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多轴加载下混凝土细观破坏模拟的强度准则探讨 被引量:12
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作者 金浏 杜修力 黄景琦 《计算力学学报》 CAS CSCD 北大核心 2015年第3期322-331,共10页
实际工程结构中混凝土材料大多处于双轴或三轴的复杂应力状态,已有的细观力学数值研究工作大多针对单轴加载问题,对于双轴或者三轴加载条件下混凝土破坏模拟的研究相对较少。复杂受力条件下的混凝土材料破坏模拟中,细观组分强度准则选... 实际工程结构中混凝土材料大多处于双轴或三轴的复杂应力状态,已有的细观力学数值研究工作大多针对单轴加载问题,对于双轴或者三轴加载条件下混凝土破坏模拟的研究相对较少。复杂受力条件下的混凝土材料破坏模拟中,细观组分强度准则选取的合理与否将成为混凝土破坏模式及宏观力学性能数值研究准确和成功与否的关键。本文旨在探讨单轴强度准则,如最大拉应变准则在多轴加载条件下混凝土破坏过程研究中运用的合理性。鉴于此,首先在细观尺度上建立了混凝土试件的二维随机骨料模型,分别采用弹性损伤本构关系模型及塑性损伤本构关系模型来描述细观组分(即砂浆基质)的力学性能,对双轴加载条件下混凝土的细观破坏过程进行数值模拟,对比了单轴强度准则和多轴强度准则下混凝土试件破坏路径及宏观应力-应变关系的差异。数值结果表明,简单的单轴强度准则难以反映双轴加载下混凝土内部应力状态的复杂性,不宜采用单轴强度准则来描述多轴加载下混凝土的破坏行为。 展开更多
关键词 混凝土 细观尺度 复杂加载 强度准则 破坏模拟
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脆性材料破坏模拟的网格生成算法 被引量:1
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作者 刘军 云斌 赵长冰 《计算力学学报》 EI CAS CSCD 北大核心 2012年第2期230-235,共6页
脆性材料的破坏过程具有随机性,当前的网格生成算法没有充分考虑脆性材料破坏时裂纹扩展和碎块生成的随机性。在Persson网格生成算法与Delaunay随机网格剖分理论基础上,提出了一种可根据模拟需要动态控制网格品质的网格生成算法。通过... 脆性材料的破坏过程具有随机性,当前的网格生成算法没有充分考虑脆性材料破坏时裂纹扩展和碎块生成的随机性。在Persson网格生成算法与Delaunay随机网格剖分理论基础上,提出了一种可根据模拟需要动态控制网格品质的网格生成算法。通过对随机分布点的Delauna三角化,生成初始网格,然后将网格体系比拟为桁架结构,网格节点即为桁架节点。桁架节点在虚拟力作用下可动态调整位置,并最终达到整个体系受力平衡。对Persson算法中的尺寸分布函数和收敛条件进行了修正,从而提高了收敛速度,并适用于任意形状对象的网格剖分。基于VC++平台开发了算法程序。通过实例对算法进行了验证,表明算法能够满足脆性材料破碎模拟的需要。 展开更多
关键词 网格生成 随机网格 脆性材料 破坏模拟 品质因子
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基于流形元群缝追踪的钢筋混凝土结构破坏模拟 被引量:3
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作者 张国新 黄涛 +1 位作者 赵妍 彭校初 《中国水利水电科学研究院学报》 2009年第4期257-263,共7页
对石根华提出的流形元法进行了改进,在一阶位移形函数的基础上扩展到二阶位移模式,开发了用断裂力学法模拟离散裂缝的扩展及用杆单元模拟钢筋作用的流形元法,用以模拟钢筋混凝土结构破坏过程。对于含有大量节理裂隙的结构,采用传统的摩... 对石根华提出的流形元法进行了改进,在一阶位移形函数的基础上扩展到二阶位移模式,开发了用断裂力学法模拟离散裂缝的扩展及用杆单元模拟钢筋作用的流形元法,用以模拟钢筋混凝土结构破坏过程。对于含有大量节理裂隙的结构,采用传统的摩尔-库伦准则,允许裂缝不仅沿原有的不连续面扩展,而且可以穿过完整介质,导致结构体的破坏。用扩展后的软件模拟钢筋混凝土梁结构的破坏,考虑变形和渗流耦合作用,分析了五强溪船闸闸墙的大变形问题。结果表明,破坏形态符合实际情况,并且再现了结构破坏过程,为今后研究此类问题提供了新思路。 展开更多
关键词 流形元 钢筋混凝土结构 群缝追踪 破坏模拟
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近断层地震作用下连体双塔楼消能连廊的破坏模拟 被引量:1
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作者 杜永峰 王振宇 《工程抗震与加固改造》 北大核心 2013年第1期54-58,74,共6页
采用增量动力分析(Incremental Dynamic Analysis,IDA)方法,得到了对称和不对称连体结构在地震作用下消能连廊破坏的临界地震峰值加速度,并对在该峰值加速度下消能连廊的破坏进行了模拟。IDA分析结果表明,不对称结构消能连廊较对称结构... 采用增量动力分析(Incremental Dynamic Analysis,IDA)方法,得到了对称和不对称连体结构在地震作用下消能连廊破坏的临界地震峰值加速度,并对在该峰值加速度下消能连廊的破坏进行了模拟。IDA分析结果表明,不对称结构消能连廊较对称结构更易发生破坏,近断层地震作用下消能连廊破坏的危险性较远场地震下的要大。同时,破坏模拟表明,消能连廊的破坏一般是由于连廊支座位移超限引起的。 展开更多
关键词 连体双塔楼 消能连廊 破坏模拟 增量动力分析(IDA)
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土质边坡渐进破坏过程的近似模拟 被引量:7
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作者 张坤勇 李广山 +1 位作者 杜伟 Habeeb Muhammad Zakari 《天津大学学报(自然科学与工程技术版)》 EI CSCD 北大核心 2019年第A01期99-105,共7页
用有限元强度折减法对边坡进行计算,分析滑动面上典型位置单元应力状态变化规律,建立单元应力状态和边坡整体稳定性之间关系,提出单元失稳判据.将判据的有限元语句程序化,对天然边坡进行有限元强度折减计算,应用所提判据和程序对边坡渐... 用有限元强度折减法对边坡进行计算,分析滑动面上典型位置单元应力状态变化规律,建立单元应力状态和边坡整体稳定性之间关系,提出单元失稳判据.将判据的有限元语句程序化,对天然边坡进行有限元强度折减计算,应用所提判据和程序对边坡渐进破坏过程进行有限元数值模拟,采用不同失稳判据和极限平衡法计算结果进行比较,验证了本文单元判据的合理性,本文判据能解释和模拟边坡的渐进破坏过程.将本文方法与位移突变判据结合使用,既能描述边坡渐进破坏,又便于工程中对边坡、基坑工程的安全性进行实时监测与反馈. 展开更多
关键词 渐进破坏 边坡失稳判据 破坏过程模拟 有限元强度折减法
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基于刚体弹簧法的钢筋混凝土结构破坏过程模拟方法 被引量:4
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作者 赵超 钟新谷 +2 位作者 刘波 张天予 石卫华 《矿业科学学报》 2018年第2期129-138,共10页
针对现有连续数值方法难以准确描述裂缝特征以及非连续数值方法不能反映结构刚度的问题,给出了一种基于刚体弹簧模型分析钢筋混凝土结构破坏过程的数值方法。采用刚体弹簧模型模拟混凝土,并基于Voronoi图生成其随机网格;采用杆单元模拟... 针对现有连续数值方法难以准确描述裂缝特征以及非连续数值方法不能反映结构刚度的问题,给出了一种基于刚体弹簧模型分析钢筋混凝土结构破坏过程的数值方法。采用刚体弹簧模型模拟混凝土,并基于Voronoi图生成其随机网格;采用杆单元模拟钢筋,并通过设置在单元节点上的黏结滑移单元与混凝土连接;通过单轴应力-应变曲线定义混凝土界面弹簧刚度,并采用Mohr-Coulomb强度准则判断混凝土的剪切破坏行为;基于FORTRAN语言编制了相应的计算程序,并将其应用于典型Z形构件和钢筋混凝土简支梁的破坏过程模拟。数值计算结果与试验结果的对比分析表明:所给方法能够较为准确地模拟结构的开裂行为,能够反映裂缝的位置、形态等特征,对于结构极限承载力和开裂后刚度的预测与试验结果基本吻合,是模拟钢筋混凝土结构破坏过程的一种可行且有效的方法。 展开更多
