Crack initiation stress and strain of jointed rock containing multi-cracks under uniaxial compressive loading: A particle flow code approach

The ratio of crack initiation stress to the uniaxial compressive strength(SCI,B/SUC,B) and the ratio of axial strain at the crack initiation stress to the axial strain at the uniaxial compressive strength(B,UCB,CI,A,A/SSSS) were studied by performing numerical stress analysis on blocks having multi flaws at close spacing's under uniaxial loading using PFC3 D. The following findings are obtained: SCI,B/SUC,B has an average value of about 0.5 with a variability of ± 0.1. This range agrees quite well with the values obtained by former research. For joint inclination angle, β=90°,B,UCB,CI,A,A/SSSS is found to be around 0.48 irrespective of the value of joint continuity factor, k. No particular relation is found betweenB,UCB,CI,A,A/SSSS and β; however, the average B,UCB,CI,A,A/SSSS seems to slightly decrease with increasing k. The variability ofB,UCB,CI,A,A/SSSS is found to increase with k.Based on the cases studied in this work,B,UCB,CI,A,A/SSSS ranges between 0.3 and 0.5. This range is quite close to the range of 0.4to 0.6 obtained for SCI,B/SUC,B. The highest variability of ± 0.12 forB,UCB,CI,A,A/SSSS is obtained for k=0.8. For the remaining k values the variability ofB,UCB,CI,A,A/SSSS can be expressed within ± 0.05. This finding is very similar to the finding obtained for the variability of SCI,B/SUC,B.

Tuning of band-gap of phononic crystals with initial confining pressure

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.

Identifying crack initiation stress threshold in brittle rocks using axial strain stiffness characteristics

As an estimate for the in-situ spalling strength around massive underground excavations to moderately jointed brittle rocks, crack initiation stress marks the initiation of rock micro fracturing. It is crucial to accurately identify crack initiation stress level by proper method. In this study, confined compression tests of sandstone samples are used to examine the validity/applicability of proposed axial strain stiffness method. The results show that by highlighting the minuscule changes in stress-strain curve, the axial strain stiffness curve provided further insight into rock failure process and revealed five stages:(a) irregular fluctuation,(b) nearly horizontal regular fluctuation,(c) irregular fluctuation gradually decreasing to zero,(d) extreme fluctuation, and(e) near zero, which mainly correspond to five stages of stress–strain curve. The ratio of crack-initiation stress to peak strength determined using this approach is 0.44–0.51, similar to the ranges previously reported by other researchers. In this method, the key is to accurately detect the end point of the stage(b), "nearly horizontal regular fluctuation" characterized by a sudden change in axial strain stiffness curve, and the sudden change signifies crack initiation in rock sample. Finally, the research indicates that the axial strain stiffness curve can provide a mean to identify the crack-initiation stress thresholds in brittle rocks.

内填纤维混凝土加固钢管柱轴压性能研究

通过有限元方法研究内填纤维混凝土加固钢管柱轴压性能,分析钢管初应力、构件长细比、含钢率、内填混凝土强度等对加固柱受力性能的影响。结果表明:初应力的存在降低了加固钢管柱的轴压承载力,表现出初应力越大承载力降低越大的趋势;随着长细比的增大,初应力对加固钢管柱轴压承载力的影响越显著。通过引入承载力系数(K_(c))考虑钢管初应力对内填纤维混凝土加固钢管柱轴压承载力的影响,研究发现钢管初应力和长细比是影响K_(c)的主要因素,含钢率、内填混凝土强度等对K_(c)的影响为2%,计算承载力时可不予考虑。在此基础上,提出了考虑初应力影响的加固钢管柱轴压承载力计算式,计算值与试验值吻合较好。

