Anisotropic creep behavior of soft-hard interbedded rock masses based on 3D printing and digital imaging correlation technology

Three-dimensional(3D)printing technology is increasingly used in experimental research of geotechnical engineering.Compared to other materials,3D layer-by-layer printing specimens are extremely similar to the inherent properties of natural layered rock masses.In this paper,soft-hard interbedded rock masses with different dip angles were prepared based on 3D printing(3DP)sand core technology.Uniaxial compression creep tests were conducted to investigate its anisotropic creep behavior based on digital imaging correlation(DIC)technology.The results show that the anisotropic creep behavior of the 3DP soft-hard interbedded rock mass is mainly affected by the dip angles of the weak interlayer when the stress is at low levels.As the stress level increases,the effect of creep stress on its creep anisotropy increases significantly,and the dip angle is no longer the main factor.The minimum value of the long-term strength and creep failure strength always appears in the weak interlayer within 30°–60°,which explains why the failure of the layered rock mass is controlled by the weak interlayer and generally emerges at 45°.The tests results are verified by comparing with theoretical and other published studies.The feasibility of the 3DP soft-hard interbedded rock mass provides broad prospects and application values for 3DP technology in future experimental research.

基于DIC及CPG技术的热冷循环后花岗岩Ⅰ型断裂特性

深部储层岩石的热力学特性,尤其是循环热冷作用下损伤破坏特性,对于增强型地热系统井壁稳定性分析及地热开采效率评估具有重要意义。针对中心直裂纹半圆盘(NSCB)花岗岩试样,首先进行不同热冷循环处理(加热温度400℃,最高循环次数13次),然后开展3点弯Ⅰ型断裂韧度特性试验。基于裂纹扩展计(CPG)和数字图像相关(DIC)测试技术,研究了热冷循环作用下花岗岩Ⅰ型断裂韧度、断裂过程区(FPZ)、裂纹扩展速率及断裂轮廓特征的影响规律。试验结果表明:当热冷循环次数达到10次以上,花岗岩试样脆性明显减弱,而峰前软化特性和峰后延性增强;花岗岩的断裂过程区由裂缝尖端开始逐步孕育,断裂过程区长度随荷载增大呈先增大后减小的趋势,Ⅰ型断裂韧度、最大断裂过程区长度及裂纹平均扩展速度随热冷循环次数增大而指数减小,Ⅰ型断裂面随热冷循环次数增大越来越不平整。最后,基于X-ray衍射(XRD)和扫描电镜(SEM)等微观测试技术,研究了热冷循环作用对花岗岩矿物成分及微观结构的影响规律,结果表明花岗岩4种矿物成分的峰值衍射强度及矿物质量分数均随热冷循环次数增大而降低,而微裂纹大小及数量随热冷循环次数增大而增大。热冷循环作用下花岗岩的损伤劣化机理包含了多次高温热损伤、水冷冲击及水弱化等3方面的联合作用结果。

基于声发射和DIC的金属材料氢脆性能测试实验

该实验针对天然气掺氢管道混输过程中产生的临氢金属氢脆问题,以X80管线钢为对象,采用声发射与数字图像相关(DIC)技术相结合的方法实现氢脆性能的动态测试。实验设计为对材料进行充氢后拉伸,采用电化学充氢法充氢,并设置4种不同充氢时间。拉伸过程中通过DIC技术测量并计算静态氢脆性能参数和氢脆敏感系数,同时利用等效应变云图和声发射计数峰值时域分布的变化规律作为氢脆性能的动态参量,进而建立一套完整的金属氢脆性能动态测试系统。该实验适合作为学生研究型教学实验,有助于培养学生的科研能力和创新意识。

Specimen aspect ratio and progressive field strain development of sandstone under uniaxial compression by three-dimensional digital image correlation

