加肋圆柱壳在轴压作用下的屈曲和后屈曲

本文讨论完善和非完善的,纵向加肋和正交加肋圆柱壳在轴压作用下的屈曲和后屈曲性态.依据文[1]提供的圆柱薄壳屈曲的边界层理论及其分析方法,给出了加肋圆柱壳在轴压作用下的屈曲和后屈曲理论分析.本文同时讨论肋骨与壳板材料不同时对加肋圆柱壳屈曲和后屈曲性态的影响.     

Viscosity Characteristic in Metallic Melts with Medium／Short-Range Order Structures

Viscosities and liquid structure of alloys Cu75Al25, Cu87Sn13 and Al-12.5%Si and pure metals Cu and Sn are investigated by using torsional oscillation viscometry and high temperature x-ray diffractometry. The viscosities of pure metals and eutectic alloy melts along with the short-range order structure are found to follow the Arrhenius law in a wide range of temperature above the liquidus. The breakpoints in Arrhenius plots emerge when the structures of alloy melts are transformed from the medium-range order structure to the short-range order structure. It has been found that the change of the viscosity of the metallic alloys is a characteristic of microstructure transformation in the related melts.     

钢丝的切变模量与扭转角度关系

研究了钢丝的切变模量随其扭转角度变化而变化的情况,观察到扭转角大于某一角度时,切变模量趋于定值的规律,得出扭摆实验准确测量的方法.     

应用美学原理进行愉悦式教学的尝试

由于物理学的学习难度均较大,使学生学习完全处于被动状态,如何扭转此局面呢?愉悦式教法定能如愿。1 让学生充分领略学科的美 要学好物理,首先必须对它们产生兴趣.学科安排本身就是一种美,加之论述的逻辑     

受压矩形截面柱在塑性阶段的缺陷敏感性分析

对加载到塑性阶段的矩形截面柱，本文研究了几何缺陷对屈曲的影响，在分析中考虑了弹性卸载的影响，求出了荷载、缺陷大小及分叉模态幅值之间的精确渐近关系式，结果表明在塑性阶段最大承载力对小缺陷非常敏感，但当缺陷大小达到某一值后，可能不存在最大载荷。     

复合载荷下圆底扁球壳非线性稳定性

本文采用半解析方法研究在中心分布载荷及中心集中力联合作用下,圆底扁球壳的非线性稳定性问题.避免了求近似解析解时繁重的人工计算,而p-W_m特征关系仍可由显式表达.     

分子内扭转电荷转移探针DMABN测定表面活性剂水溶液的临界胶团浓度

以对二甲氨基苯甲腈(DMABN)为探针, 测定它在表面活性剂(C12TABr、SDS、C12E23、C12-3-12·2Br)水溶液中的第二重荧光强度(Ia)和对应的特征波长(λa)对表面活性剂浓度(c)曲线, 由Ia-c 曲线的转折点或λa-c曲线对应的一阶导数极小点可以获得临界胶团浓度(cmc). 由于C12-3-C12·2Br在水溶液中强烈聚集, 利用λa-c曲线还可以获得其胶团结构松散度的信息.     

间接比较法测量扭转常数K的误差分析

主要分析实验采用的间接比较法测量扭转常数的影响因素,并通过实验测量对比,探讨扭摆周期与标准件转动惯量对扭转常数K值测量的影响,得出待测物体的转动惯量与塑料标准件转动惯量相当才能减小实验测量误差的结论。     

匀速轴向压力作用下两边简支直杆的动力屈曲

根据在不同的变形状态下匀速轴向受压的、两边简支的弹性直杆的动力屈曲控制方程,对直杆一阶、二阶形式的动力屈曲利用差分方法和有限元数值模拟方法进行计算和比较,并通过改变加载速度得到相应的数值解。计算结果表明:在保证精度的情况下,加载速度的增加使得两边简支直杆屈曲模态由一阶向二阶发生渐变;在屈曲刚发生阶段,屈曲载荷保持不变,之后屈曲载荷随着加载速度的增加而逐渐增大,且存在临界加载速度使屈曲载荷在该位置发生突变。     

Buckling Analysis of Soft Nanostructure in Nanoimprinting

Nanoimprint lithography is an economical and convenient method for manufacturing nanostructures, which has developed very quickly and has been widely used in the nanoindustry. However, during the process of nanoimprinting, mechanical instabilities of soft nanostructures could lead to buckling. In order to study the mechanism of this problem, we analyze the buckling of one vertical elastic column under its own weight. Based on the comparison between two critical heights of different substrates （rigid and elastic）, we conclude that the approximation of considering the substrate as rigid is acceptable. Furthermore the interaction between columns with the deformation of a substrate could lead to collective buckling. Our theoretical
calculations show that whether the columns are elastic or rigid makes little difference for the buckling modes.