细观初始孔隙缺陷对混凝土力学性能的影响

采用不同尺寸的EPS颗粒预制混凝土的初始孔隙率及初始孔径尺寸,系统开展4种初始孔隙率和5种初始孔径尺寸下混凝土的轴心抗压强度和弹性模量试验研究,并基于数值统计原理分析含初始缺陷混凝土力学性能的影响规律.结果表明:混凝土的轴心抗压强度和弹性模量降幅随初始孔隙率的增加呈近似线性上升趋势,混凝土的轴心抗压强度降幅随着初始孔径尺寸的增加呈近似对数上升趋势.同时考虑初始孔隙率和初始孔径尺寸的影响,混凝土在初始小孔径、高孔隙率下的损伤度低于其在初始大孔径、低孔隙率下的损伤度.相较初始孔径尺寸,初始孔隙率对混凝土轴心抗压强度和弹性模量的损伤更为显著.

轴压荷载作用下双钢板-混凝土组合剪力墙中钢板屈曲性能研究

双钢板-混凝土组合剪力墙作为建筑物中的抗侧力构件,具有承载力高、耗能能力强和延性好等优点。在高层和超高层建筑结构中,双钢板-混凝土组合剪力墙需要承担一定的竖向荷载,钢板在正常使用阶段要求不发生弹性屈曲。钢板初始几何缺陷是影响双钢板-混凝土组合剪力墙轴压荷载下钢板屈曲应力的重要指标,而在以往的研究中,钢板屈曲应力的计算方法并未予以考虑。基于前期的双钢板-混凝土组合剪力墙轴压试验研究,采用分析软件ABAQUS建立了双钢板-混凝土组合剪力墙轴压试件有限元模型,模型中引入了钢板的初始几何缺陷,从钢板屈曲应变、荷载-位移曲线和破坏模态等方面与试验结果进行对比,验证了模型分析结果的合理性。在此基础上进行参数分析,系统研究了钢板初始几何缺陷、钢板距厚比和钢材屈服强度等参数对钢板屈曲性能的影响规律,基于试验和数值模拟分析结果,提出了考虑钢板初始几何缺陷影响的双钢板-混凝土组合剪力墙钢板屈曲应力计算方法。

轴向预制破片战斗部飞散特性数值模拟

为分析轴向预制破片战斗部的飞散特性,利用LS-DYNA软件模拟轴向预制破片战斗部中心单点起爆方式和多点起爆方式下破片速度及飞散角特征参数并进行试验验证,得到了中心单点起爆和多点起爆方式对破片速度及飞散角特征参数的影响规律。研究表明:相较于中心单点起爆方式,多点起爆方式可以提升轴向预制破片速度,且随着起爆点数增加,破片速度先增加后趋于稳定,起爆点数从2点增加到6点,破片初速提升了21.1%,当起爆点数继续增加,则破片速度不再增益,而起爆点数对飞散角影响较小。

双环境力耦合作用下小口径弹药引信火工品装药的力学响应

为探究轴向过载和由高转速引起的离心过载耦合作用下小口径弹药引信火工品装药的力学响应,采用ANSYS软件对实际发射情况和简化情况下药剂最大等效应力和最大静水压力的变化进行了数值模拟研究。结果表明,采用静态等效方法分析时,离心过载对药剂最大等效应力影响很小,基本可以忽略不计,但其对最大静水压力有一定影响;当药剂处于弹性变形阶段时,其最大等效应力基本由最大轴向过载决定,而由高转速产生的离心过载和轴向过载曲线周期对最大等效应力的影响很小;最大等效应力、最大静水压力均与最大轴向过载呈明显的线性关系。

Axial response and material efficiency of tapered helical piles

Different techniques have been proposed to increase the bearing capacity of open-ended piles.Welding helices to the shaft and tapering the pile shaft could be used simultaneously to enhance the static and dynamic behaviors of these piles.This paper subjects the bearing capacity,stiffness,frictional behavior,and material efficiency of the tapered helical piles to scrutiny.Tapered helical piles are introduced herein as an alternative option to improve the material efficiency of hollow piles.Based on the Taguchi method,a series of experiments was designed and conducted.The axial responses of tapered helical piles are also investigated using finite element analyses.The results derived from loadedisplacement curves and strain gages are used to characterize the axial compression responses of tapered helical piles.The effects of tapered angle,helices diameter and helices distance are examined using dimensionless parameters,and the degree of contribution of these factors is calculated on each of the enumerated variables individually.Experimental results show that the shaft friction resistance of tapered helical piles increases continuously with the pile head settlement.Furthermore,the effect of tapered wall on the shaft friction resistance is more tangible at low stress levels.The results showed that the relative material efficiency factor of the optimum pile could be 2.5 times that of unoptimized pile with a similar quantity of material.