关键词 钢筋混凝土 破坏过程模拟 刚体弹簧法 裂缝扩展 材料非线性
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基于预插黏性界面单元的Koyna重力坝强震破坏过程分析 被引量:11
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作者 徐海滨 杜修力 杨贞军 《振动与冲击》 EI CSCD 北大核心 2014年第17期74-79,84,共7页
基于黏性裂缝模型理论,在实体单元中嵌入黏性界面单元(Cohesive Interface Elements),对Koyna重力坝的强震破坏过程进行了二维有限元模拟和分析,并与其它数值方法的结果进行了对比。结果表明,大坝的破坏开裂分布与Koyna大坝实际破坏情... 基于黏性裂缝模型理论,在实体单元中嵌入黏性界面单元(Cohesive Interface Elements),对Koyna重力坝的强震破坏过程进行了二维有限元模拟和分析,并与其它数值方法的结果进行了对比。结果表明,大坝的破坏开裂分布与Koyna大坝实际破坏情况及文献中的模型试验结果基本相符,说明黏性界面单元可以很好地模拟裂缝的断裂和扩展,验证了该方法的有效性。 展开更多
关键词 Koyna重力坝 地震破坏模拟 黏性界面单元
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钢筋混凝土框架地震破坏研究概述 被引量:7
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作者 焦双健 魏巍 冯启民 《世界地震工程》 CSCD 2000年第4期42-46,共5页
关于钢筋混凝土结构的破坏过程,是当前建筑抗震设计与研究中提出的新问题。本文介绍了国内外钢筋混凝土构件非线性地震反应分析和破坏过程研究的进展,和钢筋混凝土框架结构地震破坏评价的定量描述方法,以及钢筋混凝土框架结构地震破... 关于钢筋混凝土结构的破坏过程,是当前建筑抗震设计与研究中提出的新问题。本文介绍了国内外钢筋混凝土构件非线性地震反应分析和破坏过程研究的进展,和钢筋混凝土框架结构地震破坏评价的定量描述方法,以及钢筋混凝土框架结构地震破坏过程模拟的最新研究动态,指出了地震工程研究领域中研究钢筋混凝土框架结构破坏过程的有效手段。 展开更多
关键词 破坏模拟 非线性动力分析 地震反应
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Formation mechanism of rockburst in deep tunnel adjacent to faults:Implication from numerical simulation and microseismic monitoring 被引量:13
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作者 CHEN Yi-yi XIAO Pei-wei +3 位作者 LI Peng ZHOU Xiang LIANG Zheng-zhao XU Nu-wen 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第12期4035-4050,共16页
Rockbursts were frequently encountered in the construction of deeply buried tunnels at the Jinping-II hydropower station, Southwest China. In those cases, the existence of large structural planes, such as faults, was ... Rockbursts were frequently encountered in the construction of deeply buried tunnels at the Jinping-II hydropower station, Southwest China. In those cases, the existence of large structural planes, such as faults, was usually observed near the excavation boundaries. The formation mechanism of the “11·28” rockburst, which was a typical rockburst and occurred in a drainage tunnel under a deep burial depth, high in-situ stress state and complex geological conditions, has been difficult to explain. Realistic failure process analysis(RFPA3D) software was adopted to numerically simulate the whole failure process of the surrounding rock mass around the tunnel subjected to excavation. The spatial distribution of acoustic emission derived from numerical simulation contributed to explaining the mechanical responses of the process. Analyses of the stress, safety reserve coefficient and damage degree were performed to reveal the effect of faults on the formation of rockbursts in the deep tunnel. The existence of faults results in the formation of stress anomaly areas between the tunnel and the fault. The surrounding rock mass failure propagates toward the fault from the initial failure, to different degrees. The relative positions and angles of faults play significant roles in the extent and development of surrounding rock mass failure, respectively. The increase in the lateral stress coefficient leads to the aggravation of the surrounding rock mass damage, especially in the roof and floor of the tunnel. Moreover, as the rock strength-stress ratio increases, the failure mode of the near-fault tunnel gradually changes from the stress-controlled type to the compound-controlled type. These findings were consistent with the microseismic monitoring results and field observations, which was helpful to understand the mechanical behavior of tunnel excavation affected by faults. The achievements of this study can provide some references for analysis of the failure mechanisms of similar deep tunnels. 展开更多
