【会议文集】第十二届国际爆破破岩学术会议论文集目录
发布时间:
2018-07-04 00:00
来源:
1. Automation and introduction of new technologies in blasting operations(爆破施工新技术及自动化)
(1)A review of dam foundation excavation techniques in China(中国坝基开挖技术综述)
(2)Building inexpensive accelerometer-based seismographs(基于加速度计的廉价地震仪的研制)
(3)The study on remote monitoring management information system of rotary drill(旋挖钻机远程监控信息系统的研究)
(4)Present situation and prospect of blasting safety supervision(爆破安全监控的现状及前景)
(5)Lowering cost of mining with true wireless detonators, the latest initiation innovation(无线雷管起爆降低采矿成本新技术研究)
(6)Blasting technique for optimizing the comprehensive cost of mining and mineral processing (优化采矿和选矿综合成本的爆破技术)
(7)Prediction of run of mine particle size distribution and grinding circuit performance using blast hole drilling data(基于钻孔数据对矿山粒度分布和磨削回路性能的预测)
2. Blast damage(爆破损伤)
(1)Estimation of blast Induced damage of saturated rib-pillars in large diameter blast hole (LDBH) stope(大孔径矿场中饱和矿柱爆破损伤的预测)
(2)An experimental investigation of fracture patterns near a blasthole in cylinders of granite under different radial confinements(不同径向围压下花岗岩柱内炮孔附近断裂模式的试验研究)
(3)Estimation of tensile strength of Laurentian granite under high strain rate loading(Laurentian花岗岩在高应变加载率下抗拉强度的估算)
(4)Near-field energy distribution in wall control blasting - an engineering approach(一种基于近区能量分布的边墙控制爆破方法)
(5)Assessment and control of backbreak using near-field vibration signatures in Dragline bench blasting(拉铲台阶爆破中基于近场振动信号对超欠挖的预测和控制)
(6)Measurement while drilling technique in blasting damage calculation(爆破损伤计算中的随钻监测技术)
(7)Analysis on components and characteristics of seismic waves induced by horizontal smooth blasting(水平光爆诱发地震波的成分构成及特性分析)
(8)Evaluation of the impact of blast induced vibrations on human habitat at the excavation of a huge dam foundation in China(中国某大型坝基开挖爆破诱发的振动对附近房屋及居民的影响评价)
(9)Overbreak in underground excavations - some key insights(关于地下爆破中超挖的几个关键问题)
(10)Impact of blasting on surrounding rock mass properties(爆破对围岩性能的影响研究)
3. Blast design and drilling accuracy(爆破设计和钻孔精度)
(1)Application of an in-house MWD system for quarry blasting(室内随钻监测系统在采石爆破中的应用)
(2)The use of 3D accelerometer – and gyro sensors in smartphones to measure the blasthole deviation in non-magnetic rock(基于三维加速度计和陀螺传感器在智能手机中对非磁性岩石中炮孔偏差的监测)
(3)Role of blasting in assisting with value-based ore control in underground mines(爆破在地下矿石开采成本控制中的作用)
4. Blast vibration predictions and blasting in built-up areas(爆破振动预测和建筑区爆破)
(1)Digital filters for A, B, and C frequency weighting for sound level data(声级数据中关于A、B、C频率权重的数字滤波器)
(2)Response spectra for vibration and shock loads(振动和冲击荷载的响应谱分析)
(3)Blast design for underground long hole stope to safeguard surface industrial structures from blast induced vibration(为控制地表工业建筑振动的地下采矿深孔爆破设计优化)
(4)Vibration modelling and mechanisms for wall control blasting (边墙控制爆破中的振动模拟及其机理)
(5)Characteristics of blasting vibration induced by tunnel rock excavation under high in-site stress(高地应力区隧洞开挖爆破诱发的振动特性)
(6)Do different standards for blasting seismographs mean different accuracy?(爆破地震仪的不同标准是否意味着不同的精度?)
