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1.
基于P-CCNBD试样的岩石动态断裂韧度测试方法 总被引:2,自引:0,他引:2
预裂的人字形切槽巴西圆盘(Pre-cracked chevron notched Brazilian disc,简称P-CCNBD)是将人字形切槽巴西圆盘(cracked chevron notched Brazilian disc,简称CCNBD)的切槽尖端再稍加切削制成直裂纹前沿的试样。利用霍普金森压杆对P-CCNBD砂岩试样进行径向冲击,完成I型动态断裂试验后再做数值分析得到岩石的动态断裂韧度。为了验证数值模拟的可靠性,先进行了无限平面中一条有限尺寸裂纹表面受冲击拉伸作用的动态有限元分析,结果表明,数值模拟的结果与Shi得到的结果非常吻合。将试验-数值法和他人的准静态法分别确定的砂岩的动态起裂韧度进行对比,两种方法得到的结果有一定的差异。采用试验-数值法,将比较成熟的直裂纹巴西圆盘(cracked straight-through Brazilian disc,简称CSTBD)和P-CCNBD两种试样测得的结果进行对比,两者吻合较好。得到的动态起裂韧度都有随着加载率的增加而增大的加载率效应。分析了准静态法的缺陷,认为试验-数值法得到的结果更为合理。 相似文献
2.
The cracked chevron notched semi-circular bending (CCNSCB) method falls into a significant testing category of chevron notched specimens for measuring the mode I fracture toughness, of which the progressive fracture mechanism deserves to be further assessed under intermediate dynamic loading rate (IDLR). In this study, the discrete element method (DEM) is adopted to depict the three-dimensional fracture processes of the CCNSCB specimens subjected to different IDLRs considering different supporting spans. The results demonstrate that the crack front of the CCNSCB specimen with any loading condition is prominently curved, which violates the straight-through crack propagation assumption and may induce some errors in the fracture toughness measurements. For each IDLR, the peak force of the CCNSCB specimen evidently increases with decreased supporting span, and the effect of loading rate on this parameter is more prominent for a smaller supporting span. For a relatively large span, the crack grows restrictively in the notched ligament, which conforms to the ideal assumption of the fracture process and contributes to an accurate measurement of the mode I fracture toughness. Thus, a large supporting span is suggested for the semi-circular bend tests. Additionally, the critical crack length and peak force are found dependent on the loading rate, and they are larger for the higher loading rate. Thus, the critical crack length determined under quasi-static conditions is not strictly suitable for the specimens under different IDLRs, especially for the much higher IDLR. This study calls for more attention on how to accurately determine the fracture toughness via chevron notched samples. 相似文献
3.
采用国际岩石力学学会岩石断裂韧度建议测试方法(ISRM)[1]提出的V形切槽巴西圆盘试样(CCNBD),测试了一种泥质砂岩的I型断裂韧度值,给出了一套试样切割制备方案,从试验现象角度分析了该泥质砂岩的断裂力学特性,讨论了该试样类型的有效尺寸和断裂机制,并指出了该方法的特点和优劣性,得出如下结论:(1)该类岩石试样测得的I型断裂韧度值对CCNBD试样直径尺寸变化具有较大的敏感性,并且直径大于ISRM建议方法中最小有效直径(75 mm)的试样测试结果更为稳定;(2)CCNBD试样断裂机制表现为以拉张应力(间接拉伸)作用为主,兼有一定的韧带面内剪切作用的应力状态下I型裂纹扩展模式;(3)V形切槽巴西圆盘方法具有试样加工工艺简单、能承受较大临界载荷、测试的I型断裂韧度值较稳定等优点,但其没有考虑断裂过程区(FPZ)的非线性问题,建议对该方法进行非线性修正图解方案研究,以达到更准确测定岩石断裂韧度的目的。 相似文献
4.
国际岩石力学学会(ISRM)在1995年提出一种新型的岩石断裂韧度试样--人字形切槽巴西圆盘试样(cracked chevron notched Brazilian disc--CCNBD),对该试样的一个重要力学参数即最小无量纲应力强度因子的标定,以前的分析和计算都没有考虑切槽宽度的影响。然而试样切槽的宽度受切割刀具厚度所限,不能为零。当试样较小时,切槽宽度则相对较大。通过三维边界元计算分析表明,切槽宽度越大,无量纲应力强度因子的标定值就越大;对于ISRM推荐的CCNBD标准试样,得出其最小无量纲因子值为0.954,这比ISRM给出对应值0.84要大13.6 %。同时,小裂纹应力强度因子曲线的变化趋势也发生了质的变化,这可能会导致实验的失败。推荐最小无量纲应力强度因子的标定采用考虑切槽的三维分析。 相似文献
5.
