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High strain rate compressive strength behavior of cemented paste backfill using split Hopkinson pressure bar 被引量:7
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作者 Xin Chen Xiuzhi Shi +3 位作者 Jian Zhou Enming Li Peiyong Qiu Yonggang Gou 《International Journal of Mining Science and Technology》 SCIE EI CAS CSCD 2021年第3期387-399,共13页
The stability of cemented paste backfill(CPB)is threatened by dynamic disturbance,but the conventional low strain rate laboratory pressure test has difficulty achieving this research purpose.Therefore,a split Hopkinso... The stability of cemented paste backfill(CPB)is threatened by dynamic disturbance,but the conventional low strain rate laboratory pressure test has difficulty achieving this research purpose.Therefore,a split Hopkinson pressure bar(SHPB)was utilized to investigate the high strain rate compressive behavior of CPB with dynamic loads of 0.4,0.8,and 1.2 MPa.And the failure modes were determined by macro and micro analysis.CPB with different cement-to-tailings ratios,solid mass concentrations,and curing ages was prepared to conduct the SHPB test.The results showed that increasing the cement content,tailings content,and curing age can improve the dynamic compressive strength and elastic modulus.Under an impact load,a higher strain rate can lead to larger increasing times of the dynamic compressive strength when compared with static loading.And the dynamic compressive strength of CPB has an exponential correlation with the strain rate.The macroscopic failure modes indicated that CPB is more seriously damaged under dynamic loading.The local damage was enhanced,and fine cracks were formed in the interior of the CPB.This is because the CPB cannot dissipate the energy of the high strain rate stress wave in a short loading period. 展开更多
关键词 High strain rate Compressive strength behavior Cemented paste backfill split hopkinson pressure bar TAILINGS
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Water‑immersion softening mechanism of coal rock mass based on split Hopkinson pressure bar experiment 被引量:2
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作者 Zhiyuan Liu Gang Wang +4 位作者 Jinzhou Li Huaixing Li Haifeng Zhao Hongwei Shi Jianli Lan 《International Journal of Coal Science & Technology》 EI CAS CSCD 2022年第4期122-134,共13页
The coal mining process is afected by various water sources such as groundwater and coal seam water injection.Understanding the dynamic mechanical parameters of water-immersed coal is helpful for coalmine safe product... The coal mining process is afected by various water sources such as groundwater and coal seam water injection.Understanding the dynamic mechanical parameters of water-immersed coal is helpful for coalmine safe production.The impact compression tests were performed on coal with diferent moisture contents by using theϕ50 mm Split Hopkinson Pressure Bar(SHPB)experimental system,and the dynamic characteristics and energy loss laws of water-immersed coal with diferent compositions and water contents were analyzed.Through analysis and discussion,it is found that:(1)When the moisture content of the coal sample is 0%,30%,60%,the stress,strain rate and energy frst increase and then decrease with time.