现浇钢筋混凝土圈过梁裂缝控制

结合工程实例，探讨了现浇钢筋混凝土圈过梁收缩裂缝控制问题。分析了裂缝间距与梁配筋率之间的关系，提出了依据过梁净跨度确定圈梁的最低配筋率以控制裂缝的措施。     

一种大量程疲劳试验机实现小试样预制裂纹的方法

根据简单的力学原理，提出了一种使用大量程程控高频疲劳试验机，按照国标2038-91标准预制三点弯曲小试样裂纹的方法——双试样法，并与单试样法进行了对比，给出了实验数据，说明了双试样法的优点，详细给出了三点弯曲试样裂纹预制的相关公式及确定各个载荷具体方法。     

中心裂纹圆盘裂纹形状尺寸对应力强度因子的影响

采用有限元数值分析方法 ,分析了由脆性材料制成的中心裂纹圆盘试件 ,在复合模式加载条件下裂纹形状尺寸 ,尤其是裂纹宽度和中心小孔半径对应力强度因子的影响 .结果表明 :槽式和槽孔组合式裂纹圆盘试件 ,其I型无量纲应力强度因子FⅠ均比按理想裂纹推出的解析解大 ,而Ⅱ型无量纲应力强度因子FⅡ 均比解析解小 ;随着加载角度增加 ,FⅠ 的数值解与解析解的差值逐渐变小 ,而FⅡ 的差值逐渐变大 ;同时 ,随着裂纹槽宽度或中心小孔半径的增加 ,应力强度因子数值解与解析解之差逐步增加 .依据数值分析的结果 ,给出了这两类试件相对于理想中心裂纹圆盘试件应力强度因子解析解的修正公式 .     

铆接结构中缺陷的脉冲远场涡流定量评估技术

针对飞机机身铆接结构检测中难以对缺陷进行定量评估的问题,将脉冲远场涡流检测技术运用于铆接结构缺陷检测之中。利用脉冲激励频谱成分丰富、可提取特征信息较多的优势对铆接结构中缺陷的定量评估技术展开研究。首先,建立铆接结构脉冲远场涡流三维检测模型,对缺陷进行检测,从而确定缺陷位置。在此基础上,分析缺陷类型、尺寸对检测信号的影响发现直接耦合分量幅值与上下表面缺陷深度之间具有不同的变化关系,从而实现对缺陷的分类识别。最终,利用信号的过零时间变化量实现对缺陷深度的定量,在缺陷深度已知的情况下,进一步利用直接耦合分量幅值变化对上表面缺陷长度进行定量;利用间接耦合分量幅值变化对下表面缺陷长度进行定量。     

冻融循环下含裂隙类岩石冻胀力的力学模型及实验研究

以水泥砂浆类岩石材料为研究对象,结合弹性力学、断裂力学和流体力学相关理论,推导出体积膨胀机制作用下多孔岩石冻胀力计算的理论模型,得出冻胀力和体积模量之间呈正相关的增长方式;对经过冻融循环的含裂隙试件进行单轴压缩实验,分析冻胀力对不同角度裂隙试件的影响,发现冻胀力对0°试件的峰值强度影响最明显,随着裂隙倾角的增加,冻胀力对裂隙试件的峰值强度的影响逐渐减弱。该研究为岩体裂隙中冻胀力的求解提供了一个确切的模型,并通过实验验证了冻胀力模型的可行性,为以后研究裂隙中冻胀力的大小提供了理论依据。     

SINGLE AND DOUBLE EDGE INTERFACE CRACK SOLUTIONS FOR ARBITRARY FORMS OF MATERIAL COMBINATION

In this paper interfacial edge crack problems are considered by the application of the finite element method. The stress intensity factors are accurately determined from the ratio of crack-tip-stress value between the target given unknown and reference problems. The reference problem is chosen to produce the singular stress fields proportional to those of the given unknown problem. Here the original proportional method is improved through utilizing very refined meshes and post-processing technique of linear extrapolation. The results for a double-edge interface crack in a bonded strip are newly obtained and compared with those of a single-edge interface crack for different forms of combination of material. It is found that the stress intensity factors should be compared in the three different zones of relative crack lengths. Different from the case of a cracked homogeneous strip, the results for the double edge interface cracks are found to possibly be bigger than those for a single edge interface crack under the same relative crack length.     

Determination of crack growth kinetics in non-reinforced semi-crystalline thermoplastics using the linear elastic fracture mechanics (LEFM) approach

The aim of this study was to find a satisfactory method to characterize the fatigue crack growth behavior of non-reinforced, semi-crystalline thermoplastic polymers using linear elastic fracture mechanics (LEFM). For this, crack growth curves (crack length versus cycle number) as well as crack growth kinetics curves (crack growth rate da/dN versus amplitude stress intensity factor ΔK) had to be generated. As methods suggested by ISO 15850 and ASTM E 647-11 failed to provide satisfactory results for the crack growth curves, a more advanced method was searched for and finally found in the literature. Regarding the crack growth kinetics curve, the idea of the calculation was based on methods recommended in ISO 15850 and ASTM E 647-11. However, these methods had to be considerably modified and improved in order to get accurate results with little scatter. The whole methodology was developed and verified with fatigue crack growth tests on two semi-crystalline thermoplastics (polyoxymethylene POM and polyetheretherketone PEEK).     

基于路用性能的石灰-钢渣稳定土试验分析

基于路用性能设计正交试验,研究了影响石灰-钢渣稳定土抗压强度的4种因素.结果表明,对于石灰-钢渣稳定土初期抗压强度,石灰含量影响最大,钢渣影响较小;但对于其后期抗压强度,钢渣掺量的影响明显增强,且钢渣粒径大小对后期强度增长速率的影响较大.试验结果对比发现,石灰-钢渣稳定土具有较高的无侧限抗压强度和加州承载比,满足《公路路基设计规范》(JTG D30-2015)和《公路路面基层施工技术细则》(JTG/T F20-2015)的要求,表明可以使用钢渣代替部分石灰或水泥应用于高速公路路床填料.     

井下车用零件多裂纹扩展的时变可靠性分析

针对工程中井下车用零件的多裂纹损伤问题，通过扭转疲劳试验模拟了车用零件中传动轴的疲劳损伤，并应用长焦显微镜与照相机相结合的测量法对零件一定疲劳循环次数后的表面裂纹进行了测量统计，同时以Paris模型及剩余强度估算模型对统计数据进行处理，得到了剩余强度.再应用所建立的时变可靠性数学模型，求取了零件时变强度的漂移率及波动率，并最终得出了该零件在一定疲劳循环后的可靠度.该方法从实际应用上解决了时变理论对零部件时变强度的动态检测问题，将时变理论向工程化应用推进一步，具有良好的应用前景.     

Kinematics of layered reinforced-concrete planar beam finite elements with embedded transversal cracking

In this work crack formation and development is addressed and implemented in a planar layered reinforced-concrete beam element. The crack initiation and growth is described using the strength criterion in conjunction with exact kinematics of the interlayer connection. In this way a novel embedded-discontinuity beam finite element is derived in which the tensile stresses in concrete at the crack position reaching the tensile strength will trigger a crack to open. Since the element is multi-layered, in this way the crack is allowed to propagate through the depth of the beam. The cracked layer(s) will involve discontinuity in the cross-sectional rotation equal to the crack-profile angle, as well as a discontinuity in the position vector of the layer’s reference line. A bond–slip relationship is superimposed onto this model in a kinematically consistent manner with reinforcement being treated as an additional layer of zero thickness with its own material parameters and a constitutive law implemented in the multi-layered beam element.