Summary The effect of testing method and specimen geometry such as diameter, thickness, and crack length and type on measured fracture
toughness was investigated using specimens collected from a limestone rock formation outcropping in the Central Province of
Saudi Arabia. Straight Edge Cracked Round Bar Bend (SECRBB), semicircular disk specimens under three point bending, and Brazilian
disk specimens under diametrical compression were used in this investigation. SECRBB specimens were used for the Mode-I study,
and notched Brazilian disk and semicircular specimens were used for the mixed Mode I–II study. The results show that specimen
diameter and crack type have a substantial influence on the measured fracture toughness; however, loading rate, crack size,
and specimen thickness seem to have a negligible effect on the fracture toughness. Mode-I fracture toughness is significantly
influenced by specimen diameter and crack type, while their effects on Mode-II fracture toughness are generally negligible.
The different specimens (SECRBB, Brazilian disk, and semicircular) can give comparable results only when the proper span to
diameter ratio is used. The Brazilian disk with a straight notch was found to be the most convenient geometry to use for fracture
toughness determination. A simple method of making a precise notch inside the disk is presented, using the combination of
a drilling machine and a wire saw. 相似文献
6.
岩石断裂韧度表征其抵抗裂纹起裂和扩展的能力,作为其力学性能的一个重要指标,在岩石力学理论研究与岩体工程应用中有着不可替代的作用。由于岩石结构的复杂性,其破坏形式大多呈现为复合型断裂破坏,研究复合型加载条件下岩石断裂韧度具有重要的意义。为了研究锈岩的断裂力学性能,以便其在建筑工业中得到更为广泛的应用,通过18个中心裂纹圆盘(CSTBD)试件径向受压试验,进行了复合型加载条件下锈岩断裂韧度的试验研究。测得了锈岩在纯I型,纯II型以及复合型加载时的断裂韧度,并将试验结果与基于广义最大周向应力(GMTS)准则的理论值进行了对比分析,结果表明:锈岩的纯I型断裂韧度为1.01 MPa?m0.5,而纯II型断裂韧度为1.51 MPa?m0.5,是纯I型断裂韧度的1.49倍,这与基于GMTS准则的理论值1.34非常接近,而比基于最大周向应力(MTS)准则的理论值0.87大很多。裂纹尖端附近的T应力及断裂过程区裂纹尖端的临界距离rc对岩石类材料的开裂路径以及复合型断裂韧度都有较大的影响。考虑了T应力的广义最大周向应力(GMTS)准则能很好的预测试验结果。 相似文献
7.
断裂韧度试样CCNBD宽范围应力强度因子标定 总被引:6,自引:3,他引:3
国际岩石力学学会(ISRM)在1995年提出了一种新型岩石断裂韧度试样--人字形切槽巴西圆盘试样CCNBD,但是,其断裂韧度计算公式中的重要参数(即无量纲应力强度因子的标定)仍存在问题。采用一种新的分片合成方法并结合有限元法,参照ISRM给出的CCNBD试样的尺寸限制,对该范围试样的应力强度因子进行了宽范围的标定,以便在试验中能因地制宜地选用不同几何参数的CCNBD试样。结果表明:分片合成方法的计算值有很高的精度,不但减少了工作量,也使标定的无量纲应力强度因子比现有文献值更加准确、可靠。 相似文献
8.
国际岩石力学学会建议了4种岩石I型断裂韧度(KIC)测试方法。将建议方法的人字形切槽巴西圆盘试样与直切槽半圆盘试样结合,可以得到具有诸多优点的人字形切槽半圆盘(CCNSCB)三点弯曲试样。近年来,CCNSCB方法受到许多关注,然而,其渐进破坏过程却尚未进行有效的评估。为此,对其进行了数值研究,其内容包括:进行细观损伤力学模拟,直观展现CCNSCB试样渐进断裂过程;考虑不同支撑跨距与直径之比( )的影响,发现 愈大,愈加符合测试原理,建议 取0.8;采用有限元子模型技术对CCNSCB方法( 0.8)中计算KIC的关键参数-临界无量纲应力强度因子( )进行了宽范围标定,可供相关研究直接查取;细观损伤力学模拟峰值力对应的临界裂纹与有限元标定 对应的临界裂纹较为一致,证明CCNSCB方法测试原理的合理性,以及数值模拟与 标定结果的有效性。 相似文献
9.
