Peridynamics simulations of geomaterial fragmentation by impulse loads          下载免费PDF全文

Xin Lai  Bo Ren  Houfu Fan  Shaofan Li  C.T. Wu  Richard A. Regueiro  Lisheng Liu 《国际地质力学数值与分析法杂志》2015,39(12):1304-1330

In this work, we have developed nonlinear peridynamics models of drained and saturated geomaterials, and applied them to simulations of dynamic fragmentation and ejecta formation due to impulse loads. First, we have re‐phrased and re‐interpreted the non‐local state‐based peridynamics formulation to connect the non‐local integral operator with the local differential operator. Second, we have implemented the Drucker–Prager plasticity model in state‐based peridynamics at finite strain. A peridynamics version of the Hughes and Winget algorithm is derived for the constitutive update. Third, we have developed a peridynamics U‐p formulation for saturated geomaterials. Fourth, numerical simulations have been carried out to verify the proposed peridynamics formulations in the simulation of geomaterial fragmentation induced by impulse loads. Comparisons of analytical and numerical results indicate that the peridynamics model has the ability to both match traditional continuum compression examples, as well as simulate complex geomaterial fragmentation processes resulting from impulse loads. Copyright © 2015 John Wiley & Sons, Ltd.  相似文献   

Application of soft computing in predicting rock fragmentation to reduce environmental blasting side effects     

Masoud Monjezi  Hasan Ali Mohamadi  Bahare Barati  Manoj Khandelwal 《Arabian Journal of Geosciences》2014,7(2):505-511

In the blasting operation, risk of facing with undesirable environmental phenomena such as ground vibration, air blast, and flyrock is very high. Blasting pattern should properly be designed to achieve better fragmentation to guarantee the successfulness of the process. A good fragmentation means that the explosive energy has been applied in a right direction. However, many studies indicate that only 20–30 % of the available energy is actually utilized for rock fragmentation. Involvement of various effective parameters has made the problem complicated, advocating application of new approaches such as artificial intelligence-based techniques. In this paper, artificial neural network (ANN) method is used to predict rock fragmentation in the blasting operation of the Sungun copper mine, Iran. The predictive model is developed using eight and three input and output parameters, respectively. Trying various types of the networks, it was found that a trained model with back-propagation algorithm having architecture 8-15-8-3 is the optimum network. Also, performance comparison of the ANN modeling with that of the statistical method was confirmed robustness of the neural networks to predict rock fragmentation in the blasting operation. Finally, sensitivity analysis showed that the most influential parameters on fragmentation are powder factor, burden, and bench height.  相似文献   

Bedload abrasion and the in situ fragmentation of bivalve shells     

ANDREW J. NEWELL  DAVID J. GOWER†  MICHAEL J. BENTON‡  VALENTIN P. TVERDOKHLEBOV§ 《Sedimentology》2007,54(4):835-845

The aim of this study was to determine how Unio bivalve shells fragment within the channel of the Sakmara River (southern Urals, Russia). The Sakmara River has an abundant bivalve population and a highly variable flow regime which, at low flow, allowed much of the channel bed to be examined. A large data set of 1013 shells (Unio sp.) was examined and these were shown to have consistent patterns of orientation, aspect, shell abrasion, perforation and fracture. The close spatial relationship between areas of shell abrasion, shell perforation and shell fracture showed that they form part of a continuum whereby areas of abrasion evolve into perforations and perforations coalesce and enlarge into fractures. The mechanism of shell damage proposed is one of abrasion in place, whereby the shell remains stationary on the surface of the point bar and is impacted by bedload. Underpinning this process are the hydrodynamic properties of the bivalve shell, with consistency in the orientation and aspect of the valve in a flowing current producing consistency in the distribution of damage on the shell surface. Valves preferentially lie in a convex‐up position and orientate in the flow such that the umbo faces upstream. The elevated, upstream‐facing umbo region is exposed to particle impact and is the first to be abraded and perforated. The vulnerability of the umbo to perforation is greatly increased by the thinness of the shell at the umbo cavity. The in situ abrasion process is enhanced by the development of an armoured gravel bed which restricts valve mobility and maintains shells within the abrasion zone at the sediment–water interface. The in situ abrasion process shows that broken shells are not a reliable indicator of long distance transport. The study also raises the issue that tumbling barrel experiments, which are generally used to simulate shell abrasion, will not replicate the type of directionally focused sand‐blasting which appears to be the principal cause of shell fragmentation in the Sakmara River.  相似文献   