Axial compression physical testing of traditional and bird beak SHS T-joints

The static tests of nine traditional and bird beak square hollow structure(SHS) T-joints with different β values and connection types under axial compression at brace end were carried out. Experimental test schemes, failure modes of specimens, jack load-vertical displacement curves, jack load-deformation of chord and strain intensity distribution curves of joints were presented. The effects of β and connection types on axial compression property of joints were studied. The results show that the ultimate axial compression capacity of common bird beak SHS T-joints and diamond bird beak SHS T-joints is larger than that of traditional SHS T-joint specimens with big values of β. The ultimate axial compression capacity of diamond bird beak SHS T-joints is larger than that of common bird beak SHS T-joints. As β increases, the increase of the ultimate axial compression capacity of diamond bird beak SHS T-joints over that of common bird beak joints grows. The ultimate axial compression capacity and the initial axial stiffness of all kinds of joints increase as β increases, and the initial axial stiffness of the diamond bird beak SHS T-joints is the largest. The ductilities of common bird beak and diamond bird beak SHS T-joints increase as β increases, but the ductility of the traditional SHS T-joints decreases as β increases.

横向载荷作用下轴向运动梁的屈曲失稳以及非线性振动特性

梁的轴向运动会诱发其产生横向振动并可能导致屈曲失稳,对结构的安全性和可靠性产生重大的影响.本文重点研究了横向载荷作用下轴向运动梁的屈曲失稳及横向非线性振动特性.基于Hamilton变分原理,建立了横向载荷作用下轴向运动梁的动力学方程,获得了梁的后屈曲构型.使用截断Galerkin法,将控制方程改写成Duffing方程的形式.用同伦分析方法确定载荷作用下轴向运动梁的非线性受迫振动的封闭形式的表达式.结果表明,后屈曲构型对轴向速度和初始轴向应力有明显的依赖性.通过同伦分析法得出非线性基频的显式表达式,获得了初始轴向力会影响非线性频率随初始振幅和轴向速度的线性关系.另外,轴向外激励的方向也会改变系统固有频率.

考虑型钢初应力的活性粉末混凝土包钢组合柱轴压性能研究

为研究考虑型钢初应力的活性粉末混凝土(RPC)包钢组合柱的轴压性能,完成了4根H形截面柱和1根方形截面柱的轴压静载试验。讨论了各参数对组合柱破坏形态、荷载-应变曲线、荷载-位移曲线、承载力和延性的影响。试验结果表明:所有试件RPC应变滞后均消除,RPC和型钢具有良好的共同工作性能。H形截面柱失效模式表现为RPC横向受拉断裂,而方形截面柱表现为腹板RPC剪压破坏。型钢翼缘增厚3 mm后,试件开裂位移提升了8.55%,承载力增大了3.54%,延性增大了1.8%。初应力比增大对试件承载力的影响不大,试件延性在1.7~2.1范围内呈线性下降,同时降低初应力比有助于RPC材料性能的发挥。此外,考虑RPC强度利用系数,提出改进的承载力计算公式,计算结果与试验结果吻合较好。最终,基于有限元软件ABAQUS对组合柱的轴压性能进行了数值模拟,有限元分析结果与试验的结果误差小于5%,并基于此模型进一步研究组合柱受力性能的影响因素。