(7)Blasting excavation technologies of a sandstone deep foundation pit under complex urban environment(复杂城市环境下砂岩深基坑的爆破开挖技术)
(8)Research on crack propagation rule in single hole bench blasting based on rock mesostructured(基于岩石细观结构的单孔台阶爆破裂纹扩展规律研究)
(9)Dynamic responses of adjacent building induced by blasting demolition: a case study in Wuhan, China(爆破拆除过程中临近建筑的动力响应:中国武汉的一个案例分析)
(10)Study on the influence of long term frequent blasting vibration on buildings and human body(长期频繁爆破振动对建筑物和人体的影响研究)
(11)Development of random forests and Cubist models for predicting blast-induced ground vibrations(随机森林算法和立体模型在爆破振动预测中的应用)
5. Blasting methods that improve tunnelling and drifting(改善隧道掘进的爆破方法)
(1)Solution of emulsion explosive misfire in soft rock tunnel(软岩隧洞中乳化炸药拒爆的解决方案)
6. Blasting, loading, hauling and crushing; systems approaches and economy(爆破、装运和二次破碎的一体化技术与经济分析)
(1)Blasting Vs Crushing and Additional Grinding – Pro’s and Con’s(先进的爆采技术和常规的附加研磨破碎之间的对比分析)
(2)A pit to gate multivariable cost control model(多变量成本控制模型)
(3)Productivity improvement in Aggregate Quarry vis-a-vis Fragmentation by Blasting(爆破破碎对提高骨料场生产效率的作用)
(4)Improving Downstream Performance Through a Highly Flexible Energy Explosive(通过调节能量密度以提高爆后工序效率)
(5)Applied data analytics on blast-induced outcomes using multi-year blasting data from an operational open pit mine(基于露天矿多年应用数据的爆破产出分析)
(6)Effect on comminution properties of blast preconditioned magnetic mortar(爆炸预处理对磁化砂浆破碎性能的影响)
7. Demolition blasting and special blasting techniques(拆除爆破及特种爆破技术)
(1)Safe dismantling of unstable boulder using controlled blasting in the historical Town of Gaya, India(印度Gaya古镇采用控制爆破技术对不稳定巨石的安全拆除)
8. Explosive performance: from detonics to rock on the ground(炸药性能:从爆炸学到地表岩石)
(1)Emulsion characterization with cylinder test and JWL parameters determination(基于圆筒试验表征乳化炸药的特性及JWL参数的确定)
(2)Continuous Wavelet Transforms - A Way to Tease Explosive Performance From Seismograms(一种基于连续小波变化从地震记录中梳理炸药性能的方法)
(3)A Relationship Between Detonation Performance and Low Density Explosive Physical Properties(低密度炸药的物理特性与其爆轰性能之间的关系)
(4)Calibration and Validation of Reactive Flow Model Parameters for an emulsion explosive(乳化炸药反应流动模型参数的标定与验证)
9. Mass blasts in surface and underground operations(地表和地下的大规模爆破)
(1)Present-day sublevel caving functionality uncovered – what`s next?(当前分段崩落法的功能解读——下一阶段?)
10. Mechanics of dynamic rock blasting(岩石爆破动力学)
(1)Filming blast fragmentation of rock and mortar cylinders(岩石和砂浆柱爆破破碎的拍摄)
(2)Proposed improvements for single blasthole test reporting methodology and observations from tests in rock salt mines(对单孔爆破试验报告方法的改进建议及岩盐矿的试验观测结果)
(3)Experimental and numerical investigation on rock fragmentation under combined blastholes with different diameters(不同孔径联合布孔条件下爆破破岩效果数值模拟与试验研究)
(4)Investigation of blasting safety control of high rock slope with joints(高陡节理边坡爆破安全控制研究)
(5)Experimental and numerical investigations of dynamic failure process in rock under air decoupling charge blasting(非耦合装药爆破中岩石动态失效过程的试验和数值模拟研究)
(6)Numerical simulation of rock mass damage by pressure-relief blasting in deep metal mine(深部金属矿减压爆破对岩石损伤的数值模拟研究)
(7)Rock fracture and fragmentation, and derivation of improved crushing rate indices: an alternate approach(一种关于岩石断裂和破碎的改进的破碎率指数推导方法)