硬岩隧道高压气体膨胀破岩开挖试验     

彭怀德  刘敦文  褚夫蛟  翦英骅 《岩土力学》2018,39(1):242-248

为了解决传统钻爆法在隧道工程中振动大的问题,引入一种新型破岩技术--高压气体膨胀破岩技术。通过在某隧道掌子面采用该技术进行现场试验,获得该技术试验时的振动速度值和试验后的破岩效果,将获得的结果与传统钻爆法得到的相应结果进行对比分析,结果表明,高压气体膨胀破岩技术在施工时产生的振动比钻爆法小,证明了将该技术应用在隧道工程中是可行的,解决了该隧道采用钻爆法施工振动风险大的问题,为类似工程破岩提供了一种新途径。  相似文献   

A Review of General Considerations for Assessing Rock Mass Blastability and Fragmentation     

E. Widzyk-Capehart  P. Lilly 《Fragblast: International Journal for Blasting and Fragmentation》2002,6(2):151-168

Blasting is the primary comminution process in most mining operations. This process involves the highly complex and dynamic interaction between two main components. The first is the detonating explosive and the second is the rock mass into which the explosive is loaded. The mechanical properties of the rock material (such as dynamic strength, tensile strength, dynamic modulus and fracture toughness) are important considerations in understanding the blasting process. However, it is the characteristics of the geological defects (joints, foliation planes, bedding planes) within the rock mass that ultimately determine how effectively a blast performs in terms of fragmentation, all else being equal. The defect characteristics include, but are not limited to, their orientation, spacing, and mechanical properties. During the blasting process, some of the geotechnical characteristics of the rock mass are substantially changed. From the blasting outcome point of view, the most notable and important is the change in fragment size distribution that the rock mass undergoes. The pre-blast in situ defect-bounded block size distribution is transformed into the post-blast muckpile fragment size distribution. Consequently, it is fundamental to our understanding of and ability to predict the blasting process that both the blastability of a rock mass and its transformation into the fragment size distribution can be appropriately quantified.  相似文献   

A numerical study of the influence from pre‐existing cracks on granite rock fragmentation at percussive drilling          下载免费PDF全文

Mahdi Saadati  Pascal Forquin  Kenneth Weddfelt  Per‐Lennart Larsson  Francois Hild 《国际地质力学数值与分析法杂志》2015,39(5):558-570

The aim of this study is to investigate the effect of pre‐existing, or structural, cracks on dynamic fragmentation of granite. Because of the complex behavior of rock materials, a continuum approach is employed relying upon a plasticity model with yield surface locus as a quadratic function of the mean pressure in the principal stress space coupled with an anisotropic damage model. In particular, Bohus granite rock is investigated, and the material parameters are chosen based on previous experiments. The equation of motion is discretized using a finite element approach, and the explicit time integration method is employed. The pre‐existing cracks are introduced in the model by considering sets of elements with negligible tensile strength that leads to their immediate failure when loaded in tension even though they still carry compressive loads as crack closure occurs because of compressive stresses. Previously performed edge‐on impact tests are reconsidered here to validate the numerical model. Percussive drilling is simulated, and the influence of the presence of pre‐existing cracks is studied. The results from the analysis with different crack lengths and orientations are compared in terms of penetration stiffness and fracture pattern. It is shown that pre‐existing cracks in all investigated cases facilitate the drilling process. Copyright © 2014 John Wiley & Sons, Ltd.  相似文献   

Efficiency of standardized image processing in the fragmentation prediction in the case of Sungun open-pit mine     