(2)When the moisture content of the coal sample increases from 30%to 60%,the stress“plateau”of the coal sample becomes more obvious,resulting in an increase in the compressive stress stage and a decrease in the expansion stress stage.(3)The increase of moisture content of the coal sample will afect its impact deformation and failure mode.When the moisture content is 60%,the incident rod end and the transmission rod end of the coal sample will have obvious compression failure,and the middle part of the coal sample will also experience expansion and deformation.(4)The coal composition ratio suitable for the coal immersion softening impact experiment is optimized. 展开更多
关键词 Coal immersion softening Dynamic compressive response split hopkinson pressure bar Softening mechanism model
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Dynamic property evaluation of aluminum alloy 2519A by split Hopkinson pressure bar 被引量:11
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作者 张新明 李惠杰 +4 位作者 李慧中 高慧 高志国 刘瑛 刘波 《中国有色金属学会会刊:英文版》 EI CSCD 2008年第1期1-5,共5页
Impact behavior of aluminum alloy 2519A was investigated at strain rates of 600-7 000 s-1 and temperatures of 20-450 ℃ by a split Hopkinson pressure bar. The results show that the flow stress is dominated by temperat... Impact behavior of aluminum alloy 2519A was investigated at strain rates of 600-7 000 s-1 and temperatures of 20-450 ℃ by a split Hopkinson pressure bar. The results show that the flow stress is dominated by temperature, and it increases with strain rate and decreases with deformation temperature. The serrated flow curves show the dynamic recrystallization occurs. The strain rate sensitivity exponents m determined are 0.066, 0.059 4, 0.059 0 and 0.057 3 at 20, 150, 300 and 450 ℃, respectively. Cowper- Symonds constitutive equation expressing the plastic flow behavior was calculated by analysis and regression of the experimental results. The fracture characteristics under the experimental conditions were observed by optical microscopy(OM) and scanning electron microscopy(SEM). It is determined that the tested material fails as a result of adiabatic shearing. 展开更多
关键词 铝合金2519A 动力再结晶 应变速率 绝热性能
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Calibration of split Hopkinson pressure bar system with special shape striker 被引量:1
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作者 周子龙 洪亮 +1 位作者 李启月 刘志祥 《Journal of Central South University》 SCIE EI CAS 2011年第4期1139-1143,共5页
