Master crack types and typical acoustic emission characteristics during rock failure

Acoustic emission(AE)signals contain substantial information about the internal fracture characteristics of rocks and are useful for revealing the laws governing the release of energy stored therein.Reported here is the evolution of rock failure with diferent master crack types as investigated using Brazilian splitting tests(BSTs),direct shear tests(DSTs),and uniaxial compression tests(UCTs).The AE parameters and typical modes of each fracture type were obtained,and the energy release characteristics of each fracture mechanism were discussed.From the observed changes in the AE parameters,the rock fracture process exhibits characteristics of staged intensifcation.The scale and energy level of crack activity in the BSTs were signifcantly lower than those in the DSTs and UCTs.The proportion of tensile cracks in the BSTs was 65%–75%,while the proportions of shear cracks in the DSTs and UCTs were 75%–85%and 70%–75%,respectively.During the rock loading process under diferent conditions,failure was accompanied by an increased number of shear cracks.The amplitude,duration,and rise time of the AE signal from rock failure were larger when the failure was dominated by shear cracks rather than tensile ones,and most of the medium-and high-energy signals had medium to low frequencies.After calculating the proposed energy amplitude ratio,the energy release of shear cracks was found to exceed that of tensile cracks at the same fracture scale.

Thermal stability and mechanical properties of thick thermal barrier coatings with vertical type cracks

The thermal stability and failure mechanism of thick thermal barrier coatings(TBCs) with and without vertical type cracks were investigated through the cyclic thermal exposure and thermal-shock tests. The TBC systems with thickness of about 2000 μm in the top coat were prepared by an air plasma spray(APS) on the bond coat of about 150 μm in thickness prepared by APS. The adhesive strength values of the as-prepared TBCs with and without vertical type cracks were determined to be 24.7 and 11.0 MPa, respectively, indicating the better interface stability in the TBC with vertical type cracks. The TBC with vertical type cracks shows a better thermal durability than that without vertical type cracks in the thermal cyclic exposure and thermal-shock tests. The hardness values of the as-prepared TBCs with and without vertical type cracks were found to be 6.6 and 5.3 GPa, respectively, which were increased to 9.5 and 5.5 GPa, respectively, after the cyclic thermal exposure tests. These results indicate that the vertical type cracks developed in the top coat are important in improving the lifetime performance of thick TBC in high temperature environment.

Characterization of the Type IV crack in high Cr steel weldments

The weldments for several types of high Cr ferritic steels were investigated to understand the fracture mechanism of the Type IV crack. The creep testing shows that the Type IV cracking is more likely to occur at the lower stress level, whereas at the higher stress level the crack shifts towards parent metal. The microstructures observed in the HAZ for all the materials are mostly tempered lath martensites. There was no δ ferrites found in all creep specimens.

AN INVESTIGATION OF RANDOM FATIGUE STRENGTH OF K-TYPE TUBULAR JOINTS AND CRACK PROPAGATION BEHAVIORS

Random fatigue of welded K-type tubular joints subjected to axial or out-of-plane bending load is analyzed. By considering the sizes of initial surface cracks and material constants as random variables with some probabilistic distributions, incorporating the effect of the weld, five hundred random samples are generated. Statistical computational results of life of crack propagation and effect of change of crack shape are finally obtained and compared with experimental data available based on a regression analysis. Meanwhile, crack propagation behaviors are also investigated.

