On a class of method for solving problems with random boundary notches and/or cracks

As we know,problems with boundary imperfections(notches or cracks)are the more importantone in practical fracture analysis.Frequently,these imperfections would appear in the boundaries ofthe bodies as a randomly distributed group,and under the loading circumstances would grow up to beunstable cracks which induces catastrophic fracture of the bodies.For right evaluation the fracturebehavior of the bodies with such boundary imperfections,it demands mathematical solutions for pro-blems with random boundary notches and/or cracks.     

双荧光层靶Kα线强度比诊断靶内超热电子温度

 利用双荧光层复合靶产生的Kα特征线强度比诊断了靶内超热电子的温度,即通过实验测量复合靶中两种不同材料荧光层辐射出的Kα特征线强度比,结合ITS3.0程序模拟结果,对超热电子温度进行诊断。将诊断结果与实验中利用电子磁谱仪测量的超热电子温度进行了比较,二者基本一致。结果表明,选取适当的荧光层靶厚,可以利用双荧光层复合靶产生的Kα特征线强度比对靶内的超热电子温度进行诊断。     

On crack propagation in a coupled thermomechanical system of nonlinear media

In some engineering problems.thermo-mechanical coupling is im-portant and may not be ignored.This paper deals With the crackpropagation problem in a coupled thermo-mechanical system of non-linear media.Various nonlinear media.including nonlinear e-lastic and elastic-plastic cases,have been considered and therelated path-independent integrals are given.To explain thephysical meaning of these integrals,a notched specimen hasbeen considered.and the dynamical crack extension force in acoupled thermo-mechanical system is shown to be equal to thisintegral.Thus.we could consider such integrals as some non-linear criteria for coupled thermo-mechanical fracture dynamics.     

网络舆情对中国上市金融机构系统性风险影响研究

使用2015年1月到2018年12月期间东方财富网45家上市金融机构1000万余条发帖信息为研究载体,从网络关注度和网络情绪两个角度构建"网络关注度"、"网络情绪"和"网络意见分歧"共3个网络舆情指数;然后使用DCC-GARCH模型估计CoVaR度量系统性金融风险指标;之后采用系统广义矩估计(SGMM)和差分广义矩估计...     

高韧性合金钢断裂韧性及疲劳裂纹扩展门槛值的联合试验方法

在柴油机曲轴、连杆等关键零部件的可靠性设计和失效评估中,断裂韧性及疲劳裂纹扩展门槛值分别是衡量材料抵抗裂纹失稳扩展和裂纹开始扩展的重要指标．但是,对于高韧性合金材料,难以通过常规试验所推荐的厚度确定平面应变断裂韧性,而门槛值的测定通常不但非常耗时,且难以直接应用于不同循环特性的实际结构．本文针对高韧性合金钢34CrNi3MoA,提出一种将断裂韧性和疲劳裂纹扩展门槛值试验合二为一的试验方法,即用同一个试件可以同时测定门槛值和断裂韧性．利用断裂韧性关于试件厚度的渐近特性,以几种较薄试件的试验,确定平面应变状态下的断裂韧性．试验结果还表明,裂纹扩展门槛值的试件厚度依存性可以忽略,并给出了任意循环特性（应力比）下的门槛值计算公式．     

ON A CLASS OF METHOD FOR SOLVING PROBLEMS WITH RANDOM BOUNDARY NOTCHES AND/OR CRACKS-(Ⅳ)Computations for Deep Boundary Notches and/or Cracks

This paper continues the discussions to a class of method for solving problems withrandom boundary notches and/or cracks in references by C.Ouyang in [1](See also[2]and[3]).Using the basic method given in this reference as well as some further developments.We develop here a new effective computational method for solving random deep boundarynotches and/or cracks.The actual numerical computations given in this paper show that thepresent method is quite workable and the results obtained have enlarged the contents of“Handbook of Stress Intensity Factors”given by G.C.Sih.     

On a class of method for solving problems with random boundary notches and/or cracks

As we know, problems with boundary imperfections (notches or cracks) are the more important one in practical fracture analysis. Frequently, these imperfections would appear in the boundaries of the bodies as a randomly distributed group, and under the loading circumstances would grow up to be unstable cracks which induces catastrophic fracture of the bodies. For right evaluation the fracture behavior of the bodies with such boundary imperfections, it demands mathematical solutions for problems with random boundary notches and/or cracks.     

微波加热制备含稀土(La2O3)矿渣微晶玻璃研究

利用矿渣制备微晶玻璃是提高矿产资源利用率的主要形式之一。本文以白云鄂博尾矿为原料,采用微波一步法制备了CaO-MgO-Al₂O₃-SiO₂(CMAS)系辉石相矿渣微晶玻璃。选择835 ℃作为晶化温度,研究了微波加热对微晶玻璃析晶行为和微观组织的影响。以La₂O₃作为研究变量探讨了La₂O₃添加对矿渣微晶玻璃析晶行为的作用。与传统的热处理制度相比,微波加热可以在较短的时间内达到较高的析晶效果。同时La₂O₃的添加促进了晶粒细化。由拉曼光谱分析,La离子添加会导致玻璃网络中桥氧的增多,促进了辉石相析晶。在La的添加量为4%(质量分数)时硬度最高,达到了829.22 MPa。     

过渡金属催化的炔烃芳构化反应

综述了过渡金属催化的炔烃环三聚芳构化反应的历史沿革及最新研究进展，并 重点对含有不同电性取代基的炔烃环三聚反应、几种典型的催化体系和作用机理、 该领域的一些前沿热点作了评述．     

微波法热处理制备CaO-MgO-Al2O3-SiO2系微晶玻璃的研究

以二氧化硅,三氧化二铝,氧化钙和氧化镁为主要原料,分别采用微波辐射和传统电加热制备了一系列CaO-MgO-Al2O3-SiO2 (CMAS)系微晶玻璃材料,对比两种方法的热处理制度对微晶玻璃结构与性能的影响,并进一步讨论了微波非热效应的影响.利用DTA、XRD、SEM和综合力学性能仪等手段,研究了两种对该系微晶玻璃显微结构及性能的影响.实验结果表明,两种方法制备的微晶玻璃主晶相均为辉石相,力学性能也基本相当.与传统热处理方法相比,微波法可在更短时间内制备出性能较好的微晶玻璃材料,微波非热效应有助于降低其晶化温度.