In order to present basic guidance for system calibration of split Hopkinson pressure bar(SHPB) with the special shape striker,wave characteristics and dynamic responses of SHPB under striker impact were analyzed.Stre... In order to present basic guidance for system calibration of split Hopkinson pressure bar(SHPB) with the special shape striker,wave characteristics and dynamic responses of SHPB under striker impact were analyzed.Stress generated by the special shape striker tends to have a half-sine waveform and has little wave dispersion during its propagation.Impact velocities of the special shape striker and peak values of generated stress still have linear relation but with a different coefficient from that of cylindrical strikers.From stress histories on the surfaces of the input bar impacted by the special shape striker off-axially and obliquely,it is found that the misalignment impacts usually trigger wave distortion and amplitude decrease,which can be used to identify the poor system adjustment.Finally,the system calibration of SHPB with the special shape striker can be classified into four steps:system adjustment,wave distortion identification,measurement calibration and transmission calibration,where the measurement calibration factor and transmission calibration factor are elaborated and redefined. 展开更多
关键词 split hopkinson pressure bar special shape striker system calibration misalignment impact
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Study on Interface Friction Model for Engineering Materials Testing on Split Hopkinson Pressure Bar Tests 被引量:1
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作者 Yubin Lu Songyan Zhang 《Modern Mechanical Engineering》 2013年第1期27-33,共7页
Split Hopkinson pressure bar (SHPB) has become a frequently used technique to measure the uniaxial compressive stress-strain relation of various engineering materials at high strain-rates. The accuracy of an SHPB test... Split Hopkinson pressure bar (SHPB) has become a frequently used technique to measure the uniaxial compressive stress-strain relation of various engineering materials at high strain-rates. The accuracy of an SHPB test is based on the assumption of uniaxial and uniform stress distribution within the specimen, which, however, is not always satisfied in an actual SHPB test due to the existence of some unavoidable negative factors, e.g., interface friction constrains. Kinetic interface friction tests based on a simple device for engineering materials testing on SHPB tests are performed. A kinetic interface friction model is proposed and validated by implementing it into a numerical model. It shows that the proposed simple device is sufficient to obtain kinetic interface friction results for common SHPB tests. The kinetic friction model should be used instead of the frequently used constant friction model for more accurate numerical simulation of SHPB tests. 展开更多