T23/P23钢高强匹配焊缝金属接头再热裂纹表征

综述了T23/P23钢高强匹配焊缝金属接头再热裂纹的特征。结果表明,T23/P23耐热钢高强匹配接头再热裂纹倾向明显,焊后状态高强匹配接头具有较高的强度和可以接受的塑性和韧性。接头显微组织中的HAZ粗晶区碳化物析出、晶界的滑移及晶界的脆化是再热裂纹产生的必要条件;影响HAZ组织的主要因素是母材中碳化物形成元素和残留元素的种类及含量。随接头拘束应力增大,再热温度升高时再热裂纹倾向增大。T23/P23钢接头中氢的行为是产生再热裂纹不可忽视的影响因素。生产中常用低应力化和低氢化综合工艺及参数,以及新型专用焊接材料等措施,使接头中的应力水平降低,氢含量最小化,控制再热裂纹形成条件,并获得了较满意的效果。

不同填充裂纹位置与尺寸下的类岩石试样破坏研究

为了研究不同填充裂纹位置和尺寸对类岩石试样力学性能和破坏特征的影响,制备裂纹宽度分别为20 mm、40 mm和60 mm,开度分别为2 mm、4 mm和6 mm且分别分布于试样中部和边部的类岩石试样,分析试样的单轴压缩强度和裂纹扩展状态。结果表明:随着裂纹宽度和开度的增加,试样的有效承载能力逐渐降低,单轴压缩强度逐渐下降;中部裂纹两端萌生的翼型裂纹是试样失效的主要裂纹,边部填充裂纹能够有效抑制翼型裂纹的萌生,使得边部填充裂纹试样单轴压缩强度高于中部填充裂纹试样。该研究可以为巷道支护结构的安全性能评估和使用寿命预测提供试验依据。

P92钢接头Ⅳ型开裂蠕变孔洞临界值的分析及应用

【目的】分析P92管道接头热影响区发生Ⅳ型开裂的蠕变孔洞临界值的影响因素,得到蠕变孔洞临界值计算方法,为评估接头开裂风险提供依据。【方法】收集服役后发生Ⅳ型开裂的P92接头,在未开裂处取样进行610℃下不同应力条件的高温持久蠕变试验,然后使用光学显微镜、电子显微镜观察服役开裂接头和持久断裂接头热影响区的蠕变孔洞分布形貌,并借助图像分析软件测量蠕变孔洞的面积分数,同时使用硬度仪测试热影响区软化情况,最后综合测试结果分析细晶区软化程度和接头应力水平对蠕变孔洞临界值的影响,并拟合应力、显微硬度、孔洞临界值三者之间的函数关系。【结果】研究发现,P92钢接头细晶区相比于接头其它区域软化速度更快,但软化作用并非其发生Ⅳ型开裂的必要条件,当应力水平较高时,细晶区没有发生明显软化时就可以触发蠕变开裂;得到接头轴向应力水平、蠕变孔洞面积分数临界值和显微硬度的函数关系式。【结论】引起Ⅳ型开裂的蠕变孔洞面积分数临界值与相对应力水平(轴向应力与硬度的比值)有关,相对应力水平越高,蠕变孔洞临界值越小,接头安全性就越低;通过测量接头细晶热影响区的蠕变孔洞面积分数和显微硬度,可以估算开裂接头的轴向应力水平,也可以评估在役未开裂接头的Ⅳ型开裂风险。

不同类型钢纤维UHPC无腹筋梁受剪性能试验

基于单点加载下4根超高性能混凝土无腹筋梁构件受剪破坏试验结果,研究其受剪性能,以钢纤维类型为主要研究参数,分析钢纤维类型对无腹筋梁的受剪承载力、裂缝发展形态、挠度和韧性等发展规律。结果表明:端钩型钢纤维对提高超高性能混凝土无腹筋梁的受剪承载力、阻滞裂缝发展及控制试件变形能力作用优于光滑平直型和波浪型钢纤维,而端钩型Ⅱ钢纤维优于端钩型Ⅰ钢纤维;端钩型Ⅰ和光滑平直型钢纤维增韧效果较好,但分担纵筋拉力较少;波浪型钢纤维分担纵筋拉力较多,提高超高性能混凝土无腹筋梁抗裂性的效果较好,但增韧效果较差。经对比分析,陈璇公式计算值精确度较高,离散程度小。