The complete stress-strain characteristics of sandstone specimens were investigated in a series of quasistatic monotonic uniaxial compression tests.Strain patterns development during pre-and post-peak behaviours in specimens with different aspect ratios was also examined.Peak stress,post-peak portion of stress-strain,brittleness,characteristics of progressive localisation and field strain patterns development were affected at different extents by specimen aspect ratio.Strain patterns of the rocks were obtained by applying three-dimensional(3D) digital image correlation(DIC) technique.Unlike conventional strain measurement using strain gauges attached to specimen,3D DIC allowed not only measuring large strains,but more importantly,mapping the development of field strain throughout the compression test,i.e.in pre-and post-peak regimes.Field strain development in the surface of rock specimen suggests that strain starts localising progressively and develops at a lower rate in pre-peak regime.However,in post-peak regime,strains increase at different rates as local deformations take place at different extents in the vicinity and outside the localised zone.The extent of localised strains together with the rate of strain localisation is associated with the increase in rate of strength degradation.Strain localisation and local inelastic unloading outside the localised zone both feature post-peak regime.

Fine Characterization and Analysis of Drying Strain of the ELM Board via DIC Technology

In this paper,the occurrence and development mechanism of strain on the cross-section during the wood drying is explored.Therefore,strain regularity on the cross-section of 50 mm thickness elm(Ulmus rubra)board at the temperature of 40℃and 80℃is detected via digital image correlation technology.Hence,the difference between tangential and radial strain at surface and core layers was denoted.The results showed that strain distribution in the width direction of the board is uneven.Moreover,a large drying shrinkage strain occurs at the near-core layer,while the maximum strain difference reaches 4.08%.Hence,the surface of the board is cracked along the thickness direction.The radial strain of the board is higher than the tangential strain in the early stage of drying,while these strains are reversed in the later stage of drying.The temperature is related to the difference between the tangential and radial strains of the elm board.These differences at the core layer are larger than those of the surface layer.The conducted research results provide a theoretical basis for process optimization.

基于DIC技术的自密实混凝土界面裂缝扩展规律研究

采用自密实混凝土作为堆石混凝土坝的抗冲磨层并与坝体进行一体化浇筑成型是一种新构造,其中抗冲磨层与坝体的界面性能至关重要。通过制作600 mm×600 mm×600 mm自密实混凝土(SCC)试件(C40SCC、C25SCC)及C40、C25SCC分层浇注试件(C40-C25SCC),结合数字图像技术(DIC)开展劈裂抗拉试验,分析了自密实混凝土界面裂缝扩展规律。结果表明:SCC断面破坏形态表现为骨料劈裂和剥落2种破坏形式;C40SCC、C25SCC及C40-C25SCC劈裂抗拉强度分别为1.861、1.416和1.362 MPa;基于DIC技术获取了裂缝相关参数,其中C40-C25SCC裂缝最大开口宽度、扩展时间均为最大,分别为0.125 mm、10.667 ms,C25SCC裂缝最大扩展速度最快,为10.12 m/s。研究表明:骨料的存在及粒径大小改变了试件破坏形态,影响了裂缝开口宽度及扩展速度变化。

Digital image correlation based high-speed crack tip locatingmethod and its application

Based on a digital image correlation（DIC）method with the measurements of a high speed crack＇s displacement and strain fields,a technique to accurately and automatically locate its crack tip has been developed.The crack tip is identified by finding the abrupt jump on the opening（or dislocation）curve of a point on the trace of the crack propagation,while the opening is measured through a virtual extensometer technique and the abrupt jump is identified by finding the peak on the curve.The method was verified using a specially designed experiment and applied to measure the critical crack tip opening angle of a rock sample.Because the involvement of analytical models has been avoided and then the good performance could be ensured for low resolution speckle images,this technique is expected to be very useful in the quantitative study of high speed cracks in experiments using high speed cameras.

Digital Image Correlation Using Specific Shape Function for Stress Intensity Factor Measurement

The stress intensity factor(SIF) is a critical parameter associated with the fracture behaviour of materials. In this paper, we select the displacement function around a crack tip as the shape function of the digital image correlation(DIC), which makes it possible to directly calculate the SIF by the correlation scheme. Moreover, we use a non-rectangular subset, which can reduce the influence of plastic deformation and crack width on the DIC measurement accuracy. We measured the SIF of a mode I crack in a super-hard aluminium alloy specimen to verify the performance of the proposed method. Our experimental results show that a DIC with a specific shape function can be used to accurately and efficiently calculate the SIF.Furthermore, we also present a practical application of our proposed method for determining the SIF, crack propagation angle and crack tip displacement.