用5种圆盘试件的劈裂试验确定岩石断裂韧度 总被引:5,自引:1,他引:4
用5种不同形状的圆盘试件测定了大理岩张开型断裂韧度。5种圆盘试件分别为平台巴西圆盘、带有中心圆孔的平台巴西圆盘、人字型切槽巴西圆盘、直切槽巴西圆盘和圆孔切槽平台巴西圆盘。加载模式是对径压缩劈裂。介绍了试件的制作方法,提出了用每种圆盘确定断裂韧度的公式。结果表明,含有切槽圆盘的断裂韧度值在0.78~0.91 MPa•m1/2之间,不含切槽圆盘测得的值在1.01~1.04 MPa•m1/2之间。有3种含有切槽圆盘测得的断裂韧度值比较稳定,其中孔槽式平台巴西圆盘能够制作理想的宽度较小的切槽。 相似文献
10.
CCNBD断裂韧度试样的SIF新公式和在尺度律分析中的应用 总被引:6,自引:0,他引:6
根据国际岩石力学学会于1995年推荐的一种测试岩石断裂韧度的新型试样-人字形切槽巴西圆盘试样,对其断裂韧度计算公式中的关键参数即无量纲应力强度因子(SIF)提出了一个改进的计算公式。采用分片合成方法结合有限元法对CCNBD试样的应力强度因子进行了宽范围标定,结果以表格的形式给出;并采用数据线性回归的方法,将标定结果以一个指数函数的形式给出。结果表明,与标定值相比,无量纲应力强度因子新公式的误差较小,并且囊括了CCNBD试样的较宽范围的尺寸,且查表使用方便,也为理论分析提供了条件。在此基础上,对岩石断裂韧度测试的尺度律进行了更进一步的探索,结果表明,利用新公式进行的尺度律分析是有效的。 相似文献
11.
Experimental Calibration of ISRM Suggested Fracture Toughness Measurement Techniques in Selected Brittle Rocks 总被引:1,自引:4,他引:1
Summary A wide variety of specimen types and methods are employed in fracture toughness measurement of rocks, which result in scattered
values for the same rock type. In order to provide some consistency to the values, the International Society for Rock Mechanics
(ISRM) recommended three suggested methods using core based specimens, the Chevron Bend (CB) test, the Short Rod (SR) test
and the Cracked Chevron Notch Brazilian Disc (CCNBD) test. This standardization helped obtain more consistent values but still
a variation of 20–30% was observed in the values of fracture toughness obtained with the CB and SR methods. The values obtained
with the CCNBD method were found to be consistently lower (30–50%) than those of the other two methods (CB and SR). Many reasons
have been offered to explain this deviation. These include size of the specimen, anisotropy of rock, a dimensionless parameter
in the fracture toughness calculation equation for the CCNBD test, etc. A comprehensive test program was initiated to identify
the cause of these discrepancies between the CB and CCNBD methods. Three brittle rock types were selected for the study and
more than 200 tests were conducted to measure the values of fracture toughness.
A rigorous statistical analysis was carried out to determine the confidence level and find the significance of the test results.
It was found that the CB and CCNBD methods were very comparable provided the correct equation for fracture toughness calculation
was used for the CCNBD method and the size of the specimens was selected carefully. The error in the ISRM 1995 formula of
fracture toughness for the CCNBD method could be the major factor responsible for the consistently lower values obtained with
the method. 相似文献
12.
采用中心裂纹圆盘-霍普金森压杆(CCCD-SHPB)试验系统对大理岩中心裂纹圆盘试件进行不同加载速率下的纯Ⅰ型加载试验,研究岩石材料动态断裂韧性的加载速率相关性。考虑到试验中所使用的圆盘试件是带有中心切口的非理想裂纹,结合试件的实际加工情况,提出采用切口尖端形状为小圆弧形的预制裂纹,介绍了试件的制作方法,并利用有限元计算论证了采用这种形状非理想裂纹试件的试验可行性。结果表明,采用圆弧形裂尖、裂纹宽度为1 mm的中心切口非理想裂纹圆盘试件来代替理想裂纹圆盘试件是可行的,误差不超过2.13%。分析试验数据得出:非理想裂纹圆盘试件在纯Ⅰ型加载条件下,其断裂韧度表现出明显的速率相关性,且随着加载速率的增大而增大。 相似文献
13.