华北地区古建筑木构件开裂类型与特征分析

木构件开裂是木结构古建筑中主要残损类型之一,影响古建筑安全性能。为研究古建筑木构件的开裂类型与特征,通过现场勘查对我国华北地区8处木结构古建筑的关键木构件开裂情况进行检测,获得古建筑木构件开裂残损的类型与形态、数量、尺寸等特征,并与自然干燥的现代材开裂情况进行比较,观察木材裂缝长时间的变化情况。研究结果表明:古建筑木构件开裂率约85%,裂缝按其形态与开裂原因可分为干缩裂缝与受力裂缝,干缩裂缝为主要类型;多数干缩裂缝开裂深度未至髓心,比例为78.16%;木构件干缩开裂特征受其形态影响,自然干燥现代材与古建筑木材开裂特征相同,达到平衡含水率后开裂特征基本不发生变化。

单轴压缩条件下软硬互层类岩石的声发射特性与裂纹类型演化

为进一步揭示不同层理倾角的软硬互层岩在单轴压缩下的声发射特性和裂纹扩展规律,采用类岩石材料制备了软硬互层类岩石试样,基于搭载DS-5型声发射监测系统的RMT-150B型岩石力学试验系统,开展了不同层理倾角(0°、30°、45°、60°和90°)的软硬互层类岩石试样的单轴压缩试验,分析了层理倾角对岩样声发射特性、损伤演化和裂纹扩展的影响。结果表明:试样的声发射活动呈现明显的阶段性特征,且不同层理倾角下其分布特征具有明显差异,声发射特征参数表现出明显的层面效应,声发射累计振铃计数和累计能量随着层理倾角的增大先减小后增大;低频-超高幅信号的突然出现或占比增加可作为软硬互层类岩石试样的破坏前兆,低角度(0°、30°)试样表现为大尺度裂纹稳步扩展破坏,中角度(45°、60°)试样为大尺度裂纹突发失稳扩展破坏,高角度(90°)试样为小尺度裂纹突发失稳扩展破坏,60°层理倾角为试样破坏的最不利角度;试样的损伤累积过程同样具有明显的阶段性特征,在峰值应力前,试样的损伤累积主要集中在高速率损伤阶段,中等角度(45°、60°)的层理面加快了试样的损伤累积过程;不同层理倾角对软硬互层类岩石试样的拉剪裂纹演化的影响差异明显,水平层理面促进了拉剪裂纹的产生,层理倾角的逐渐增大促进了类岩石试样拉剪裂纹的发育,在层理面与岩石基体共同作用下,随着层理倾角的逐渐增大,类岩石试样的剪切裂纹占比先增大后减小,且剪切裂纹数目处于较高水平。研究结果对地下工程围岩结构的稳定性评估具有一定的参考作用。

含有不同裂纹类型的弧齿锥齿轮副啮合特性分析

在重载和交变载荷工况下,弧齿锥齿轮易产生齿根裂纹导致轮齿断裂,需明晰裂纹对啮合特性的影响机理,为故障诊断提供理论基础.利用ANSYS软件对弧齿锥齿轮齿副进行静态接触仿真分析.通过单元节点替换的方法设置了多种裂纹类型的故障模型,探讨了裂纹对弧齿锥齿轮副啮合特性的影响.研究结果表明:当轮齿接触椭圆移动到轮齿裂纹区域,啮合刚度随着裂纹的严重程度增加而逐渐下降,平面裂纹工况、空间裂纹工况和断齿工况的刚度最大下降量分别为27.58%,14.12%,32.82%.轮齿啮合的接触椭圆位置、裂纹位置以及深度会使齿面接触应力以及齿根弯曲应力产生不同的增减趋势.

