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1.
根据工程的地域特点和工程的施工要求,分析了爆破挤淤技术的原理、参数的选择和可能造成的影响,提出了减小影响的措施,论证了合理地选择爆破参数、采用爆破挤淤技术的可行性。施工实践证明用爆破挤淤技术建设防浪堤是成功的。 相似文献
2.
对裂隙岩体的爆破破碎阻力特性进行了研究,提出了裂隙岩体爆破阻力矢量的概念和研究方法。以单元结构体作为主要研究对象,建立了爆破阻力矢量与岩体实际阻力矢量的关系模型。作为一种研究方法,它对裂隙岩体的爆破破碎的理论研究及施工技术的研究具有一定的实际意义。 相似文献
3.
本文对岩体爆破地质力学问题进行了论证。岩体的爆破性按岩体结构类型、地应力特征和爆破震动的影响可分为五类:1.极难爆(整体状结构);2.难爆(块状结构);3.中等(裂隙块状结构、碎裂结构);4.易爆(层状碎裂结构、软弱层状结构);5.极易爆(松散结构、松软结构)。 相似文献
4.
抛石爆破挤淤的过程主要分为4步。第1步是直接进行抛石挤淤;第2步是在堤头前方的淤泥内进行首次堤头爆破,使淤泥的强度降低,抛石和淤泥之间的平衡被打破,抛石向淤泥内滑移和下沉,直至达到新的平衡;第3步是补填后再次进行爆破,并依次循环;第4步是每50m进行一次侧爆。通过改变淤泥强度的方式来代替爆破作用,利用有限元数值模拟方法对这4个过程进行了模拟,在此基础上进行了挤淤效果的预测。通过工程实例,进行了理论预测与钻探、探地雷达实际检测结果的对比,证实数值模拟的结果是正确的。模拟结果表明经过抛石爆破挤淤4个步骤的处理,抛石最终会形成稳定的马蹄形海堤。 相似文献
5.
岩体爆生裂纹的数值模拟 总被引:3,自引:0,他引:3
利用广东岭澳核电站现场角岩岩体的基本动态力学特性和爆破参数,以及材料的Von Mises破坏准则,通过ANSYS/ LS-DYNA程序模拟了岩体单孔柱状装药的爆破破裂过程,分析了岩体爆破裂纹产生和扩展的机制,得到了岩体粉碎区和裂隙区的范围以及爆源近区岩体质点峰值压力的衰减规律。研究结果表明,岩体爆破粉碎区半径约为装药半径的6.5倍,裂隙区的半径约为装药半径的75倍,炸药起爆时粉碎区形成时间很短,大约为80 μs,而裂隙区的完全形成则需要较长的时间。 相似文献
6.
基于连续采矿的顶板诱导崩落技术,采用预裂爆破控制裂隙发展区间,强制崩顶爆破诱导顶板围岩裂隙发育、扩展,从而诱导顶板致裂失稳的可控崩落。然而在地下采空区顶板诱导致裂失稳崩落处理采空区过程中,预裂与崩顶爆破效果具有极大的隐蔽性,难以进行直观可视的评价。采用钻孔摄像系统,利用前视与全景可视技术,对顶板诱导爆破前钻孔形态和爆破的效果进行了探测,特别在爆破后的全景钻孔摄像,数字化描述了钻孔的裂隙特征,并通过钻孔摄像的图片分析评价了顶板诱导崩落爆破效果。全景探测的结果表明:(1)预裂爆破在顶板岩体中形成了清晰可见宽为20~40 mm的预裂缝,炮孔底部存在半个孔壁的预裂特征。(2)顶板围岩中产生了大量的次生诱导微裂隙带,裂隙交错呈“X”型,并且原生裂隙得到了扩展。(3)顶板诱导爆破实施后爆堆形状良好,大量裂隙发育以及碎裂岩体结构的形成有利于顶板的诱导可控崩落。 相似文献
7.
国华浙能宁海电厂围堤爆破挤淤影响区采用塑料排水板进行处理,按常规设计施工方法达不到处理效果,对处理方案进行了改进,加铺一层竹席,并加厚碎石层,取得了较好效果。 相似文献
8.