既有离散元参数敏感性分析大多集中在压缩试验及巴西劈裂试验,对I型断裂韧度 试验细观影响因素及3D破裂过程系统分析的报道较少。采用三维平节理模型(FJM3D)研究微观结构参数及黏结细观参数对不同切槽形状的I型断裂韧度试验的影响。微观结构参数包括晶粒平均半径的平方根 、模型分辨率Ψ和最大/最小晶粒直径 。黏结细观参数包括平均配位数CN、S类型单元比例 、黏结抗拉强度 、黏结内聚力 、摩擦系数 和摩擦角 。参数敏感性分析结果表明, 与 、CN及 正相关,与 、 负相关,而与 、 、 和 无明显的线性关系,此外为获得较低的 波动水平,给出了参数 和 的建议范围。根据参数敏感性分析结果,校核匹配了Kowloon花岗岩直切槽半圆盘(SCB)和人字形切槽半圆盘(CCNSCB)试样的宏观力学性质。从细观角度直观、深入分析不同切槽形状I型断裂韧度试验破裂机制,得出SCB试验曲线的峰前和峰后行为与室内试验更为吻合。 相似文献
14.
Mixed mode fracture experiments were conducted on Harsin marble using two disc-shape samples namely the Brazilian disc (BD)
and the semi-circular bend (SCB) specimens. For each specimen, a complete fracture toughness envelope ranging from pure mode
I to pure mode II was obtained. The experimental results indicate that the mixed mode fracture toughness depends on the geometry
and loading conditions such that for any similar mode mixture, the BD test data were significantly greater than the SCB fracture
toughness results. Therefore, the conventional fracture criteria which present a unique mixed mode fracture curve, fail to
predict the test results. It is shown that a generalized criterion, which takes into account the effects of geometry and loading
conditions, is able to provide individual fracture curves for theses specimens with very good estimates for the test results
obtained from both BD and SCB specimens. The BD and SCB specimens can be suggested as appropriate specimens for obtaining
typical upper bound and lower bound envelopes for mixed mode fracture toughness of rocks. 相似文献
15.
Summary This paper presents a systematic procedure for determining fracture toughness of an anisotropic marble using the diametral
compression test (Brazilian test) with a central crack on the discs. Additionally, a novel formulation to increase the accuracy
in Stress Intensity Factor (SIF) calculations using Boundary Element Method (BEM) is applied to determine the stress intensity
factors and the fracture toughness of anisotropic rocks under mixed-mode loading. The numerical results show that the SIFs
for both isotropic and anisotropic problems are in good agreement with those reported by previous authors. The marble with
clear white-black foliation from Hualien (in eastern Taiwan), was selected for the Brazilian tests. Diametral loading was
conducted on the Cracked Straight Through Brazilian Disc (CSTBD) specimens to evaluate their fracture toughness. In addition,
a new fracture criterion was developed to predict pure mode I, pure mode II or mixed mode (I–II) fracture toughness of the
anisotropic marble. The new fracture criterion is based on the examination of mode I, mode II and mixed mode (I–II) fracture
toughness for different crack angles and anisotropic orientation.
Authors’ address: Associate Professor Chao-Shi Chen, Department of Resources Engineering, National Cheng Kung University,
No. 1 Dasyue Rd., East District, Tainan 701, Taiwan 相似文献
16.
Naser A. Al-Shayea 《Engineering Geology》2005,81(1):84-97
Propagation of a crack in engineering materials including rocks can cause failure. Knowledge of the stress state under which a crack can propagate, and the trajectory it may follow during its growth are thus very important for the stability of rock masses/materials and for the safe design of structures in/on rocks. In this paper, the crack initiation angle and subsequent crack propagation path are experimentally investigated for limestone rock specimens. This investigation was conducted under various mixed mode I-II loading conditions, including pure mode-I and pure mode-II.This study includes conducting diametrical compression tests on notched Brazilian disk specimens. Moreover, the effect of confining pressure and temperature on crack initiation and propagation were also studied. The experimental results were compared with theoretical predictions of crack initiation angle. The results showed that limestone behaves in brittle fashion, and the effects of confining pressure and temperature on failure trajectories were not significant. Generally, the crack initiation angle can be predicted by the maximum tangential stress criterion. However, for notched Brazilian disk with high value of crack orientation with respect to loading direction, crack does not propagate from the tip of the crack. This important observation indicated that the tensile-strength failure can become more critical than the fracture-toughness failure. 相似文献
17.