Acoustic emission assessment of interface cracking in thermal barrier coatings

In this paper,acoustic emission（AE） and digital image correlation methods were applied to monitor interface cracking in thermal barrier coatings under compression.The interface failure process can be identifie via its AE features,including buckling,delamination incubation and spallation.According to the Fourier transformation of AE signals,there arefourdifferentfailuremodes：surfaceverticalcracks,opening and sliding interface cracks,and substrate deformation.The characteristic frequency of AE signals from surface vertical cracks is 0.21 MHz,whilst that of the two types of interface cracks are 0.43 and 0.29 MHz,respectively.The energy released of the two types of interface cracks are 0.43 and 0.29 MHz,respectively.Based on the energy released from cracking and the AE signals,a relationship is established between the interface crack length and AE parameters,which is in good agreement with experimental results.

准噶尔盆地盆1井西凹陷侏罗系三工河组凝析气藏特征及成因机制

基于油气地球化学、试油结果与凝析气相态分析实验等资料,采用盆地模拟技术分析了准噶尔盆地盆1井西凹陷前哨井区侏罗系三工河组凝析气藏特征,并对凝析气藏的成藏过程与成因机制进行了详细研究。研究结果表明:①盆1井西凹陷侏罗系三工河组凝析气藏为构造-岩性油气藏,优质储层岩性主要为灰色细—中粒长石岩屑砂岩,孔隙度为2.70%~16.10%,平均为12.10%,渗透率为0.016~109.000 mD,平均为14.170 mD,属于中孔、低渗储层,与下伏的二叠系风城组和下乌尔禾组2套烃源岩形成了良好的储-盖组合。②研究区凝析油表现为低密度、低黏度、低凝固点和低含蜡量等特征,正构烷烃以低—中碳数为主,为下乌尔禾组烃源岩成熟—高成熟阶段的产物。③研究区凝析气藏天然气组分以烃类气为主,甲烷与乙烷碳同位素值分布集中,分别为-37.40‰~-36.84‰与-27.55‰~-26.54‰,为腐殖型烃源岩裂解气,来源于下乌尔禾组烃源岩。④研究区下乌尔禾组烃源岩于古近纪早期生成的凝析油气经过不断调整最终于新近纪早期充注形成凝析气藏,从成藏至现今储层流体组分未发生改变,油气藏相态类型也未发生改变,为原生型凝析气藏。

基于声发射检测CSG材料损伤演变及裂纹识别

为了从细观角度揭示胶凝砂砾石(CSG)材料损伤演变机制和裂纹的分类演化规律,结合声发射测试技术,采用Geiger时差定位法、上升角-平均频率法和高斯混合模型,对CSG材料的裂纹类型进行识别.结果表明:CSG材料的破坏过程可分为原始裂纹闭合、新生裂纹扩展、裂纹聚结和峰后破坏4个阶段;声发射事件的三维定位直观反映了裂纹萌生、扩展直至贯通的动态演化过程;通过裂纹类型识别,加载前期试件以剪切裂纹为主,后期拉伸裂纹占比增加,在临近破坏前,高水胶比时剪切裂纹与拉伸裂纹比约为2∶1,低水胶比时约为1∶1.

花马湖连通工程边坡失稳模式及应对措施研究

为了解决花马湖上湖与中湖水系连通工程的沿线边坡失稳问题,以开挖施工过程中发生的边坡失稳情况为基础,对边坡失稳机理、变形破坏特征及产生地质条件进行系统分析,提出四类边坡失稳模式,即均质蠕滑-拉裂型(Ⅰ型)、缓-中倾顺向坡滑移-拉裂型(Ⅱ型)、块体结构楔形块体剪切-滑移型(Ⅲ型)和复合型(Ⅳ型)四类,并根据每种类型的失稳主控因素提出相应的应对措施。结果表明:对于Ⅰ型边坡不宜太陡,全强风化基岩开挖坡比1∶1~1∶0.75较适宜,及时对边坡进行喷护;对于Ⅱ型边坡主要采用锚杆(索)进行系统加固和锁口处理;对于Ⅲ型是对不稳定块体及时进行加固或清除处理,加固手段主要根据块体大小可采取不同长度锚杆(索);对于Ⅳ型应结合地质地形条件找出关键边坡失稳模式,采取相应的应对措施。针对不同地质条件所采取的不同开挖坡比和锚杆支护措施,取得了较好的效果,可为类似边坡工程提供参考。