关键词 KINETIC INTERFACE Friction Model SLIDING Velocity Contact split hopkinson pressure Bar (shpb) ENGINEERING Materials
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Approach to minish scattering of results for split Hopkinson pressure bar test 被引量:1
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作者 李夕兵 周子龙 赵阳升 《Journal of Central South University of Technology》 EI 2007年第3期404-407,共4页
Split Hopkinson pressure bar(SHPB) apparatus, usually used for testing behavior of material in median and high strain-rate, is now widely used in the study of rock dynamic constitutive relation, damage evolvement me... Split Hopkinson pressure bar(SHPB) apparatus, usually used for testing behavior of material in median and high strain-rate, is now widely used in the study of rock dynamic constitutive relation, damage evolvement mechanism and energy consumption. However, the possible reasons of sampling disturbance, machining error and so on often lead to the scattering of test results, and bring ultimate difficulty for forming general test conclusion. Based on the stochastic finite element method, the uncertain parameters of specimen density ps, specimen radius Rs, specimen elastic modulus Es and specimen length Ls in the data processing of SHPB test were considered, and the correlation between the parameters and the test results was analyzed. The results show that the specimen radius Rs has direct correlation with the test result, improving the accuracy in preparing and measuring of specimen is an effective way to improve the accuracy of test and minish the scattering of results for SHPB test. 展开更多
关键词 split hopkinson pressure bar test data scattering stochastic finite element method(SFEM)
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Testing of High-Strength Zr-Based Bulk Metallic Glass with the Split Hopkinson Pressure Bar
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作者 薛云飞 才鸿年 +2 位作者 王鲁 张海峰 程焕武 《Journal of Beijing Institute of Technology》 EI CAS 2008年第1期109-114,共6页
The split Hopkinson pressure bar (SHPB) was used to determine the dynamic compressive strength of the high-strength Zr38Ti17Cu10.5Co12Be22.5 bulk metallic glass at strain rate on the order of 102 s^-1. It is shown t... The split Hopkinson pressure bar (SHPB) was used to determine the dynamic compressive strength of the high-strength Zr38Ti17Cu10.5Co12Be22.5 bulk metallic glass at strain rate on the order of 102 s^-1. It is shown that at high strain rates beyond about 1 000 s^-1, uniform deformation within the metallic glass specimen could not be achieved and dispersion in the transmitted pulse can lead to discrepancies in measuring the dynamic failure strength of the present Zr-based bulk metallic glass. Based on these reasons, a copper insert was placed between the strike bar and the input bar to obtain reliable and consistent experimental data for testing of the Zr38Ti17Cu10.5Co12Be22.5 bulk metallic glass using the SHPB. Negative strain rate sensitivity was found in the present Zr-based bulk metallic glass. 展开更多