等离子爆破技术是一种新型爆破技术,其爆破孔的设计对整个爆破效果及爆破效率起着决定性的作用。本文基于ANSYS/LS-DYNA建立了爆破孔的有限元模型,并对爆炸荷载作用下掏槽孔孔壁压力及其破碎区进行了数值模拟。研究结果表明,爆破时畸变能的变化自始至终都基本呈椭圆形,孔径越小,积累的能量越大,对岩体破坏越大;孔深长度越短,能量积聚空间越小,爆破对岩体造成的破坏越大;孔深长度的改变对下部岩体影响较小,对中部岩体影响较大。此外由于爆炸实验多为破坏性实验,很难进行原型试验,因此使用数值模拟方法研究爆破孔的结构是可行的,可以作为实际工程的参考。 相似文献
9.
爆破工程地质控制论 总被引:1,自引:1,他引:1
爆破理论与技术的创新和发展,对我国爆破工程事业乃至基础设施建设都是十分重要的。在数十年爆破理论研究与生产实践的基础上,对爆破及其破岩的科学概念进行了定义,系统阐述了炸药能量特征、岩体介质特征、炸药能量与岩体介质相互作用等决定爆破作用机制和效果的因素及其相互关系,明确指出地质条件是爆破的基础,炸药能量特征必须与岩体介质特征来适应;基于岩体特性及其爆破特征,将自然岩体划分为似均匀连续体和不连续体两类。研究表明,在似均匀连续体中,岩体爆破作用机制和效果受微地形最小抵抗线控制;在不连续体中,受岩体结构特征控制。两者结合,形成了爆破工程地质控制论。 相似文献
10.
11.
地热对井运行系统中回灌井堵塞原因浅析及预防措施 总被引:1,自引:0,他引:1
人工回灌做为提高地热资源利用率、防止地面沉降、减少尾水排放、实现地热资源的可持续利用的最有效手段,已在地学界达成共识。基岩岩溶裂隙型热储对井回灌取得的良好效果使人们看到了回灌技术的广阔应用前景,但有些热储尤其是孔隙型热储回灌量的衰减问题一直未能得到彻底解决,各种因素引起的堵塞是主要原因。本文根据天津市历年的回灌试验,就造成地热回灌堵塞的多种原因进行了分析,并提出了可能的解决办法。 相似文献
12.
D. Thornton S. S. Kanchibotla I. Brunton 《Fragblast: International Journal for Blasting and Fragmentation》2002,6(2):169-188
Most blast fragmentation models assume the rock mass properties. explosive properties and blast design variables to be constants and uniformly distributed within a blast. However, in reality all these input variables vary within a blast resulting in variation in the resulting fragmentation size distribution. A stochastic modelling approach is introduced in this paper to quantify this variation. This technique takes the input variables as statistical distributions rather than constants and through several thousand iterations, generates a statistical representation of the expected fragmentation resulting from a poduction blast. A case study of three production blasts from a large open pit mine are presented and the modelled fragmentation 'envelope' shows good agreement with the fragmentation 'envelope' estimated from Split image analysis. The various blast-related parameters influence different parts of the fragmentation distribution, e.g., rock strength and explosive velocity of detonation have most impact on the fines. The technique is used to identify the parameters that have the greatest influence on various size fractions. Such an analysis will be useful to direct resources to efficiently minimise the variation. 相似文献
13.
Manoj Khandelwal 《Geotechnical and Geological Engineering》2012,30(1):205-217
The purpose of this article is to evaluate and predict the blast induced ground vibration using different conventional vibration
predictors and artificial neural network (ANN) at a surface coal mine of India. Ground Vibration is a seismic wave that spread
out from the blast hole when detonated in a confined manner. 128 blast vibrations were recorded and monitored in and around
the surface coal mine at different strategic and vulnerable locations. Among these, 103 blast vibrations data sets were used
for the training of the ANN network as well as to determine site constants of various conventional vibration predictors, whereas
rest 25 blast vibration data sets were used for the validation and comparison by ANN and empirical formulas. Two types of
ANN model based on two parameters (maximum charge per delay and distance between blast face to monitoring point) and multiple
parameters (burden, spacing, charge length, maximum charge per delay and distance between blast face to monitoring point)
were used in the present study to predict the peak particle velocity. Finally, it is found that the ANN model based on multiple
input parameters have better prediction capability over two input parameters ANN model and conventional vibration predictors. 相似文献
14.