关键词 near-fault tunnel ROCKBURST numerical simulation formation mechanism microseismic monitoring
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某爆炸分离装置分离过程仿真研究与设计改进
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作者 秦玉灵 渠弘毅 +2 位作者 荆江 王巨民 李晓东 《导弹与航天运载技术》 CSCD 北大核心 2021年第1期50-55,共6页
爆炸分离装置分离过程仿真需考虑材料破坏过程,将材料本构关系由弹塑性扩展至渐进式损伤断裂模型。为了模拟爆炸分离过程中各组件损伤破坏进程,首先将金属材料动态损伤本构引入Abaqus有限元分析平台,然后建立爆炸分离装置有限元分析模型... 爆炸分离装置分离过程仿真需考虑材料破坏过程,将材料本构关系由弹塑性扩展至渐进式损伤断裂模型。为了模拟爆炸分离过程中各组件损伤破坏进程,首先将金属材料动态损伤本构引入Abaqus有限元分析平台,然后建立爆炸分离装置有限元分析模型,开展爆炸分离过程中各组件损伤破坏进程的精确模拟,复现地面试验情况,确定设计薄弱环节,预示结果与试验结果一致,证实了响应预示方法及计算结果的可靠性,为后续同类产品的设计与动态损伤破坏进程模拟提供了参考。 展开更多
关键词 弹塑性 强度校核 损伤本构 爆炸分离装置 损伤破坏进程模拟
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Probabilistic seismic stability of three-dimensional slopes by pseudo-dynamic approach 被引量:10
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作者 PAN Qiu-jing QU Xing-ru WANG Xiang 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第7期1687-1695,共9页
Probabilistic analysis is a rational approach for engineering design because it provides more insight than traditional deterministic analysis. Probabilistic evaluation on seismic stability of three dimensional (3D) sl... Probabilistic analysis is a rational approach for engineering design because it provides more insight than traditional deterministic analysis. Probabilistic evaluation on seismic stability of three dimensional (3D) slopes is studied in this paper. The slope safety factor is computed by combining the kinematic approach of limit analysis using a three-dimensional rotational failure mechanism with the pseudo-dynamic approach. The variability of input parameters, including six pseudo-dynamic parameters and two soil shear strength parameters, are taken into account by means of Monte-Carlo Simulations (MCS) method. The influences of pseudo-dynamic input variables on the computed failure probabilities are investigated and discussed. It is shown that the obtained failure probabilities increase with the pseudo-dynamic input variables and the pseudo-dynamic approach gives more conservative failure probability estimates compared with the pseudo-static approach. 展开更多
关键词 seismic slope stability pseudo-dynamic analysis probabilistic analysis Monte-Carlo simulation failure probability three-dimensional slop
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Numerical investigation on interface enhancement mechanism of Ag-SnO_(2) contact materials with Cu additive 被引量:1
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作者 MAYuan-yuan LI Gui-jing FENGWen-jie 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第4期1085-1097,共13页
The electrical contact and mechanical performances of Ag-SnO_(2) contact materials are often improved by additives,especially Cu and its oxides.To reveal the improvement mechanism of metal additive,the effects of Cu n... The electrical contact and mechanical performances of Ag-SnO_(2) contact materials are often improved by additives,especially Cu and its oxides.To reveal the improvement mechanism of metal additive,the effects of Cu nanoparticles on the interface strength and failure behavior of the Ag-SnO_(2) contact materials are investigated by numerical simulations and experiments.Three-dimensional representative volume element(RVE)models for the Ag-SnO_(2) materials without and with Cu nanoparticles are established,and the cohesive zone model is used to simulate the interface debonding process.The results show that the stress−strain relationships and failure modes predicted by the simulation agree well with the experimental ones.The adhesion strengths of the Ag/SnO_(2) and Ag/Cu interfaces are respectively predicted to be 100 and 450 MPa through the inverse method.It is found that the stress concentration around the SnO_(2) phase is the primary reason for the interface debonding,which leads to the failure of Ag-SnO_(2) contact material.The addition of Cu particles not only improves the interface strength,but also effectively suppresses the initiation and propagation of cracks.The results have an reference value for improving the processability of Ag based contact materials. 展开更多