基于DIC技术的固废粒料包裹格栅加筋试验研究

为了控制高速公路改扩建新老路基拼接后的差异沉降,该文针对老路台阶松散、含水率过高,提出一种层状处置结构,即在老路台阶面设置一层固废层包裹格栅,对比了其与砂包裹、掺入消解石灰等措施的处置效果,并采用数字散斑相关技术(DIC)观测加筋影响带,进而确定路基不同层位固废包裹层厚度。进一步分析颗粒旋转与位移情况,验证DIC观测所确定加筋影响带的可靠性与准确性。试验结果表明:①在提高老路台阶筋土界面强度的措施中,效果由优至劣依次为:固废C(粒径为10~20 mm)>固废B(粒径为5~10 mm)>砂>固废A(粒径为1~5 mm)>掺灰6%>掺灰4%,增强效果随包裹固废粒径的增大而提升;②DIC试验结果表明:加筋影响带随法向应力的增大而减小,且格栅上方厚度大于格栅下方,发生旋转的颗粒主要集中在格栅下方3 cm内,格栅上方5 cm内;③基于加筋影响带厚度确定固废包裹层最佳厚度建议值:对于路基中部约为20 cm,路基底部铺设厚度约为15 cm,路基上部铺设层厚度应不小于25 cm。

基于DIC技术的曲率对成形极限的影响研究

高强度钢因具有强度高、相同强度下质量更小的特点,成为目前车身及零部件上使用最多的材料。起皱、破裂是汽车覆盖件在弯曲成形及曲面翻边成形过程中的主要缺陷,而曲率是影响其成形性能的重要因素。为了预防起皱、破裂等缺陷,提高高强度钢的成形性能,利用数字图像相关(Digital Image Correlation,DIC)技术及Nakajima试验研究曲率对高强度钢成形极限的影响。以DP780高强度钢为试验材料,分别在不同直径的冲头下对其进行胀形试验,利用DIC技术实时监测板材的应变状态,通过位置相关法求得DP780在不同曲率下的成形极限曲线(Forming Limit Curves,FLC),并绘制各曲率下DP780板材的成形极限图(Forming Limit Diagrams,FLD)。通过对比各曲率下的FLC可知,DP780高强度钢板的成形性能随着曲率的增加而提高。

基于DIC技术的选区激光熔化Inconel 625拉伸性能及各向异性的研究

选区激光熔化(SLM)Inconel 625成型件各向异性缺乏相关研究与评估,为研究其在不同打印角度下的各向异性及力学性能,以镍基高温合金粉末Inconel 625为原料,采用SLM技术制备0°、45°和90°3类不同打印角度的试件,通过准静态拉伸试验和数字散斑图像技术(DIC),获得Inconel 625材料的应力应变数据及全场应变分布。结果表明:0°角打印在3类成型方式中力学性能最优,打印角度的选择对激光成型Inconel 625抗伸强度、应力应变分布影响较大;对比DIC全场应变云图与强度分布曲线发现应力集中带分布与打印角度一致,SLM制备成型件时选取0°角打印、减少分层数可有效降低各向异性的影响并提升力学性能;最后,通过扫描电镜对试样的断口形貌进行观察和分析,发现0°角试件断口处存在大量小尺寸韧窝,分层处未出现层间断裂,45°、90°角试件断口多位于分层结合处;准静态拉伸Inconel 625成型件断裂模式为韧性断裂。通过DIC技术可以精确研究SLM成型件应变分布,为今后降低和预防增材制造各向异性提供了参考。