工程爆破中径向水不耦合系数效应数值仿真 总被引:7,自引:0,他引:7
在实际工程爆破中,水不耦合炮孔是较常见的,其中水不耦合装药系数是影响爆破效果的关键因素之一。该系数取不同的值,将产生不同的应力波传播机理以及介质的损伤破坏程度。以往的研究主要集中于理论解析法和模型试验法。基于大型非线性动力分析软件LS-DYNA,采用著名的混凝土损伤Johnson-Holmquist-Concrete模型,针对无限混凝土介质水不耦合装药爆破中不同径向耦合系数Kd,展开了对比数值计算,综合分析了损伤破坏区分布和孔壁压力、加速度以及速度等与径向不耦合系数间的关系,得出的结论具有一定的参考价值。 相似文献
15.
Seismic events can take place due to the interaction of stress waves induced by stope production blasts with faults located in close proximity to stopes. The occurrence of such seismic events needs to be controlled to ensure the safety of the mine operators and the underground mine workings. This paper presents the results of a dynamic numerical modelling study of fault slip induced by stress waves resulting from stope production blasts. First, the calibration of a numerical model having a single blast hole is performed using a charge weight scaling law to determine blast pressure and damping coefficient of the rockmass. Subsequently, a numerical model of a typical Canadian metal mine encompassing a fault parallel to a tabular ore deposit is constructed, and the simulation of stope extraction sequence is carried out with static analyses until the fault exhibits slip burst conditions. At that point, the dynamic analysis begins by applying the calibrated blast pressure to the stope wall in the form of velocities generated by the blast holes. It is shown from the results obtained from the dynamic analysis that the stress waves reflected on the fault create a drop of normal stresses acting on the fault, which produces a reduction in shear stresses while resulting in fault slip. The influence of blast sequences on the behaviour of the fault is also examined assuming several types of blast sequences. Comparison of the blast sequence simulation results indicates that performing simultaneous blasts symmetrically induces the same level of seismic events as separate blasts, although seismic energy is more rapidly released when blasts are performed symmetrically. On the other hand when nine blast holes are blasted simultaneously, a large seismic event is induced, compared to the other two blasts. It is concluded that the separate blasts might be employed under the adopted geological conditions. The developed methodology and procedure to arrive at an ideal blast sequence can be applied to other mines where faults are found in the vicinity of stopes. 相似文献
16.
B. A. Cheeseman S. Wolf C. F. Yen R. Skaggs 《Fragblast: International Journal for Blasting and Fragmentation》2006,10(1):1-8
Shallow buried explosives pose a significant threat to lightweight vehicles and their onboard personnel. To date, designers of lightweight vehicles are limited in their knowledge of what occurs during the blast. The high intensity, short term loading imparted by the explosion is enormously complex and can be significantly affected by a number of parameters including the size, shape, type, detonation point and depth of burial (DOB) of the explosive and the type, density and water content of the soil. Recent advancements in numerical simulations have enabled the complex blast event to be accurately modelled by coupling Eulerian and Lagrangian analyses: the former is well suited to modelling the blast and while the latter, the structural response. Further validation of the modelling technique is considered in the current paper, which details simulations performed utilising the coupled Eulerian-Lagrangian analysis to study the blast output of explosives buried in saturated sand. These experiments varied explosive charge size, its depth of burial, the target stand-off (SO) distance and the dimensions of the target plate. The investigation concludes with a discussion of the accuracy of the numerical simulations when compared with the experimental observations. 相似文献
17.