关键词 Ag-SnO_(2)contact material numerical simulation interface damage failure behavior
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Improved parameter selection method for mesoscopic numerical simulation test of direct tensile failure of rock and concrete 被引量:1
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作者 刘智光 陈健云 +1 位作者 白卫峰 徐强 《Journal of Central South University》 SCIE EI CAS 2010年第5期1079-1086,共8页
In order to numerically simulate the failure process of rock and concrete under uniaxial tension,an improved method of selecting the mechanical properties of materials was presented for the random mechanic parameter m... In order to numerically simulate the failure process of rock and concrete under uniaxial tension,an improved method of selecting the mechanical properties of materials was presented for the random mechanic parameter model based on the mesoscopic damage mechanics.The product of strength and elastic modulus of mesoscale representative volume element was considered to be one of the mechanical property parameters of materials and assumed to conform to specified probability distributions to reflect the heterogeneity of mechanical property in materials.With the improved property parameter selection method,a numerical program was developed and the simulation of the failure process of the rock and concrete specimens under static tensile loading condition was carried out.The failure process and complete stress-strain curves of a class of rock and concrete in stable fracture propagation manner under uniaxial tension were obtained.The simulated macroscopic mechanical behavior was compared with the available laboratory experimental observation,and a reasonable agreement was obtained.Verification shows that the improved parameter selection method is suitable for mesoscopic numerical simulation in the failure process of rock and concrete. 展开更多
关键词 ROCK CONCRETE stable fracture propagation product of strength and elastic modulus HETEROGENEITY numerical simulation uniaxial tension
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Model test to investigate failure mechanism and loading characteristics of shallow-bias tunnels with small clear distance 被引量:11
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作者 雷明锋 林大涌 +3 位作者 杨伟超 施成华 彭立敏 黄娟 《Journal of Central South University》 SCIE EI CAS CSCD 2016年第12期3312-3321,共10页
Based on the similarity theory,a tunnel excavation simulation testing system under typical unsymmetrical loading conditions was established.Using this system,the failure mechanism of surrounding rock of shallow-bias t... Based on the similarity theory,a tunnel excavation simulation testing system under typical unsymmetrical loading conditions was established.Using this system,the failure mechanism of surrounding rock of shallow-bias tunnels with small clear distance was analyzed along with the load characteristics.The results show that:1) The failure process of surrounding rock of shallow-bias tunnels with small clear distance consists of structural and stratum deformation induced by tunnel excavation; Microfracture surfaces are formed in the tunnel surrounding rock and extend deep into the rock mass in a larger