关键词 bulk metallic glasses split hopkinson pressure bar shpb dynamic compression strain rate
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不同含水率红陶土的SHPB动力学性能实验
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作者 解北京 武博文 +3 位作者 刘天乐 栾铮 张景顺 于瑞星 《科学技术与工程》 北大核心 2024年第22期9529-9534,共6页
为研究动态加载下红陶土的动态力学特性,利用分离式霍普金森压杆系统,开展了含水率分别为5%、7%、9%、11%、13%和15%,冲击速度分别为6、8、10 m/s,分析了不同含水率和应变率条件下红陶土的动力学特性。结果表明:随着冲击速度的增大,红... 为研究动态加载下红陶土的动态力学特性,利用分离式霍普金森压杆系统,开展了含水率分别为5%、7%、9%、11%、13%和15%,冲击速度分别为6、8、10 m/s,分析了不同含水率和应变率条件下红陶土的动力学特性。结果表明:随着冲击速度的增大,红陶土应变率效应显著;在冲击荷载作用下,红陶土的动态应力-应变关系曲线随加载应变率提高呈现2种曲线类型,分别为脆-塑性破坏和脆性破坏,随着应变率的增加,红陶土破坏过程由塑-脆性破坏逐转变为脆性破坏;红陶土的抗压强度、动态弹性模量均随应变率的增大而增加,并随着含水率的增大先减小后增大。 展开更多
关键词 红陶土 动态力学特性 冲击荷载 shpb(split hopkinson pressure bar)
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基于广义波阻抗理论的SHPB试验中弹性压缩阶段试件应力-应变曲线的应力波效应及其影响机理
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作者 高光发 《爆炸与冲击》 EI CAS CSCD 北大核心 2024年第9期98-111,共14页
定量研究分离式霍普金森压杆(split Hopkinson pressure bar,SHPB)试验中弹性压缩阶段试件中的应力波效应是解耦准确材料弹性曲线的基础。在满足平面波假设的基础上,基于广义波阻抗理论,对杆与试件面积不匹配时试件弹性压缩阶段应力波... 定量研究分离式霍普金森压杆(split Hopkinson pressure bar,SHPB)试验中弹性压缩阶段试件中的应力波效应是解耦准确材料弹性曲线的基础。在满足平面波假设的基础上,基于广义波阻抗理论,对杆与试件面积不匹配时试件弹性压缩阶段应力波演化造成的结构效应开展了定量理论研究,分析了不同情况下弹性阶段内试件唯象工程及实际材料应力-应变曲线的偏差特征与主要因素,并揭示了影响这种偏差的影响规律及其机理。研究表明:对于线性入射加载波,当无量纲时间为0.5的倍数时,即使其他参数改变,试件唯象与材料实际的应力-应变曲线仍对应相等;试件两端的应力差较大时,若应力差的变化趋于稳定,则试件唯象与材料实际的应力-应变曲线差异较小。计算了不同波动区间内试件的最大应力偏离值及其变化趋势和对应的无量纲时间,研究了入射波是双线性组合波时试件的应力-应变曲线。研究表明:双线性波入射时,2个线性区间可以独立分析,无论如何组合线性区间或应力差如何变化,只要试件两端应力差为近似恒定曲线,对应的试件唯象工程应力-应变曲线都是相对准确的。 展开更多
关键词 分离式霍普金森压杆 应力波效应 应力均匀性假设 动态应力-应变曲线
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基于SHPB试验的碳纳米管增强混凝土动态压缩行为研究
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作者 夏伟 陆松 +3 位作者 白二雷 赵德辉 许金余 杜宇航 《爆炸与冲击》 EI CAS CSCD 北大核心 2024年第10期36-46,共11页
为探究碳纳米管增强混凝土在冲击荷载作用下的动态压缩行为,采用?100 mm大直径分离式霍普金森压杆(split Hopkinson pressure bar,SHPB)对其进行了冲击试验,对比分析了不同冲击速度和碳纳米管掺量条件下混凝土的动态抗压强度、受压形变... 为探究碳纳米管增强混凝土在冲击荷载作用下的动态压缩行为,采用?100 mm大直径分离式霍普金森压杆(split Hopkinson pressure bar,SHPB)对其进行了冲击试验,对比分析了不同冲击速度和碳纳米管掺量条件下混凝土的动态抗压强度、受压形变以及能量耗散特征的演化规律。试验结果表明:碳纳米管增强混凝土的动态强度特性具有显著的加载速率敏感性,动态抗压强度和动态强度增长因子均与冲击速度呈线性正相关的关系,当加载水平相同时,动态抗压强度随碳纳米管掺量的增大呈先上升后略有下降的变化趋势,且与普通混凝土相比增幅可达23.7%。碳纳米管增强混凝土的极限应变与冲击韧度的变化特点相似,均随冲击速度的增大而逐渐提高,具有一定的冲击速度强化效应,但与冲击速度之间并没有表现出明显的线性关系。在同一加载水平下,当碳纳米管掺量为0.30%时,混凝土的冲击韧度达到相对最大,较之普通混凝土提升约10%。掺入适量的碳纳米管能够有效强化混凝土内部结构的整体性和致密性,进而改善混凝土的动态力学性能以及能量耗散特征。 展开更多
关键词 混凝土 碳纳米管 分离式霍普金森压杆(shpb) 动态力学特性 冲击能量耗散
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砂土SHPB冲击试验与数值模拟研究进展及问题探讨
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作者 吴琳 吕亚茹 +1 位作者 张申 丁思超 《岩土力学》 EI CAS CSCD 北大核心 2024年第11期3461-3480,共20页
