光源编码的白光散斑剪切干涉计量术

本文提出了一种用非相干光源照明进行剪切干涉计量的方法—光源编码的白光散斑剪切干涉计量术.它采用光栅对光源进行编码以提高空间相干性,使物体的两个剪切像的波面部分相干叠加,以实现剪切干涉.     

QUANTIFICATION OF SHEAR DAMAGE EVOLUTION IN ALUMINIUM ALLOY 2024T3

Shear damage may occur in the process of metal machining such as blanking and cutting, where localized shear deformation is developed. Experimental findings indicate that microscopic shear damage evolution in aluminium alloy 2024T3 (A1 2024T3) is a multi-stage mechanism, including particle cracking, micro-shear banding, matrix microcracking and coalescence of microcracks. This study is an attempt to use a set of equations to describe the multi-stage shear damage evolution in Al 2024T3. The shear damage variables in terms of multi-couple parameters of a power-law hardening material have been defined. An evolution curve of shearing damage has been calculated from experimental data. The values of the shear damage variable at different stages of damage have also been calculated. By making use of the findings, the relation between the microscopic shear damage evolution and the macroscopic shear response of the material has been discussed.     

端头带有质量块的悬臂梁在冲击载荷下的两种剪切失效模型

剪切失效是强动载荷作用下结构失效的重要模式。本文给出了计及梁的转动惯量时端头带有质量块的悬臂梁结构受到冲击载荷作用后发生剪切失效的无量纲判据。分析表明，在初始速度间断面上是否发生剪切失效取决于质量块初始动能和质量块尺寸与梁厚之比，而与梁的长度无关。梁的转动惯量对于剪切失效具有不可忽略的影响。     

Ⅱ型裂纹疲劳扩展中超载行为的研究

利用铝合金ＬＹ１２ＣＺ制十字型试样进行Ⅱ型裂纹的疲劳扩展试验，施加若干次短瞬的Ⅱ型超载。发现Ⅱ型裂纹的超载行为与Ⅰ型裂纹的不同，裂纹的扩展速率可几倍于未超载时相同应力强度因子幅度下的扩展速率；而且超载后的短瞬期间，裂纹在塑性区内仍保持较快的速率扩展。试验研究表明：Ⅱ型超载和Ⅰ型超载也许分别受不同的机制控制；它更类似于Ⅲ型超载。     

等离子体理论——具有内部输运垒的托卡马克平衡位形关于高n理想磁流体气球模的稳定性

内部输运垒是一种与托卡马克等离子体的改善约束态相联系的现象。在内部输运垒所在区域，等离子体的压强梯度非常大而磁剪切极小，因此，接近内部输运垒的区域，剪切的绝对值很小。与这一现象相关的物理内容非常丰富，如磁流体稳定性问题，以及微观不稳定性（人们认为它们是产生反常输运的原因）的抑制问题等。关于小剪切条件下稳定性的处理方法本身也是一个难题.最近，Connor和Hastie（下面简称CH模型）重新研究了具有内部输运垒的等离子体的高n（环向模数）理想磁流体气球模的稳定性，     

复合材料单闭室薄壁梁弯曲与扭转分析

本文主要讨论复合材料单闭室薄壁梁的弯曲与扭转，重点研究横向剪切和限制翘曲的影响。在复合材料薄壁梁弯曲与扭转经典分析理论的基础上，建立了一种能够考虑横向剪切和限制翘曲影响的复合材料单闭室薄壁梁弯曲与扭转分析方法。     

Modeling liquefaction of water saturated granular material under undrained cyclic shearing

The tendency of particles in a water-saturated granular mass to re-arrange into a denser state during cyclic shearing under pressure results in an increase in pore water pressure. The increase in the pore water pressure causes a reduction in the inner particle contact forces, and in turn easier re-arrangement of the particles. Eventually, the material loses its shear strength, partially or almost completely. In this paper, a general three-dimensional continuum mechanics model is presented for the deformation of granular materials. A physically based model is also presented for characterization of liquefaction of the water saturated granular material under undrained cyclic shearing. The model incorporates the fabric of the granular mass, which develops as the frictional granular mass is deformed in shear. It includes the coupling between shearing and excess pore water pressure. The model parameters are estimated, based on the results of cyclic shearing experiments on large hollow cylindrical samples of silica sand. Basically, the calculation results utilizing this model can embody liquefaction phenomena of the water saturated granular material under undrained cyclic shearing.     

分形最新进展与力学中的分形

分形在力学领域中的应用已很普遍,从微结构的位错分布、局部剪切场到地壳的运动和变形都已观察到分形的行为和分形结构.本文概述了分形理论的最新进展及在力学中的应用.给出了微结构、混沌与分形的关联及塑性、局部剪切的分形模型.进而讨论了损伤断裂的分形描述以及分形熵与热力学.