复合材料正交叠层板最终拉伸强度的细观统计分析

本文对复合材料正交叠层板［０／９０／０］的最终拉伸破坏行为进行了研究．首先,提出一种修正的剪滞分析方法,求解叠层中由９０°层的基体开裂和０°层的部分纤维断裂相互作用所导致的应力重新分布;然后,采用随机临界核统计模型,对叠层板的最终破坏进行了细观统计分析．对［Ｏ＿２／９０＿ｍ］＿ｓ、［Ｏ＿４／９０＿ｍ］＿ｓ碳／环氧和［Ｏ＿４／９０＿ｍ］＿ｓ玻璃／环氧的计算结果表明,估计的最终拉伸强度与现有的实验结果有较好的符合．     

割口单向叠层板的拉伸应力集中与强度

基于剪滞理论,建立一种分层剪滞模型,分析了含割口的单向叠层板在拉伸载荷作用下的应力重新分布问题,获得了割口前缘完整纤维的应力集中因子.在此基础上,采用细观统计破坏理论,研究了割口单向叠层板的拉伸破坏强度,得到了与现有实验较吻合的结果.     

内聚力界面单元与复合材料的界面损伤分析

推导了一种基于内聚力模型无厚的界面单元,用来模拟复合材料纤维与基体之间的界面层．研究了纤维周期分布的复合材料受横向荷载时,在界面不同的强韧性条件下其界面损伤演化的规律和对复合材料整体性质的影响     

考虑界面损伤层合梁板的层间应力分析

基于精确应力分析的广义六自由度板理论,应用变分原理和损伤力学中 的应变等效原理,考虑复合材料铺设层内和层间界面处的损伤效应,建立了具两种损伤模式 的复合材料层合板的三维非线性平衡微分方程,且运用有限差分法对考虑损伤简支层合梁板 的层间应力进行了求解.     

复合材料Reissner板中与界面相交的裂纹奇异性分析

基于切口尖端附近区域位移场的渐近展开,提出了分析复合材料板中与界面相交的切口应力奇异性的新方法。将位移场渐近展开式的典型项代入弹性板的基本方程,得到关于复合材料板中与界面相交的切口应力奇异性指数的一组非线性常微分方程的特征值;采用变量代换法,将非线性特征问题转化为线性特征问题,并用插值矩阵法求解获得了各向异性结合材料中与界面以任意角相交的裂纹尖端的应力奇异性指数随裂纹角的变化规律;最后将计算结果与现有结果进行对比。结果表明:两种结果吻合较好,表明本文方法是有效的。     

具有中心孔的正交复合材料板在双轴载荷下的应力分析

本文研究了具有中心孔的正交复合材料板在双向载荷下的应力,建立了有限校核系数和双轴率以及之间板宽率的关系,并得到孔边的应力集中系数.这些结果对研究具有中心孔的正交复合材料板在双向载荷下的强度预测和应力分析具有重要的作用.     

Analysis of stress concentrations in unidirectional composites taking into account the tensile load in the matrix

A modified shear-lag model accounting for the effect of the tensile stiffness of the matrix is proposed for solving the stress redistribution due to the failure of fibers and matrix in unidirectionally fibre-reinforced composites. The advantages of this model are simple, reasonable and accurate by comparison with the other similar modified shear-lag models. It can be further extended to study the stress redistribution with interfacial damage between fibres and matrix. This paper quantitatively discusses the influence of the tensile stiffness ratio of matrix to fibre and of the fibre volume fraction on the stress concentration in the fibres and matrix adjacent to cut fibres and matrix, and suggests that the influence of the matrix stiffness on the stress concentration can be neglected when the matrix stiffness is low, such as polymer matrix composites, and the fibre volume fraction is high. For other cases such as ceramic and metal matrix composites, the tensile load of the matrix cannot be neglected in the shearlag analysis. The project supported by the Guangdong Provincial Natural Science Foundation of China.     