中高应变率下砂土的动力特性对防护工程、桩基贯入、船舶抛锚、飞机降落等问题具有重要意义。综述了砂土霍普金森压杆(split Hopkinson pressure bar,简称SHPB)冲击试验及数值模拟研究现状,总结了目前砂土冲击特性研究存在的主要问题,... 中高应变率下砂土的动力特性对防护工程、桩基贯入、船舶抛锚、飞机降落等问题具有重要意义。综述了砂土霍普金森压杆(split Hopkinson pressure bar,简称SHPB)冲击试验及数值模拟研究现状,总结了目前砂土冲击特性研究存在的主要问题,归纳如下:(1)SHPB试验对于散体材料仍存在不确定性,如试样尺寸尚不规范统一、边界条件难以控制、三轴试验方法还不成熟等,未来三轴SHPB试验需要解决试样径向变形测量和围压恒定问题;(2)由于试验条件下排气和排水不确定,且存在惯性效应,导致应变率效应无法准确判断;(3)含水率对冲击特性的影响与孔隙水压力、孔隙气压力变化相关,但相关变量测量困难,结果难以分析,需要开发完全不排气、不排水的装置以消除边界条件影响;(4)现有方法如有限元法、离散元法、耦合方法无法统一模拟波传播连续性和颗粒破碎,需要克服计算量限制,建立考虑复杂机制(如含水、颗粒破碎)的数值模型来研究砂土冲击特性;(5)需要建立考虑应变率效应的本构模型,实现水分、颗粒破碎等复杂机制的模拟,完善中高应变率土力学理论框架。 展开更多
关键词 砂土 霍普金森压杆 冲击试验 动力特性 应变率效应
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SHPB循环冲击实验技术在岩石冲击动力学教学中的应用研究
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作者 杨荣周 徐颖 《实验技术与管理》 CAS 北大核心 2024年第5期195-202,共8页
该文通过将SHPB实验与岩石冲击动力学相关理论课程相结合的教学模式,提高学生对岩石冲击力学响应和能量演化特征的认知与理解,培养学生在科学实验方面的实际操作能力和严谨态度,发挥学生自主开展实验研究的主观能动性,提升教学效果。基... 该文通过将SHPB实验与岩石冲击动力学相关理论课程相结合的教学模式,提高学生对岩石冲击力学响应和能量演化特征的认知与理解,培养学生在科学实验方面的实际操作能力和严谨态度,发挥学生自主开展实验研究的主观能动性,提升教学效果。基于多学科交叉融合理念,联系科学研究热点问题,引导学生进一步思考并探索更多“SHPB+”,有助于培养学生的科研实践能力与思维创新精神。 展开更多
关键词 冲击动力学 分离式霍普金森压杆(shpb) 岩石循环冲击压缩 shpb+ 实验教学
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基于SHPB劈裂实验技术的岩石冲击动力学教学模式与实践
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作者 杨荣周 徐颖 《实验室研究与探索》 CAS 北大核心 2024年第8期133-137,共5页
分离式霍普金森压杆(SHPB)是测定岩石材料在中、高应变率下动力响应行为的专业设备。为了帮助学生深刻认识和理解岩石的冲击劈裂力学特性与应力应变演化机理,聚焦岩石冲击动力学关键科学问题,将SHPB冲击劈裂实验技术引入岩石冲击动力学... 分离式霍普金森压杆(SHPB)是测定岩石材料在中、高应变率下动力响应行为的专业设备。为了帮助学生深刻认识和理解岩石的冲击劈裂力学特性与应力应变演化机理,聚焦岩石冲击动力学关键科学问题,将SHPB冲击劈裂实验技术引入岩石冲击动力学教学中,采用“理论+实验+讨论”的教学模式,建立教学课程的持续改进机制,解决了岩石冲击动力学理论知识学习的晦涩难懂、枯燥乏味,弥补了岩石冲击动力学理论教学的不足。可拓展学生的创新性思维以培养学生提出和解决关键科学问题的能力。 展开更多
关键词 岩石冲击动力学 分离式霍普金森压杆 动态劈裂机理 实验教学
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基于SHPB的切缝药包防护特性研究
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作者 杨彦鑫 林子雲 +1 位作者 吴建建 卢锋 《工程爆破》 CSCD 北大核心 2024年第2期19-26,共8页
为探究定向断裂控制爆破中切缝药包对围岩的防护特性,利用分离式霍普金森压杆(SHPB)试验对用药包材料制成的垫片防护下的花岗岩试块进行冲击,分别研究垫片与岩石间距、垫片材料和厚度因素对围岩防护效果的影响,分析在高速冲击下岩石的... 为探究定向断裂控制爆破中切缝药包对围岩的防护特性,利用分离式霍普金森压杆(SHPB)试验对用药包材料制成的垫片防护下的花岗岩试块进行冲击,分别研究垫片与岩石间距、垫片材料和厚度因素对围岩防护效果的影响,分析在高速冲击下岩石的破碎情况和应力峰值,并建立多个切缝药包单孔爆破数值模型,通过对比不同情况下围岩损伤而进一步揭示切缝药包对围岩的防护特性机理。研究结果表明:岩石在强冲击荷载作用下严重破碎,当采用外壳垫片防护后,岩石的破碎程度有所降低。相同垫片厚度和垫片与岩石间距离固定的情况下,PVC外壳垫片防护效果要优于ABS外壳垫片。随着垫片厚度的增加和岩石与垫片间距的增加,岩石受损程度逐渐减弱,且增加垫片厚度对岩石的防护效果要优于增加岩石与垫片外壳间距的防护效果,研究成果可为控制爆破提供技术参考。 展开更多
关键词 定向断裂 霍普金森压杆(shpb) 数值模拟 切缝药包 围岩防护
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不同负温和含水率模拟月壤SHPB试验与分析 被引量:1
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作者 马芹永 鲍晓璇 《矿业科学学报》 CSCD 2023年第1期93-101,共9页
为了解月球永久阴影区月壤的动态力学性能,以玄武质模拟月壤进行动态冲击试验,研究不同负温、不同含水率及不同应变率加载下模拟月壤的动态应力-应变曲线特性、动态抗压强度和破坏特征,分析动态抗压强度、动弹性模量与模拟月壤负温、含... 为了解月球永久阴影区月壤的动态力学性能,以玄武质模拟月壤进行动态冲击试验,研究不同负温、不同含水率及不同应变率加载下模拟月壤的动态应力-应变曲线特性、动态抗压强度和破坏特征,分析动态抗压强度、动弹性模量与模拟月壤负温、含水率、应变率的关系。试验结果表明:动态抗压强度与应变率呈正相关关系;破坏形态类型主要为锥形剪切破坏和颗粒状粉碎破坏;破碎块度分布具有良好的分形特征。研究结果能为未来月球资源研究提供参考。 展开更多
关键词 模拟月壤 分离式霍普金森压杆 动态强度 吸收能 负温