Mostafa Badroddin  Ezzeddin Bakhtavar  Hasan Khoshrou  Bahram Rezaei 《Arabian Journal of Geosciences》2013,6(9):3319-3329

The paper proposes a standardized image-processing procedure with the use of sieve analysis results for calibration which is utilized to measure the size distribution of fragmentation at Sungun mine. Through this procedure, a number of 19 bench blasting in various levels have been initially selected as the target of the study for each, multiple photos were taken immediately after blast from suitable perspectives and locations of the muckpiles surfaces. The number of image sampling was chosen adequately high to achieve further reliability of the whole photography procedure. Then fragments of each muckpile were separately mixed by a loader, where another image sampling from these new muckpiles, bucket of loaders, and haulage trucks was performed. For the purpose of sieve analysis, seven sieves with the mesh sizes between 1.27 cm (0.5 in) and 25.4 cm (10 in) were designed, manufactured, and then installed at Sungun semi-industrial laboratory. Additionally, three mass samples of the mixed fragments were randomly chosen among the 19 muckpiles for sieving. During image analysis stage, “sieve shift” and “mass power” factors, required to obtain standardized size distribution, were precisely assigned when the results obtained by the image analysis software was in accordance with the sieving results. In order to validate the reliability of the image processing, a comparative analysis of the achieved results was made with the results of the original Kuz–Ram model [Cunningham (1983) The Kuz–Ram model for prediction of fragmentation from blasting. In: Proceedings of the first international symposium on rock fragmentation by blasting, Lulea, Sweden, pp 439–454]. Finally, the image-processing procedure was found to be more efficient, with results close-matched to the real results of the sieve analysis.  相似文献   

Prediction of blasting-induced fragmentation in Meydook copper mine using empirical,statistical, and mutual information models     

Naeim Ghaeini  Mojtaba Mousakhani  Hassan Bakhshandeh Amnieh  Ahmad Jafari 《Arabian Journal of Geosciences》2017,10(18):409

One of the most important aims of blasting in open pit mines is to reach desirable size of fragmentation. Prediction of fragmentation has great importance in an attempt to prevent economic drawbacks. In this study, blasting data from Meydook mine were used to study the effect of different parameters on fragmentation; 30 blast cycles performed in Meydook mine were selected to predict fragmentation where six more blast cycles are used to validate the results of developed models. In this research, mutual information (MI) method was employed to predict fragmentation. Ten parameters were considered as primary ones in the model. For the sake of comparison, Kuz-Ram empirical model and statistical modeling were also used. Coefficient of determination (R ²), root mean square error (RMSE), and mean absolute error (MAE) were then used to compare the models. Results show that MI model with values of R ², RMSE, and MAE equals 0.81, 10.71, and 9.02, respectively, is found to have more accuracy with better performance comparing to Kuz-Ram and statistical models.  相似文献   

Hybrid finite-discrete element modelling of dynamic fracture and resultant fragment casting and muck-piling by rock blast     

《Computers and Geotechnics》2017

A state-of-the-art review is conducted to highlight the fracture mechanism in rock blast and advantages and limitations of various methods in modelling it. A hybrid finite-discrete element method (FEM-DEM) is implemented to simulate rock fracture and resultant fragment muck-piling in various blasting scenarios. The modelled crushed, cracked and long radial crack zones are compared with those in literatures to calibrate the hybrid FEM-DEM. Moreover, the hybrid modelling reproduces the rock fragmentation process during blasting. It is concluded that the hybrid FEM-DEM is superior to continuous and discontinuous methods in terms of modelling dynamic fracture of rock under blast-induced impact load.  相似文献   

Characterization of underground rock fragmentation     

A. Singh  M. Scoble  Y. Lizotte  G. Crowther 《Geotechnical and Geological Engineering》1991,9(2):93-107

Summary This paper focuses on the methodology and techniques developed to characterize the rock fragments produced by blasting in an underground environment. This work formed part of an integrated approach to the optimization of blasting design at a Canadian mine. Details are given of the photographic and image analysis techniques adopted, together with data from a program of full scale, study blasts in the mine. Features of the observed fragmentation are reviewed which related to controlled variation in the blast designs, together with other factors which were observed both to influence fragmentation characteristics and to interact with loading equipment productivity.  相似文献   