A STUDY OF THE INFLUENCE OF INTERFACIAL DAMAGE ON STRESS CONCENTRATIONS IN INTRAPLY HYBRID COMPOSITES

In the axial tensile failure process of intraply hybrid composites, the breakage of some fibers may lead to interfacial damage, thus directly influencing the local stress concentrations near the sites of breakage. A modified shear-lag model, in which the interfacial damage is considered, is proposed. Based on the model, the influence of interfacial shear strength on the stress concentrations and the lengths of interfacial damage zone is first studied. The present results also provide an important theoretical basis for investigating the failure mechanism and hybrid effects for such kind of composites. Project supported by the National Natural Science Foundation of China (No. 199902004) and Guangdong Provincial Natural Science Foundation (No. 000391).     

Analysis of interlaminar stress and nonlinear dynamic response for composite laminated plates with interfacial damage

By considering the effect of interfacial damage and using the variation principle, three-dimensional nonlinear dynamic governing equations of the laminated plates with interfacial damage are derived based on the general sixdegrees-of-freedom plate theory towards the accurate stress analysis. The solutions of interlaminar stress and nonlinear dynamic response for a simply supported laminated plate with interfacial damage are obtained by using the finite difference method, and the results are validated by comparison with the solution of nonlinear finite element method. In numerical calculations, the effects of interfacial damage on the stress in the interface and the nonlinear dynamic response of laminated plates are discussed.     

Moiré-numerical hybrid analysis of cracks in orthotropic media

The effectiveness of a new photomechanical-numerical hybrid method for evaluating stress intensity factors (SIFs) in orthotropic composites is demonstrated. Reliable results are obtained from few moiré-measured displacements and they originate well away from the crak tip. The method is illustrated for the case of a uniaxially loaded orthotropic glass/epoxy composite containing a central, transverse crack.     

Mass and isotopic concentrations of water-insoluble refractory carbon in total suspended particulates at Mt. Waliguan Observatory (China)

Mass concentration and isotopic values δ¹³C and ¹⁴C are presented for the water-insoluble refractory carbon (WIRC) component of total suspended particulates (TSP), collected weekly during 2003, as well as from October 2005 to May 2006 at the WMO-GAW Mt. Waliguan (WLG) site. The overall average WIRC mass concentration was (1183 ± 120) ng/m³ (n = 79), while seasonal averages were 2081 ± 1707 (spring), 454 ± 205 (summer), 650 ± 411 (autumn), and 1019 ± 703 (winter) ng/m³. Seasonal variations in WIRC mass concentrations were consistent with black carbon measurements from an aethalometer, although WIRC concentrations were typically higher, especially in winter and spring. The δ¹³C PDB value (−25.3 ± 0.8)‰ determined for WIRC suggests that its sources are C₃ biomass or fossil fuel combustion. No seasonal change in δ¹³C PDB was evident. The average percent Modern Carbon (pMC) for ¹⁴C in WIRC for winter and spring was (67.2 ± 7.7)% (n = 29). Lower pMC values were associated with air masses transported from the area east of WLG, while higher pMC values were associated with air masses from the Tibetan Plateau, southwest of WLG. Elevated pMC values with abnormally high mass concentrations of TSP and WIRC were measured during a dust storm event.     

THE ANALYSES OF THE THREE-DIMENSIONAL STRESS STRUCTURE NEAR THE CRACK TIP OF MODE I CT SPECIMENS IN ELASTICPLASTIC STATE(Ⅰ)—THE ANALYSES OF CONSTRAINT PARAMETERS AND FRACTURE PARAMETERS

In the present paper, three dimensional analyses of some general constraint parameters and fracture parameters near the crack tip. of Mode I CT specimens in two different thicknesses are carried out by employing ADINA program. The results reveal that the constraints along the thickness direction are obviously separated into two parts: the keeping similar high constraint field (Z₁) and rapid reducing constraints one (Z₂). The two fields are experimentally confiremed to correspond to the smooth region and the shear lip on the fracture face respectively. So the three dimensional stress structure of Mode I specimens can be derived through discussing the two fields respectively. The distribution of the Crack Tip Opening Displacement (CTOD) along the thickness direction and the three dimensional distribution of the void growth ratio (V_g) near the crack tip are also obtained. The two fracture parameters are in similar trends along the thickness direction, and both of them can reflect the effect of thickness and that of the loading level to a certain degree.