弯曲铝合金方管的轴压性能试验研究

为研究带初弯曲度铝合金方管的轴压承载力,完成了8个试件的轴压稳定性试验,并建立了与试验条件一致的有限元模型。通过对比试验和有限元分析结果验证了有限元模型的可靠性。结果表明,带有较大初弯曲度铝合金方管的破坏模式为整体弯曲失稳。最后,根据有限元分析结果拟合得到较大初弯曲度铝合金方管的整体稳定系数计算式,并将拟合计算式结果和数值分析结果及试验结果进行对比,验证了计算式的正确性。

含初始缺陷不锈钢柱壳的多模态屈曲特性

以海洋平台圆柱壳桩腿为研究对象,研究不锈钢柱壳在受到局部腐蚀和未受到腐蚀两种情况下的屈曲特性,其中用柱壳局部区域均匀减薄模拟桩腿腐蚀。对一组未减薄的完好柱壳和一组经过减薄加工的腐蚀柱壳进行初始缺陷测量、轴压试验和数值分析。通过试验获得柱壳临界屈曲载荷。对柱壳进行线性屈曲分析,得到柱壳前50阶模态缺陷和屈曲特征值。采用Riks弧长法对赋予初始缺陷幅值的柱壳前50阶模态缺陷进行非线性屈曲分析,得到柱壳的平衡曲线、临界载荷。在此基础上,研究初始缺陷对受到局部腐蚀和未受到局部腐蚀不锈钢柱壳屈曲的影响,并在多模态缺陷条件下对其最差阶模态进行探究。结果表明:与未受到腐蚀的柱壳相比,受到腐蚀的柱壳对初始缺陷的敏感性更低,对不同模态缺陷的敏感性更低;对于未受腐蚀的普通不锈钢柱壳而言,最差的模态缺陷并不是通常认为的第1阶,也有可能出现在高阶模态中。

初轧温度对Ti2AlNb钛合金环件径-轴向轧制过程的影响

基于Simufact Forming有限元软件对Ti2AlNb钛合金径-轴向环件轧制过程进行了数值模拟,研究了不同初轧温度对驱动辊径向轧制力能参数以及环件成形后的等效应变、温度的影响规律。结果表明:随着环件成形温度的升高,在环件轴向截面,等效应变标准差分布越来越均匀,而温度标准差分布差异却越来越大;在环件轧制初期,温度对轧制力影响显著,驱动辊轧制力增加速度及其峰值随环件成形温度的升高逐渐降低;在环件轧制后期,温度对轧制力的影响很小。

爆轰驱动下轴向预制破片飞散特性研究

为了研究圆柱形装药下轴向多层预制破片初速及飞散情况,基于Gurney假设和动量守恒定律推导了不同类型轴向多层破片爆轰驱动下初速简化计算模型和破片列平均飞散角简化计算模型,结合LS-DYNA软件开展了多类型破片爆轰驱动下的数值仿真,通过仿真软件进行了理论和数值仿真计算,并针对理论和仿真结果进行了误差分析,验证了数值仿真和理论计算结果的一致性,结合仿真和理论计算结果分析讨论了爆轰驱动下不同形状多层预制破片的飞散特性。结果表明:球形破片可以获得更高的飞行速度;相同类型同列不同层破片间平均速度存在一定的速度梯度,从内层到外层破片平均初速逐层增大;相同层数破片在同一时刻下,球形破片的爆轰压力高于其他类型破片;球形破片受到爆轰产物绕流加速效果最为显著;在相同层数破片情况下,球形破片的层间速度梯度最大;不同形状破片的飞散角不同,形成的破片场亦不同;圆柱破片相对于其他破片飞散角分布更为均匀,分布在17°~24°范围内。