Effect of Rapid Thermal Cooling on Mechanical Rock Properties 总被引:1,自引:1,他引:0
Laboratory tests have been conducted to investigate the effects of rapid thermal cooling on various rock specimens including igneous, sedimentary, and metamorphic rocks. At first, various types of thermal loading were conducted: heating up to 100, 200, and 300 °C, followed by rapid cooling with a fan. In addition, multiple cyclic thermal cooling (10, 15 and 20 cycles) with a maximum temperature of only 100 °C was conducted. Experiments included edge notched disc (END) tests to determine the Mode I fracture toughness, Brazilian disc tests to determine tensile strength, seismic tests to determine P-wave velocity, and porosity tests leading to meaningful results. Even though only small changes of temperature (rapid cooling from 100 °C to room temperature) were applied, the results showed that crack growth occurred in some rock types (granite, diabase with ore veins, and KVS) while crack healing occurred in other rock types (diabase without ore veins, quartzite, and skarn). To better understand the results, 3D transient thermo-mechanical analysis was conducted using the ANSYS program. The results indicated that there was a thin region near the outside of the specimen where large tensile stresses occur and microcracking would be expected, and that there was a large area in the middle of the specimen where lower magnitude compressive stresses occur and crack closure would be expected. It was found that the more heterogeneous and more coarse-grained rock types are more likely to exhibit crack growth, while less heterogeneous and more fine-grained rocks are more likely to exhibit crack healing. 相似文献
18.
Mixed-Mode Fracturing of Rocks Under Static and Cyclic Loading 总被引:1,自引:1,他引:0
Static diametrical compression tests conducted on inclined cracked chevron notched Brazilian disc (CCNBD) Brisbane tuff specimens showed that the notched cracks at the centre of the specimens opened (Mode I) up to 30° crack inclination angle (β), whereas crack closure (Mode II) started for β > 33°, and closure became more pronounced at even higher β of 45° and 70°. Both the experimental and numerical results showed that the crack initiation angle (θ) was a function of the β. Scanning electron microscope (SEM) images showed that fatigue damage on cyclic loading of Brisbane tuff is strongly influenced by the failure of the matrix due to both intergranular and transgranular fracturing. 相似文献
19.
为了了解砂岩的I/III复合型断裂力学性能,采用含有裂纹面垂直于底面但倾斜于正背面的三点弯曲(TPB)试件实现面外断裂。使用Abaqus通过有限元法研究了不同裂纹面倾斜角下沿着试件厚度的I型、II型与III型无量纲应力强度因子。通过讨论可知,在靠近试件厚度中点处I型与III型无量纲应力强度因子取得较大值,而II型无量纲应力强度因子取得接近于0的可以忽略的极小值,且靠近自由面处的应力强度因子不作考虑。故该种试件可用于测量材料的I/III复合型断裂性能。数值计算结果与常规TPB试件的解析公式及倾斜裂纹面TPB试件的近似计算公式的结果进行对比,证明了数值模拟结果的准确性并讨论了近似公式存在的问题。使用7组共28个该种三点弯曲试件,研究砂岩的I/III复合型断裂特性,结果表明:砂岩的I型与III型临界应力强度因子随着裂纹面倾斜角的增大先增大后减小,但其变化趋势不同;砂岩的I/III复合型等效断裂韧度随着裂纹面倾斜角的增大先增大后减小,在倾斜角接近20°时取得最大值。裂纹扩展时裂纹面将发生扭转,倾斜角θ越大则扭转角度越大。 相似文献
20.
Recalibration and Clarification of the Formula Applied to the ISRM-Suggested CCNBD Specimens for Testing Rock Fracture Toughness 总被引:1,自引:1,他引:0
The cracked chevron-notched Brazilian disc (CCNBD) was proposed by the International Society for Rock Mechanics (ISRM) to test the mode I (opening mode) fracture toughness of rock. The test method has been vigorously discussed and debated, despite being the subject of intensive research for decades. The minimum (critical) dimensionless stress intensity factors affiliated with the formula for calculating the fracture toughness using CCNBD specimens with different geometric parameters remain elusive and complex. The matter cannot be resolved by simply replacing the diameter in the original formula with the radius, as claimed by several authors. In this paper, the formula is fundamentally improved, as wide-ranging minimum dimensionless stress intensity factors pertaining to diversified CCNBD geometries are recalibrated by three-dimensional finite element analysis, and an expression with tabulated coefficients is obtained through curve-fitting the data obtained from the numerical calibration. The present results are shown to be more accurate than those in the literature. Furthermore, the importance of the reasonability of the results is highlighted; a comprehensive comparison of different values shows that the upper bounds of minimum stress intensity factors are violated by the above claim. The confusion resulting from the claim is, thus, clarified conclusively. 相似文献