南沙群岛珊瑚礁灰岩的动态力学性能试验     

孟庆山  范超  曾卫星  余克服 《岩土力学》2019,40(1):183-190

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爆破荷载作用下露天矿边坡稳定性的突变研究     

周子涵  陈忠辉  王建明  张凌凡  年庚乾 《岩土力学》2020,41(3):849-857

基于二维斜坡平面滑动失稳力学模型,引入爆破荷载因素,建立了露天爆破荷载作用下岩质边坡失稳的尖点突变理论模型。根据建立的突变模型,探讨了爆破荷载幅值和爆破荷载频率对边坡稳定性的影响规律,导出了边坡的动态自稳临界高度,并提出了失稳的判据条件,结果表明：爆破荷载幅值越大,爆破荷载频率越小,后缘裂缝深度越大,边坡失稳的可能性越高;在爆破荷载作用下,边坡的稳定程度是动态变化的,且随着应力波入射角的增大,边坡失稳破坏的可能性不断提高。以大孤山露天矿内的两处边坡为例,计算了边坡的动安全系数及动态自稳临界高度,利用边坡当前实际的稳定情况验证了提出的边坡失稳判据的合理性,为预防露天矿爆破在开挖过程中边坡岩体的动力失稳提供了一定的理论支持。  相似文献   

Fractal models for the fragmentation of rocks and soils: a review   总被引：22，自引：0，他引：22  

E. Perfect 《Engineering Geology》1997,48(3-4):185-198

Fragmentation, the process of breaking apart into fragments, is caused by the propagation of multiple fractures at different length scales. Such fractures can be induced by dynamic crack growth during compressive/tensile loading or by stress waves during impact loading. Fragmentation of rocks occurs in resoonse to tectonic activity, percussive drilling, grinding and blasting. Soil fragmentation is the result of tillage and planting operations. Fractal theory, which deals with the scaling of hierarchical and irregur systems, offers new opportunities for modeling the fragmentation process. This paper reviews the literature on fractal models for the fragmentation of heterogeneous brittle earth materials. Fractal models are available for the fragmentation of: (1) classical aggregate; (2) aggregates with fractal pore space; and (3) aggregates with fractal surfaces. In each case, the aggregates are composed of building blocks of finite size. Structural failure is hierarchical in nature and takes place by multiple fracturing of the aggregated building blocks. The resulting number-size distribution of fragments depends on the probability of failure, P(1/bⁱ) at each level in the hierarchy. Models for both scale-invariant and scale-dependent are reviewed. In the case of scale-invariant P(1/bⁱ)< 1, theory predict: D_f = 3 + log [P(1/bⁱ)]/log[b] for classical aggregates; D_f=D_m+log[P(1/bⁱ)]/log[b] for aggregates with fractal pore space; and D_f=D_s for aggregates with fractal surfaces. where b is a scaling factor and D_f, D_m and D_s are the fragmentation, mass and surface fractal dimensions, respectively. The physical significance of these parameters is discussed, methods of estimating them are reviewed, and topics needing further research are identified.  相似文献   