窄翼缘PEC中长柱轴压整体稳定性能试验研究

为研究窄翼缘PEC中长柱轴压整体稳定性能,设计制作9根组合长细比介于76~141(正则化长细比介于0.84~1.55)的窄翼缘PEC中长柱,进行轴压整体稳定性能试验。研究窄翼缘PEC中长柱的初始弯曲、长细比、混凝土强度等因素对其破坏模式和轴压整体稳定承载力的影响。试验结果表明,窄翼缘PEC中长柱在轴压荷载下的破坏模式表现为绕弱轴的弯曲失稳,长细比和初始弯曲显著影响试件的破坏模式和极限承载力。当试件的正则化长细比大于1.0,初始弯曲大于L/1000时,试件的破坏模式表现为整体极值点失稳;当试件的正则化长细比大于1.0,初始弯曲小于L/2000时,试件的破坏模式表现为弹性平衡分岔失稳;当试件的正则化长细比小于1.0,初始弯曲小于L/2000时,试件的破坏模式介于弹塑性极值点失稳和平衡点分岔失稳之间;初始弯曲一致时,试件的极限承载力随着长细比的增大迅速降低。采用ABAQUS有限元软件建立窄翼缘PEC中长柱有限元模型,将计算承载力与现行规范计算结果进行对比。结果表明,试件轴压整体稳定承载力比规范承载力高出20%,按现行规范计算整体稳定承载力时,没有充分考虑混凝土和型钢的协同作用,规范计算结果偏保守。

激光陀螺单轴旋转惯性导航系统

高精度的惯性导航系统是提高舰船综合作战性能的基础。为了提高惯性导航系统的精度,采用单轴旋转惯性测量组件的方法,研制了激光陀螺单轴旋转惯性导航系统。介绍了系统的硬件组成,主要包括系统基本结构,惯性器件的主要技术参数和导航计算机的组成。描述了系统的多位置初始对准方式和温度补偿方案。对该系统进行了长时间静态导航实验和跑车实验,实验结果表明:四次长时间静态导航实验峰值定位误差5d优于1nm,10d优于2nm;两次跑车实验峰值定位误差77h优于1.4nm、15d优于2.5nm。

花岗岩动态轴向拉伸力学性能试验研究

在MTS试验机上对花岗岩进行不同应变率(10-6～10-2 s-1)、不同预静载下的冲击加载以及变幅三角波荷载下的动态轴向拉伸系列试验。试验结果表明:在10-6～10-2 s-1应变率范围内,岩石抗拉强度随应变率提高近线性增长;花岗岩的弹性模量随应变率变化无明显变化;峰值应变随应变率增大有增长的趋势,极限应变没有明显的率敏感性;不同应变率的名义应力–应变全曲线的上升段在约40%强度以前呈线性,之后出现明显非线性变形,但随着应变率的增加,非线性程度降低;下降段可简化为两段折线:从峰值卸载至25%强度时,出现拐点,此时应变为300～400με,此后应变增长速度加快,降至残余应力10%强度处时,应变为600～900με;50%以下预静载不会对花岗岩的动载强度产生不利,反而有所增强;更高的预静载则会降低动载强度;在往复加载的低周疲劳引起的损伤累积下,岩石的动强度低于单调加载;随着循环次数的增加,残余应变逐渐增加,且增加的幅度亦有所加大,出现损伤软化的特征。

水泥砂浆动态轴向拉伸本构关系试验研究

针对混凝土的重要组成材料水泥砂浆,在MTS试验机上对其进行不同应变速率、不同预静载下的冲击加载以及变幅三角波荷载下的动态轴向拉伸系列试验。试验结果表明:①砂浆的抗拉强度随应变率变化敏感性较强,在10-6～10-2 s-1应变率范围内,强度可提高2倍以上;②弹性模量随应变率增加成比例增长,但幅度不大;③峰值应变随应变率的提高有所提高,但离散性较大。极限应变值没有明显率敏感性;④由应变片值获得的名义轴拉应力应变曲线可简化为三段折线,上升段可近似看为直线段,下降段可看成两段折线,卸载至约25%强度时,出现拐点,应变约为200με;⑤65%以下预静载没有对砂浆的动载强度产生不利,反而有所增强;⑥在加载上升段进行地震作用频率范围的往复加载,对水泥砂浆造成的损伤累计较小。