基于DIC技术的静压邻桩遮拦效应模型试验

先压桩会对后压桩产生遮拦影响,后压桩亦会挤压周围土体迫使先压桩发生上浮以及倾斜,这些效应都会影响桩基础的承载力和稳定性.因此,研究己打入桩对土体位移的遮拦效应具有很重要的工程价值.基于模型试验和数字图像相关(digital image correlation,DIC)技术,研究了不同桩间距、砂土粒径、桩壁粗糙度条件下先压桩对后压桩的遮拦效应.对后压桩沉桩过程中先压桩桩周土体水平位移进行分析后发现,随着桩间距的不断增大,水平方向的遮拦效应不断减弱.对不同桩间距水平衰减幅度进行拟合,可以推测当桩间距达到6D(D=30mm)后,先压桩对后压桩基本没有遮拦效应.研究结果发现:不同粒径土体情况下,粒径大小对邻桩的水平遮拦效应影响并不大;不同粗糙度的桩壁所造成的衰减幅度随着桩壁粗糙度的降低而不断减小,说明桩壁越光滑,遮拦效应越小;后压桩对桩周土体的挤压会造成先压桩桩体产生倾斜和上浮,其中桩间距越小、桩壁越粗糙,先压桩的水平位移、倾斜角度、上浮量就越大;桩周土体粒径越细,先压桩水平位移和上浮量就越小,但倾斜角度会变大.

基于DIC技术分析钢纤维对混凝土轴压性能的影响

为了分析不同掺量钢纤维对混凝土单轴受压性能的影响,进行了不同掺量钢纤维混凝土单轴受压纵向、横向和体积应力-应变全曲线的测试,并利用数字图像相关技术研究了单轴受压破坏过程中试件表面的应变变化。试验结果表明:钢纤维的加入可以改变试件单轴受压过程中的应变分布;随着钢纤维掺量的增加,钢纤维桥接裂缝两侧应力的能力增加,混凝土试件的残余抗压强度增大;相比试件Y方向的应变云图,X方向的应变云图能更准确表征试件裂缝的开展趋势。

基于光斑投影3D-DIC的动态液面波高场测量方法研究

动态液面波高场测量与面型三维重建是流体力学、晃荡动力学等研究领域中的重要问题,但目前仍缺乏一种简易且高效的高精度全场测量手段.基于光斑投影和三维数字图像相关(3D digital image correlation,3DDIC)原理,提出了一种动态液面波高场的测量方法.通过液体染色和光斑投影,在液体表面形成光斑纹理,设置双目相机拍摄动态液面的散斑图像.运用交比不变性标定板及张正友标定法获得双目相机内外参矩阵,并基于反向组合高斯牛顿(inverse-compositional Guass-Newton,IC-GN)的3D-DIC算法实现动态液面波高场的高精度三维重构.进一步建立光斑投影的几何光学模型,模拟规则波液面的双目图像,开展数值模拟测量以验证本方法的理论精度,同时开展真实液面波高场的测量验证.结果表明,本方法可实现动态液面波高场的高精度全场测量,模拟液面测量的均方差为0.004 mm,真实静态液面抬升测量的均方差为0.022 mm,真实动态液面测量的均方差小于0.037 mm.本文方法具有高精度、非接触和全场测量等优势,可在实验室流体测量和相关工程场景中推广应用.

超低温DIC全场微应变测量精度提高方法

数字图像相关技术在非均质焊接接头的力学性能研究方面具有独特的优势,但低温介质气化引起的气流扰动、起雾、结霜以及低温引起光学玻璃的厚度和折射率发生改变均会对图像产生较大影响,是DIC测试系统的误差的主要来源。本文分析了超低温环境下DIC全场微应变测量误差的影响因素,掌握超低温环境下的光测力学误差产生的机理,提出了DIC全场微应变测量精度提高方法,将超低温环境DIC全场微应变测量精度提高45倍,对准确获取贮箱焊缝结构在低温环境下全场力学性能,提高焊接结构性能,保证焊接结构安全性和可靠性具有重要的意义。

基于图形散斑相关法(DIC)的结构钢塑性应变分布研究

韧性断裂作为结构钢的一种重要破坏形式,近年来吸引了许多学者对其进行研究。为研究结构韧性断裂的本构关系,首先从塑性全量理论出发,基于四个假定引入了修正外形曲线的材料系数,详细推导了钢材主应力面上塑性应变分布的数学模型;然后,基于图形散斑相关法(DIC)拟合标定了Q235及Q345结构钢的修正外形曲线的材料系数。通过研究,给出了一种精确的计算结构钢大塑性变形主应力上应变分布的方法,以期为今后研究和预防钢结构韧性断裂提供参考。

