扩展中后期阶段,含菱形空孔试件爆生主裂纹端部动态应力强度因子相对较小。 相似文献
18.
微差爆破模拟天然地震的数值分析与效果评价 总被引:2,自引:0,他引:2
微差爆破可以创造出与天然地震相类似的振动环境。为了更好地对爆破模拟天然地震进行研究和评价,在LS-DYNA软件框架内,建立了适合于爆炸荷载作用下土体动力分析的实用模型,对原位土体场地爆破地震动试验进行了全尺寸数值模拟,并将模拟结果与现场实测数据进行比较分析,验证数值计算的准确性。计算结果表明,模拟得到的场地质点加速度-时程与实测数据比较吻合,因此,可以预先利用数值手段为试验方案设计提供指导;同时,数值模拟还总结了现场试验中未得到的场地压力变化规律和振动规律,分析了爆破地震动与天然地震的异同,丰富了爆破地震动的研究,表明利用爆破手段能够近似地模拟天然地震,为微差爆破模拟天然地震的研究工作提供了经济、简便而实用的方法。 相似文献