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Dynamic rock tests using split Hopkinson (Kolsky) bar system - A review 被引量:88
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作者 Kaiwen Xia Wei Yao 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2015年第1期27-59,共33页
Dynamic properties of rocks are important in a variety of rock mechanics and rock engineering problems. Due to the transient nature of the loading, dynamic tests of rock materials are very different from and much more... Dynamic properties of rocks are important in a variety of rock mechanics and rock engineering problems. Due to the transient nature of the loading, dynamic tests of rock materials are very different from and much more challenging than their static counterparts. Dynamic tests are usually conducted using the split Hopkinson bar or Kolsl^j bar systems, which include both split Hopkinson pressure bar (SHPB) and split Hopkinson tension bar (SHTB) systems. Significant progress has been made on the quantification of various rock dynamic properties, owing to the advances in the experimental techniques of SHPB system. This review aims to fully describe and critically assess the detailed procedures and principles of tech- niques for dynamic rock tests using split Hopkinson bars. The history and principles of SHPB are outlined, followed by the key loading techniques that are useful for dynamic rock tests with SHPB (i.e. pulse shaping, momentum-trap and multi-axial loading techniques). Various measurement techniques for rock tests in SHPB (i.e. X-ray micro computed tomography (CT), laser gap gauge (LGG), digital image corre- lation (DIC), Moir~ method, caustics method, photoelastic coating method, dynamic infrared thermog- raphy) are then discussed. As the main objective of the review, various dynamic measurement techniques for rocks using SHPB are described, including dynamic rock strength measurements (i.e. dynamic compression, tension, bending and shear tests), dynamic fracture measurements (i.e. dynamic imitation and propagation fracture toughness, dynamic fracture energy and fracture velocity), and dy- namic techniques for studying the influences of temperature and pore water. 展开更多
关键词 Rock split hopkinson pressure bar shpb Dynamic testsRock dynamic properties Loading rate
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Tuning of band-gap of phononic crystals with initial confining pressure 被引量:2
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作者 冯荣欣 刘凯欣 《Chinese Physics B》 SCIE EI CAS CSCD 2012年第12期366-371,共6页
The mechanism of the shift of the band-gap in phononic crystal (PC) with different initial confining pressures is studied experimentally and numerically. The experimental results and numerical analysis simultaneousl... The mechanism of the shift of the band-gap in phononic crystal (PC) with different initial confining pressures is studied experimentally and numerically. The experimental results and numerical analysis simultaneously indicate that the confining pressure can efficiently tune the location in and the width of the band-gap. The present work provides a basis for tuning the band-gap of phononic crystal in engineering applications. 展开更多