Nan Jiang Chuanbo Zhou Shiwei Lu Zhen Zhang 《Geotechnical and Geological Engineering》2018,36(3):1475-1489
Investigating the propagation and attenuation of blast vibration in rock slopes is the key point to assess the influence of underground mine blasting on overlaying open pit slopes stability and determining the potential risk. In this paper, Daye Iron Mine in China has been chosen as the case to study the effect of blast vibrations on overlaying open pit slopes due to underground mine blast. Firstly, the characteristics of blast loadings are analyzed by the dynamic finite element method. Then, a three dimensional (3D) numerical model of the open pit and the underground mine is made, which is verified by the field monitoring data to prove its reliability. The effect of blast vibration on overlaying open pit slope due to underground mine blasting are discussed based on the peak particle velocity (PPV) and the peak effective tensile stress (PETS) distribution characteristics which are calculated and analyzed by inputting the obtained blast vibration data into the numerical model. The results show that the effect of present mining blasting on the stability of pit slopes are limited because the simulated maximum PPV and PETS of monitoring point on slopes are all < 0.747 cm/s and 0.738 MPa. At last, according to numerical simulations of the underground mine blasting, the PPV predicting formulas for the slopes in Daye Open Pit Iron Mine is proposed based on the classic Sadaovsk formula. 相似文献
18.
G. F. Brent G. E. Smith G. N. Lye 《Fragblast: International Journal for Blasting and Fragmentation》2002,6(2):189-206
Wall control blasting practices arc necessary to reduce the impact of blasting on mine faces but can also have a significant negative impact on mine productivity and operating costs. The conventional practice in deep open pit mines is to use so-called trim blasts adjacent to pit walls. To provide burden relief these trim blasts have fewer rows than full production blasts and are fired to a cleared free-face: hence they are termed 'unchoked.' This practice leads to scheduling constraints on the pit operations and can cause ore dilution due to excessive muckpile movement. The use of such trim blasts stems from the perception that increased wall damage results from 'choked' blasts. These concerns are based on the unproven assumptions that blast vibration levels and explosive gas penetration increase with increased blast burden and face confinement. This paper describes work undertaken as part of a major investigation into wall control blasting at the KCGM Fimiston Mine, Kalgoorlie, Western Australia. It details a study to assess damage effects due to blast burden. Borehole air pressure measurements and borehole video camera inspections owere done behind a series of single blastholes drilled owith varying burden distances, as owell as behind a dedicated trim blast and a full production blast. It was found that the measured damage effects, including visible rock cracking, dilation, and the limited extent of gas penetration behind the blastholes, did not vary significantly with burden or blast type for the cases tested. This result was in complete agreement with detailed vibration measurements conducted by Blair and Armstrong [1] during the study, which found that vibration was independent of blast burden. As a result of these investigations, changes to the blasting practices at the mine were implemented. Dedicated trim blasts and free-face blasting have been replaced by modified production blasts and the practice of 'choking' blasts has been introduced. This has resulted in a significant improvement in productivity and cost savings without compromising pit wall integrity. 相似文献
19.
把能够体现岩体在冲击载荷作用下的响应特点及损伤演化的各向异性特征的损伤模型嵌入到有限元软件中,模拟了含有预制裂纹的水泥砂浆试块在爆炸载荷作用下的损伤特征。模拟结果表明,在爆炸近区产生一个损伤“重灾区”,并可根据模拟结果确定“重灾区”及爆炸损伤的范围,模拟结果与试验结果基本一致。模拟方法可以为岩土工程中经历过爆炸损伤岩体的稳定性研究提供理论依据。 相似文献
20.
In the present study, the two-dimensional blast model has been simulated using finite element software Abaqus/CAE. The John–Wilkins–Lee equation of state has been used to calculate the pressure caused by the release of the chemical energy of the explosive. Detonation point from center of hole has been defined for the traveling path of explosive energy. Elastoplastic dynamic failure constitutive with kinematic hardening model was adopted for rock mass responses under high explosive pressure to understand the mechanism of blast phenomena. In this model, it is assumed that failure of rock occurs under tensile failure when yield plastic stress exceeded to its static tensile strength. The hydrostatic pressure was used as a failure measure to model dynamic spall or a pressure cut off. Variation of detonation velocity has been measured in terms of simulation blast output energies index results. 相似文献