沥青路面裂缝的破坏机理研究

为了改善公路沥青路面建设水平,总结了沥青路面裂缝分类方法,以某国道项目为研究对象,分析了横向裂缝、纵向裂缝、块裂等裂缝的破坏机理。同时,利用有限元软件建立该公路沥青路面的计算模型,并基于断裂力学理论,计算了不同工况下的应力强度因子和断裂韧度,判断裂缝发展趋势。

动力扰动下深部围岩巷道破坏规律研究

为了解决高地应力下深部围岩失稳、破损难控制的问题,利用数值模拟软件对动载扰动下巷道围岩变形情况进行研究,发现随着时间的增长,巷道围岩变形呈现逐步增大的趋势,巷道拱顶率先出现位移变形,其次是左帮。同时对扰动强度对裂缝数量及裂纹类型进行分析,发现扰动强度的大小对裂纹断裂形式并无较大影响,只对裂纹数量有影响。

一种聚合物交联堵漏剂的研制与评价

针对裂缝型或缝洞型失返性漏失,堵漏材料在井下被流体稀释,导致堵漏成功率低的问题,以丙烯酰胺(AM)、2-丙烯酰胺基-2-甲基丙磺酸(AMPS)单体为原料,span80为乳化剂,过硫酸钾/亚硫酸氢钠(KPS/SHS)为氧化还原引发剂,采用乳液聚合方法,制备聚合物乳液;聚合物乳液中加入4%~8%Tween80作为转相剂,1%~3%三氯化铬作为交联剂,即可制备遇水交联增稠,快速形成高强度的弹性体的聚合物交联堵漏剂。实验评价表明该聚合物交联堵漏剂在地面可以泵送至井底,井底遇水交联增稠井可驻留能力强;堵漏剂交联增稠交联时间可控,稠化时间最短可达4~5s,交联时间最短可达60min;堵漏剂交联增稠时间受井底温度、钻井液地层水的矿化度、循环的钻屑以及膨润土浆的含量等因素影响较小,形成的较高强度弹性体,可以为水泥等其他堵漏材料提供较强承托能力,减少流体对水泥稠化性能的影响,提高钻完井过程中的裂缝型或缝洞型失返性漏失的堵漏成功率。

喉管式催化裂化原料喷嘴雾化性能研究

通过喷嘴雾化试验与模拟数值的交叉验证,分析了喉管式喷嘴的内部流动情况和雾化情况,建立了适用的模拟模型。结果表明:在试验和模拟条件下,喷嘴出口雾滴呈扇形喷出,分布较均匀;喷嘴出口雾滴粒径呈单峰分布,索达尔平均粒径模拟结果(67.2μm)与试验结果(78.0μm)的偏差为-13.8%,平均速度模拟结果(55.1 m/s)与试验结果(49.3 m/s)的偏差为11.8%,模型准确性较高。模拟研究发现:液相在预混室发生一次雾化,在喉管处发生二次雾化,经喷嘴出口喷出,粒径减小至67.2μm。该结果为喉管式喷嘴的结构优化、改进设计提供了依据。

沥青路面裂缝成因及防治措施探究

为了提升公路沥青路面的管养水平,结合规范将沥青路面裂缝划分为横向裂缝、纵向裂缝、块裂、龟裂等形式,并依据裂缝宽度或块度对裂缝进行分级。以某公路路面改造工程为例,对其沿线裂缝病害类型、占比及PCI指数进行研究,分析横向裂缝、纵向裂缝、块裂和龟裂的产生原因。提出沥青路面裂缝的预防和处治措施,比如铺土工织物、加强路面内部排水、稀浆封层法、薄层罩面法等,并基于PCI指数衰减模型阐述了沥青路面裂缝处治时机和处治资金的分配方法,研究成果可供类似项目养护提供理论依据。