基于DIC的混凝土嵌入式BFRP筋拔出行为及黏结性能研究

基于数字图像相关(DIC)技术对混凝土内嵌入式玄武岩纤维增强聚合物(BFRP)筋的界面黏结性能及其拔出过程开展了研究.采用数字图像采集处理技术获取了BFRP筋从混凝土表面拔出过程的应变场演变数据并计算了界面的黏结应力.结果表明:BFRP筋从混凝土表面拔出过程中,黏结应力与应变沿筋材呈现对称分布;随着拉拔荷载的增加,界面黏结应力、应变均不断增大,养护龄期为7 d的C50混凝土与BFRP筋的黏结界面在靠近加载端区域的最大应力和应变分别为3.3 MPa、0.020;与淡水河砂混凝土相比,当养护龄期达到28 d时,相同水胶比下海水海砂混凝土与BFRP筋界面黏结处的最大应力提高了19%左右;延长养护龄期可有效增大混凝土与BFRP筋的界面黏结应力;界面黏结应力和应变沿加载端到自由端呈线性下降趋势;拔出后加载端混凝土损伤严重,BFRP筋黏结段呈现部分纤维拉断剥离现象.

基于3D-DIC下不同水胶比对混凝土内部非均匀变形的影响

采用三维数字图像相关技术(3D-DIC)对处在干燥条件下混凝土内部非均匀变形进行测试。研究不同水胶比对在干燥条件下混凝土内部的全场位移、正应变和主应变的影响。结果表明,在水胶比在0.38~0.42范围内,随着水胶比的增大,混凝土试件在x、y、z方向发生的位移变化越小;水胶比为0.38时,正应变介于-1700με到250με,波动范围最小,最大收缩值也最小;水胶比为0.38时,第一主应变蓝色阴影区域面积(较大拉伸应变和较大收缩应变)最小,第二主应变的阴影区域面积(较大的收缩应变)最小;水胶比为0.38时,第一主应变频率分布高斯拟合后的中心值和半宽高分别为261.8和616.4,随着水胶比的增大,中心值和半宽高都随之增大,拉伸应变的增加,相比收缩应变,其所占比例变得更大。同时,第一主应变的分布范围也随之增大,变得越来越广,越来越不均匀。

基于高速DIC的近场冲击下高强混凝土动态压缩性能研究

为了解近场冲击荷载作用下装配式预制桥梁结构高强混凝土材料的破坏特征及高应变率力学响应特征,采用100 mm大直径霍普金森压杆(split Hopkinson pressure bar,SHPB)对C60及C80两种高强度等级混凝土进行单轴冲击压缩试验。获得了混凝土的应力-应变曲线、动态弹性模量及动态增长因子等动态参数。利用高速数字图像相关(digital image correlation,DIC)技术对混凝土表面应变场进行研究,分析了试样破坏过程中裂纹扩展过程。试验结果表明:在高应变率下,高强混凝土试件的动态压缩强度呈现明显的率效应,但其弹性模量保持恒定;对数函数模型能够较好地表征混凝土的动态强度演化模式;宏观上可以将观察到的破坏模式划分为4种模式:完整试样、轴向劈裂、混凝土爆裂及粉碎;高应变率下,裂缝演化不稳定性增大,其扩展速率随应变率的增大而增大。

基于DIC实验的自同步振动系统研究

自同步振动机械通过简化传统的刚性连接实现同步运动,在工业上得到广泛应用。受限于测量手段,目前对自同步机械的研究主要集中在理论建模与数值仿真环节,鲜有对实验数据的分析。为了解真实自同步装置的动力学特性,通过高速相机对基于直流电机的自同步实验装置的运动过程进行记录,并使用数字图像相关方法(Digital Image Correlation,DIC)得到实验结果。通过经验模态分解(Empirical Mode Decomposition,EMD)等手段对不同工况下的实验数据进行处理。结果显示:实验装置在进入同步状态后,在不同工况下表现出的同步特征有所不同;装置同步后的运动数据依然存在波动,且波动频率与转子转速、实验装置的参数都有一定相关性。研究结果可为自同步现象的实验测量提供参考,同时也丰富了自同步现象实验分析的研究资料。