density; Tensile cracking occurs in shallow position on the deep-buried side,with shear slip in deep rock mass.In the meantime,rapid deformation and slip take place on the shallow-buried side until the surrounding rocks totally collapse.The production and development of micro-fracture surfaces in the tunnel surrounding rock and tensile cracking in the shallow position on the deep-buried side represent the key stages of failure.2) The final failure mode is featured by an inverted conical fracture with tunnel arch as its top and the slope at tunnel entrance slope as its bottom.The range of failure on the deep-buried side is significantly larger than that on the shallow-buried side.Such difference becomes more prominent with the increasing bias angle.What distinguishes it from the "linear fracture surface" model is that the model proposed has a larger fracture angle on the two sides.Moreover,the bottom of the fracture is located at the springing line of tunnel arch.3) The total vertical load increases with bias angle.Compared with the existing methods,the unsymmetrical loading effect in measurement is more prominent.At last,countermeasures are proposed according to the analysis results: during engineering process,1) The surrounding rock mass on the deep-buried side should be reinforced apart from the tunnel surrounding rock for shallow-buried tunnels with small clear distance; moreover,the scope of consolidation should go beyond the midline of tunnel(along the direction of the top of slope) by 4 excavation spans of single tunnel.2) It is necessary to modify the load value of shallow-bias tunnels with small clear distance. 展开更多
关键词 shallow-bias tunnels with small spacing failure mechanism loading characteristics model test
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Reliability analysis of supporting pressure in tunnels based on three-dimensional failure mechanism 被引量:7
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作者 罗卫华 李闻韬 《Journal of Central South University》 SCIE EI CAS CSCD 2016年第5期1243-1252,共10页
Based on nonlinear failure criterion,a three-dimensional failure mechanism of the possible collapse of deep tunnel is presented with limit analysis theory.Support pressure is taken into consideration in the virtual wo... Based on nonlinear failure criterion,a three-dimensional failure mechanism of the possible collapse of deep tunnel is presented with limit analysis theory.Support pressure is taken into consideration in the virtual work equation performed under the upper bound theorem.It is necessary to point out that the properties of surrounding rock mass plays a vital role in the shape of collapsing rock mass.The first order reliability method and Monte Carlo simulation method are then employed to analyze the stability of presented mechanism.Different rock parameters are considered random variables to value the corresponding reliability index with an increasing applied support pressure.The reliability indexes calculated by two methods are in good agreement.Sensitivity analysis was performed and the influence of coefficient variation of rock parameters was discussed.It is shown that the tensile strength plays a much more important role in reliability index than dimensionless parameter,and that small changes occurring in the coefficient of variation would make great influence of reliability index.Thus,significant attention should be paid to the properties of surrounding rock mass and the applied support pressure to maintain the stability of tunnel can be determined for a given reliability index. 展开更多
关键词 rectangular tunnel limit analysis failure mechanism reliability analysis
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