11. New products and development(新产品与新发展)
(1)Present and future prospect of exploder for underground coal mines of India(印度地下煤矿中引爆装置的现状及展望)
(2)The class 3 permissible water gel explosive with high-strength and its tunneling blasting in underground coal mine(3级高强度水凝胶炸药及其在地下煤矿隧道爆破中的应用)
12. Numerical simulations of rock blasting: from detonation to rock on the ground(岩石爆破数值模拟:从炸药爆轰到地表岩石)
(1)Modeling VoD effects on rock fragmentation within multiple blasthole fragmentation (MBF) model(多孔破碎模型中模拟炸药爆速对岩石破碎效果的影响)
(2)Modelling blast fragmentation of cylinders of mortar and rock(砂浆和岩石柱的爆破破碎模拟)
(3)A FEM-SPH coupled procedure for the analysis of blast induced damage in rock(基于FEM-SPH耦合程序对岩石爆破损伤的分析)
(4)An engineering model to estimate blast movement and resulting ore loss and dilution(一种用于预测爆破运动及相应矿石损失与贫化的工程模型)
(5)Comparison between coupled SPH-FEM numerical model of a single hole blast and experimental test(单孔爆破SPH-FEM耦合模型模拟与试验比较)
(6)Numerical investigation for timing effects on fragmentation based on a coupled FEM-BPM-PBM model(耦合FEM-BPM-PBM数值模型中延迟时间对破碎效果的影响研究)
13. Rock fragmentation: monitoring, instrumentation, techniques and analysis(岩石破碎:监测,仪器设备,技术方法和分析)
(1)The influence of blasthole standard deviation (BSD) on fragmentation(钻孔误差对破碎效果的影响)
(2)Study on the influence of precise delay blasting on rock fragmentation(精确延迟爆破对岩石破碎效果的影响研究)
(3)The fragmentation-energy fan applied to blasting and drop weight comminution of rock(爆破和落锤破碎岩石的破碎-能量函数)
(4)Determining the size distribution of fragmented rocks by blasting using GLCMs textural features of images and neural network(基于GLCMs图像纹理特征和神经网络对爆破破碎岩块尺寸分布的确定)
(5)Flattening of hill by blasting in densely populated area for construction of international airport at Navi Mumbai, India(印度Navi Mumbai国际机场建设过程中人口密集区的夷平山丘爆破)
(6)Pre-split blasting techniques at Dragline benches for stable bench with improved fragmentation level(预裂爆破技术在控制拉铲台阶稳定及改善破碎效果中的应用)
(7)Evaluation of UAV System Accuracy for Automated Fragmentation Measurement(自动破碎测量无人机系统的精度评价)
(8)Pattern Expansion Optimization Model based on fragmentation analysis with Drone Technology(基于无人机碎片分析的模式扩展优化模型)
(9)Investigation of the rock blast fragmentation based on the specific explosive energy and in-situ block size(基于特定的爆炸能量和现场块体尺寸对岩石破碎的研究)
(10)Analysis and interpretation of LiDAR data in determination of fragmentation(对雷达监测数据在确定破碎块度中的分析和解读)
14. Sustainable blasting techniques: reduction of environmental footprints(爆破技术可持续性:减少对环境的影响)
(1)Making economically viable the exploitation by D&B in a quarry within sensitive, highly populated area(敏感及人口高度密集区钻爆开采的经济可行性研究)
(2)Implementation of 100% used oil to replace fuel oil in emulsion manufacturing for energy conservation at PT. Kaltim Prima Coal(基于废机油100%代替燃油生产乳化炸药的方法来减少PT. Kaltim Prima煤矿能耗的研究)
(3)SLIM: Technology for blasting to improve mining(SLIM:改善采矿可持续性的爆破技术)
15. Case studies(案例研究)
(1)Design and implementation improvements for wall control blasting in an anisotropic rock mass at the Phu Kham Copper-Gold Operation(Phu Kham铜-金矿各项异性岩体开挖中边墙控制爆破的设计与改进)
(2)Application of Power Deck in wet condition, case study: Goharzamin iron ore mine(潮湿环境下柔性垫层的应用,案例研究:Goharzamin铁矿)
(3)Optimization of blast design for an armor stone quarry – a case study(护面石采石场的爆破设计优化:案例研究)
(武汉大学 卢文波 中国爆破行业协会国际交流部 宋文峰)