既有锈蚀RC梁剩余抗剪承载力试验

为了准确评估锈蚀RC梁的剩余抗剪承载力,在对6根既有纵筋、箍筋锈蚀都比较严重的混凝土抗弯构件进行了剩余抗剪承力试验研究的基础上,提出了锈蚀RC梁的剩余抗剪承载力计算公式.结果表明,既有锈蚀RC梁挠度曲线没有明显的开裂拐点;破坏时脆性明显,裂缝集中在某一处,间距较大,破坏荷载和屈服荷载接近,受剪破坏形态可能表现为加载点下垂直裂缝引起的破坏.所提出的既有锈蚀RC梁剩余抗剪承载力计算公式与试验结果吻合较好,可为锈蚀RC梁剩余抗剪承载力评估提供一定参考.     

基于CFD的磁射流抛光去除机理分析

应用计算流体动力学(CFD)方法分析了一种新型精密抛光技术——磁射流抛光的材料去除机理。磁射流抛光中,含有磨料的磁流变液射流被喷嘴出口附近的局部外加纵向磁场磁化,产生准直的硬化射流束来进行相对远距离的精密抛光。介绍了磁射流抛光的原理和实验装置,分析了磁流变液聚束射流的形成,通过一系列定点抛光实验研究了磁射流抛光工艺的材料去除分布特征,利用计算流体动力学的方法分析了垂直冲击和倾斜冲击情况下,磁流变液射流与工件表面相互作用时径向流场功率密度的分布特征。实验结果和仿真计算结果表明:磁流变液射流在工件表面径向扩展流动产生的径向剪切作用导致了材料去除;CFD方法能模拟抛光区去除率的三维分布,因此可以准确地预测抛光区形状。     

新型PBL键外包钢-混凝土组合梁抗弯承载力简化计算

基于理论分析,建立了新型PBL键外包钢-混凝土组合梁抗弯承载力计算的基本假定和计算模型,推导出组合梁抗弯承载力的简化计算公式,并采用有限元分析软件ANSYS14.5对组合梁进行了非线性有限元分析.对比分析表明:新型PBL键外包钢混凝土组合梁抗弯承载力的试验值、简化计算值和模拟分析值吻合较好.     

强激光在超音速射流剪切层中传播的数值研究

以波长10 6μm、半径0 1m、强度166W的高功率CO2激光束穿过二维超音速自由射流剪切层流场为计算模型,研究了由于强激光束辐射加热对流场的干扰以及激光束穿过超音速射流剪切层后远场光强分布的变化。结果表明:在不同的马赫数下超音速射流剪切层流场对激光束远场强度分布影响明显不同,流场密度分布的微小变化都会使光束远场强度分布产生显见的不同;对于透过超音速射流流场的非聚焦的强激光束,由强激光束所产生的辐射加热对流场所造成的干扰可以忽略。     

带暗支撑型钢高强混凝土中高剪力墙抗震性能试验

为进一步了解带暗支撑剪力墙的抗震性能,用4片剪跨比为1.8,边缘构件配筋率相同,暗支撑形式不同的型钢高强混凝土剪力墙做试验,讨论不同暗支撑形式型钢高强混凝土中高剪力墙的抗震性能。试验结果表明,采用带暗支撑的型钢高强混凝土中高剪力墙在承载能力和延性上都优于一般的型钢高强混凝土中高剪力墙,给出的试验分析结果和建议可供工程设计参考。     

多轴向织物层合板层间剪切强度有限元分析与实验研究

用VIMP工艺制备了UD、0/45/-45、0/45/90/-45三种多轴向织物增强,四种厚度的GFRP层合板试样,采用短梁剪切实验考察了层间剪切强度和破坏模式。建立了GFRP层合板短梁剪切试样有限元模型,计算了内部层间剪应力分布。结合计算和实验结果分析表明层合板存在由宽度方向层间剪应力变化导致的自由边缘效应,含偏轴铺层的层合板更容易发生边缘开裂破坏。厚度相同时0/45/-45多轴向织物增强层合板的层间剪切强度最高。短梁剪切强度测试存在尺寸效应,随着厚度的增加,强度下降,样品波动系数增大。     

南水北调中线工程安阳段渠坡换填土的强度特性研究

为了分析南水北调中线工程安阳段渠坡的稳定性,对该渠坡换填土在不同含水率下进行了不固结不排水三轴剪切试验.研究结果表明:剪切速率对基质吸力的影响较大,而对强度的影响较小;通过比较确定了合适的剪切速率;含水率相同的试样在不同围压下的强度值在pf -qf坐标上呈良好的线性关系;得到了试样在不同含水率下的总强度指标,建立了总内...     

弹性基上圆柱管弯曲行为的高阶剪切梁理论解

以弹性基上圆柱管为研究对象,基于高阶剪切变形梁理论推导了Winkler弹性基圆柱管弯曲变形的高阶剪切梁理论控制方程,给出四种典型工况弯曲问题的精确解.研究表明,无须假设剪切修正系数,只需引入适当横截面翘曲形状函数,高阶梁理论在圆柱管内外表面满足剪应力τxr为零的边界条件,且对于不同长径比和厚径比的圆柱管弯曲问题均能提供...     

A higher order coupled frequency characteristics study of smartmagneto-electro-elastic composite plates with cut-outs using finite element methods

This article deals with investigating the effect of cut-outs on the natural frequencies of magneto-electro-elastic (MEE) plates incorporating finite element methods based on higher order shear deformation theory (HSDT). In order to consider the influence of cut-out, the energy of the cut-out domain is sub-tracted from the total energy of the entire plate. The governing equations of motions are derived through incorporating Hamilton's principle and the solution is obtained using condensation technique. The proposed numerical formulation is verified with the results of previously published literature as well as the numerical software. In addition, this research focuses on evaluating the effect of geometrical skewness and boundary conditions on the frequency response. The influence of cut-outs on the degree of coupling between magnetic, electric and elasticfields is also investigated.     

Numerical simulation study on penetration performance of depleted Uranium (DU) alloy fragments

Due to its high strength, high density, high hardness and good penetration capabilities, Depleted ura-nium alloys have already shined in armor-piercing projectiles. There should also be a lot of room for improvement in the application of fragment killing elements. Therefore, regarding the performance of the depleted uranium alloy to penetrate the target plate, further investigation is needed to analyze its advantages and disadvantages compared to tungsten alloy. To study the difference in penetration per-formance between depleted uranium alloy and tungsten alloy fragments,firstly, a theoretical analysis of the adiabatic shear sensitivity of DU and tungsten alloys was given from the perspective of material constitutive model. Then, taking the cylindrical fragment penetration target as the research object, the penetration process and velocity characteristics of the steel target plates penetrated by DU alloy frag-ment and tungsten alloy fragment were compared and analyzed, by using finite element software ANSYS/LS-DYNA and Lagrange algorithm. Lastly, the influence of different postures when impacting target and different fragment shapes on the penetration results is carried out in the research. The results show that in the penetration process of the DU and tungsten alloy fragments, the self-sharpening properties of the DU alloy can make the fragment head sharper and the penetrating ability enhance. Under the same conditions, the penetration capability of cylindrical fragment impacting target in vertical posture is better than that in horizontal posture, and the penetration capability of the spherical fragment is slightly better than that of cylindrical fragment.