冲击作用下的压头破岩机制研究     

杨岳峰  梁正召  唐春安 《岩土力学》2013,34(6):1775-1785

与静态岩石破碎过程相比,冲击作用下岩石的应力改变具有时间效应,应力波传播过程中表现出压、拉变化。基于损伤演化原理和有限元数值模拟方法,针对冲击荷载作用下的压头破岩机制进行了模拟分析。为排除边界上反射波的影响,黏弹性边界被纳入计算中。首先论证了黏弹性边界在均质和非均质介质中的计算精度,然后分析了冲击作用下不同均质度的岩石以及砂砾岩的响应规律,结果显示：在弹性情况下,压头与岩石接触边缘以及自由面附近是拉应力分布区,接触边缘拉应力最大。剪应力最高值并不位于接触面附近,而是离接触面有一定距离。较均质岩石主要呈现拉伸破坏模式,先出现赫兹裂缝,然后是径向裂缝和侧向裂缝,拉应力的产生成为诱发裂缝萌生和扩展的主因。当岩石均质度较低时,岩石的破坏形式呈现多元化,剪切破坏比重加大,表现为复杂的拉剪破坏模式。对于砾石粒径较大、含量较多的砂砾岩,砾石和基质的非均匀性不可忽略,冲击下破坏模式以绕粒环行和穿粒破坏为主。总体说来,对于岩石类准脆性材料,应力波传播过程中产生的拉应力是失稳的诱发和扩展的关键。  相似文献   

爆炸荷载下岩石损伤机理及其力学特性研究     

高文学  刘运通 《岩土力学》2003,(Z2)

基于所建立的反映岩石冲击压缩、拉伸损伤理论模型以及深孔微差爆破数值模拟结果,研究了爆炸载荷作用下岩石损伤演化和破碎规律,分析了岩石的动态力学特性;通过对水平边界条件下爆破破岩物理、力学过程的研究,探讨了深孔微差爆破的作用机制和爆破设计原则。  相似文献   

高静载条件下受频繁动力扰动时蛇纹岩动力学特性研究     

唐礼忠  程露萍  王春  舒计步  武建力  陈源 《岩土力学》2016,37(10):2737-2745

基于改进的分离式霍普金森压杆（SHPB）岩石动静组合加载试验系统,进行了在不同静力轴压条件下受频繁动力扰动作用的动力学试验,研究蛇纹岩在高静载下受频繁冲击扰动过程中的动态变形特性、动态峰值应力和应变、能量变化规律和岩石破坏模式等动力学特性。研究结果表明：高静载条件下受频繁冲击扰动作用时,在动态峰值应力前,动态应力与应变呈正相关关系,而在动态峰值应力后,出现变形回弹和不回弹两种现象;随着动力扰动次数的增加,岩石动态峰值应力减小、动态峰值应变增大、动态变形模量减小、岩石由释放能量向吸收能量方向转化;随着预加静力轴压的增大,单次冲击过程中岩石损伤加剧,岩石破坏需要的扰动冲击次数减少,同时岩石由拉伸破坏模式向压剪破坏模式转变,破坏块度由小变大、均匀度降低。试验结果对揭示深部岩体承受高地应力和频繁开挖爆破等动力扰动作用下的破坏机制具有重要意义,同时为工程实际中通过调整围岩静应力状态和爆破以提高围岩长期稳定性的可行性提供了室内试验支持。  相似文献   

Improvements in Blast Fragmentation Models Using Digital Image Processing     

J. Kemeny  E. Mofya  R. Kaunda  P. Lever 《Fragblast: International Journal for Blasting and Fragmentation》2002,6(3):311-320

One of the fundamental requirements for being able to optimise blasting is the ability to predict fragmentation. An accurate blast fragmentation model allows a mine to adjust the fragmentation size for different downstream processes (mill processing versus leach, for instance), and to make real time adjustments in blasting parameters to account for changes in rock mass characteristics (hardness, fracture density, fracture orientation, etc). A number of blast fragmentation models have been developed in the past 40 years such as the Kuz-Ram model [1]. Fragmentation models have a limited usefulness at the present time because: 1. The input parameters are not the most useful for the engineer to determine and data for these parameters are not available throughout the rock mass. 2. Even if the input parameters are known, the models still do not consistently predict the correct fragmentation. This is because the models capture some but not all of the important rock and blast phenomena. 3. The models do not allow for 'tuning' at a specific mine site. This paper describes studies that are being conducted to improve blast fragmentation models. The Split image processing software is used for these studies [2, 3].  相似文献   