关键词 phononic crystals band-gap initial confining pressure modified split-hopkinson pres-sure bar apparatus
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流固耦合作用下深部岩石动态力学响应研究进展 被引量:1
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作者 夏开文 王峥 +2 位作者 吴帮标 徐颖 岳腾泷 《煤炭学报》 EI CAS CSCD 北大核心 2024年第1期454-478,共25页
深部岩石处于高地应力、高渗透压和强动态扰动的复杂地质环境之中,3者作用下岩石体更加容易发生损伤破裂,诱发突涌水、渗漏、井喷等工程地质灾害,因而探究流固耦合作用下岩石的动态力学响应是开展岩石工程建设的前提之一。近年来,国内... 深部岩石处于高地应力、高渗透压和强动态扰动的复杂地质环境之中,3者作用下岩石体更加容易发生损伤破裂,诱发突涌水、渗漏、井喷等工程地质灾害,因而探究流固耦合作用下岩石的动态力学响应是开展岩石工程建设的前提之一。近年来,国内外众多学者在考虑水和不同应力状态下的岩石动态力学实验研究方面取得了显著的成果。为给工程建设提供更加全面的指导并为后续研究奠定基础,从实验装置、测试结果以及围压与水的作用机理层面,对上述工作进行了回顾与总结。首先介绍了分离式霍普金森压杆测试装置的基本原理,以及用于模拟深部岩石赋存环境所进行的装置改进,包括围压分离式霍普金森压杆实验系统和孔压(渗透压)耦合的分离式霍普金森压杆实验系统,简要分析了各类装置在研究流固耦合作用下岩石动力学问题时的优势和不足。其次,总结了考虑不同应力状态(单向加载、三向围压加载)的流固耦合作用下岩石的动态力学响应特性。详细介绍了固定预设孔压、渗透压耦合作用下深部岩石的动态力学响应及其随孔隙水压、渗透压变化的规律。随后,概述了围压对岩石动力学性质的影响机理,分析了不同围压条件下的影响规律;总结了水对岩石动态力学性质的强化、弱化微观机制和定量表达。最后,对流固耦合作用下深部岩石的动态力学响应进行了概括总结,并对未来实验研究工作和深部赋存条件下岩石动态力学的研究方向进行了展望。 展开更多
关键词 流固耦合 岩石动力学 分离式霍普金森压杆 孔隙水压 渗透压
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基于CSSA-BPNN模型的胶结充填体动态抗压强度预测 被引量:1
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作者 王小林 梅佳伟 +3 位作者 郭进平 卢才武 王颂 李泽峰 《有色金属工程》 CAS 北大核心 2024年第2期92-101,共10页
充填采矿法二步骤回采时胶结充填体稳定性受爆破扰动而降低。为快速准确地获得充填体动态抗压强度,利用分离式霍普金森压杆(SHPB)进行了40组不同应变率的单轴冲击实验,以灰砂比、充填体密度、养护龄期和平均应变率作为输入参数,充填体... 充填采矿法二步骤回采时胶结充填体稳定性受爆破扰动而降低。为快速准确地获得充填体动态抗压强度,利用分离式霍普金森压杆(SHPB)进行了40组不同应变率的单轴冲击实验,以灰砂比、充填体密度、养护龄期和平均应变率作为输入参数,充填体动态抗压强度作为输出参数,建立了一种基于Logistic混沌麻雀搜索算法(CSSA)优化BP神经网络(BPNN)的预测模型,并与传统BPNN和麻雀搜索算法优化的BPNN进行了对比分析。结果表明:CSSA-BPNN模型的平均相对误差为4.11%,预测值与实测值之间拟合的相关系数均在0.96以上,模型预测精度高。CSSA-BPNN模型的均方根误差为0.395 0 MPa,平均绝对误差为0.359 2 MPa,决定系数为0.995 2,均优于另外两种预测模型。实现了对充填体动态抗压强度的准确预测,可大幅减小物理实验量,为矿山胶结充填体的强度设计提供了一种新方法。 展开更多
关键词 混沌麻雀搜索算法(CSSA) BP神经网络(BPNN) 胶结充填体 分离式霍普金森压杆(shpb) 动态抗压强度
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高温下玄武岩纤维增强地质聚合物混凝土的动态压缩力学行为 被引量:1
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作者 冷玲倻 张鹏飞 梁文文 《硅酸盐通报》 CAS 北大核心 2024年第3期914-921,共8页
为研究高温下玄武岩纤维增强地质聚合物混凝土(BFRGC)的动态压缩力学行为,本文制备了纤维体积掺量为0%、0.1%、0.2%、0.3%的BFRGC试件,并对其进行了不同温度(20、200、400、600、800℃)下的动态冲击试验。结果表明:BFRGC试件静态抗压强... 为研究高温下玄武岩纤维增强地质聚合物混凝土(BFRGC)的动态压缩力学行为,本文制备了纤维体积掺量为0%、0.1%、0.2%、0.3%的BFRGC试件,并对其进行了不同温度(20、200、400、600、800℃)下的动态冲击试验。结果表明:BFRGC试件静态抗压强度、动态抗压强度和比能量吸收具有明显的温度强化效应和高温损伤效应,峰值应变表现出显著的温度塑化效应。BFRGC试件的静态抗压强度、动态抗压强度的温度阀值为400℃。随着温度的升高,BFRGC试件的静态抗压强度、动态抗压强度和比能量吸收均先增大后减小,峰值应变不断增大。掺加适量的玄武岩纤维可以提高常温及高温下地质聚合物混凝土的静态抗压强度和动态力学性能,且其最佳掺量为0.1%。 展开更多
关键词 地质聚合物混凝土 玄武岩纤维 动态力学性能 高温 分离式霍普金森压杆(shpb)
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