Numerical simulation of the rock fragmentation process induced by two drill bits subjected to static and dynamic (impact) loading   总被引：3，自引：1，他引：2  

S. Y. Wang  S. W. Sloan  H. Y. Liu  C. A. Tang 《Rock Mechanics and Rock Engineering》2011,44(3):317-332

Rock fragmentation processes induced by double drill bits subjected to static and dynamic loading are examined by a numerical method. Micro-heterogeneities of the rock are taken into account in this numerical model. For the static case, the simulated results reproduce the progressive process of brittle rock fragmentation during indentation. For the dynamic case, numerical simulations represent radial cracks, incipient chips, pulverized zones, and shell cracks. Comparing the static and dynamic cases, the dynamic loading can lead to rock fragmentation more efficiently. In addition, numerical results indicate that the dynamic pressure (P _max) plays an important role in the failure process of specimens with two indenters. Furthermore, the heterogeneity of the rock can also affect the failure modes of the rock when two indenters are used. Finally, the numerical results demonstrate the effect of the spacing between the indenters on the rock.  相似文献   

Debris velocity of concrete structures subjected to explosive loading     

Kai Xu  Yong Lu 《国际地质力学数值与分析法杂志》2006,30(9):917-926

When designing above‐ground ammunition storage facilities, one has to take into account the debris hazard resulting from accidental explosions. The purpose of this paper is to develop a predictive method for debris dispersion around an ammunition storage site in case of an accidental detonation in a reinforced concrete storage structure. The concrete slabs/walls break up into debris when it is overloaded by the internal blast. The debris velocity is one of the important parameters to describe the debris dispersion. The parameters that affect the debris velocity are complex. This study adopts the energy approach to simplify the formulation. The failure process in a relatively thin concrete slab/wall is treated using the concept of expansion. Based on energy conservation, a general formula is derived for the debris launch velocity in a cubicle structure subjected to internal blast loading. The dynamic strength of concrete and reinforcement are considered in the fracture process. The analytical results are found to be consistent with the relevant experimental results. Copyright © 2006 John Wiley & Sons, Ltd.  相似文献   

A Further Study on the Mechanism of Airdecking     

W. Lu  W. Hustrulid 《Fragblast: International Journal for Blasting and Fragmentation》2003,7(4):231-255

Airdecking is used in mining for two quite different applications. One is to enhance the fragmentation by amplifying the induced fracturing and the second is for pre-split blasting in which the borehole fracturing is reduced. This paper deals with the first of these effects. A forth coming paper will describe pre-splitting by airdecking. The use of air decks to enhance rock fragmentation and so to reduce explosive costs has been the practice for quite long time. Although a number of studies has been conducted to verify the advantages of blasting with air decks and to investigate the mechanisms involved, the proposed mechanisms still cannot explain clearly the phenomena observed in practice and the design approach adopted for this kind of blasting is still primary based on rules-of-thumb. In this paper, the theory of shock tubes is adopted to (a) investigate the processes of the expanding detonation products, (b) study the interactions between the explosion products and the stemming or bottom of blasthole, and (c) to decide the distribution of the changing pressure of explosion products along blasthole. Numerical simulation and theoretical analyses are then performed to study the physical process of blasting with air decks. Finally, a reasonable value for the airdecking ratio is decided theoretically. It is shown that the pressure-unloading process caused by the propagation of the rarefaction wave and the reflected rarefaction waves in the detonation products plays an important role in the enhanced fragmentation of rock when blasting with air decks. The unloading process can induce tensile stresses of rather high magnitude in the rock mass surrounding blasthole. This favors fracturing of the rock. The reflected shock wave with a magnitude of gas pressure higher than that of the average detonation pressure in a fully charged blasthole acts as the main energy source to break the rock in the air deck and stemming portions. The second and succeeding strain waves induced by the unloading or reloading of the pressurewithin the blasthole also contribute to form the initial fracture network in the rock around the blasthole. It is also revealed that there exists a reasonable range of values for the airdecking ratio. For ANFO, this value varies from 0.13-0.40.  相似文献