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A Monolithic, FEM-Based Approach for the Coupled Squeeze Film Problem of an Oscillating Elastic Micro-Plate Using 3D 27-Node Elements
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作者 Anish Roychowdhury Arup Nandy +1 位作者 C. S. Jog Rudra Pratap 《Journal of Applied Mathematics and Physics》 2013年第6期20-25,共6页
In this study we describe an FEM-based methodology to solve the coupled fluid-structure problem due to squeeze film effects present in vibratory MEMS devices, such as resonators, gyroscopes, and acoustic transducers. ... In this study we describe an FEM-based methodology to solve the coupled fluid-structure problem due to squeeze film effects present in vibratory MEMS devices, such as resonators, gyroscopes, and acoustic transducers. The aforementioned devices often consist of a plate-like structure that vibrates normal to a fixed substrate, and is generally not perfectly vacuum packed. This results in a thin film of air being sandwiched between the moving plate and the fixed substrate, which behaves like a squeeze film offering both stiffness and damping. Typically, such structures are actuated electro-statically, necessitating the thin air gap for improving the efficiency of actuation and the sensitivity of detection. To accurately model these devices the squeeze film effect must be incorporated. Extensive literature is present on mod- eling squeeze film effects for rigid motion for both perforated as well as non-perforated plates. Studies which model the plate elasticity often use approximate mode shapes as input to the 2D Reynolds Equation. Recent works which try to solve the coupled fluid elasticity problem, report iterative FEM-based solution strategies for the 2D Reynolds Equation coupled with the 3D elasticity Equation. In this work we present a FEM-based single step solution for the coupled problem at hand, using only one type of element (27 node 3D brick). The structure is modeled with 27 node brick elements of which the lowest layer of nodes is also treated as the fluid domain (2D) and the integrals over fluid domain are evaluated for these nodes only. We also apply an electrostatic loading to our model by considering an equivalent electro-static pressure load on the top surface of the structure. Thus we solve the coupled 2D-fluid-3D-structure problem in a single step, using only one element type. The FEM results show good agreement with both existing analytical solutions and published experimental data. 展开更多
关键词 SQUEEZE Film Damping COUPLED PROBLEM 27-node Brick Micro-Plate
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Internet AS拓扑的“73/27”规律
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作者 张连明 《计算机工程与应用》 CSCD 北大核心 2010年第9期4-7,共4页
为了深入理解和认清Internet AS拓扑中节点度的分配规律,提出适合Internet AS拓扑的幂律模型,利用该模型推导Internet AS拓扑中最富有节点数占网络总节点数的比例与这些最富有节点所拥有的节点度数占网络节点总度数的比例之间的关系,分... 为了深入理解和认清Internet AS拓扑中节点度的分配规律,提出适合Internet AS拓扑的幂律模型,利用该模型推导Internet AS拓扑中最富有节点数占网络总节点数的比例与这些最富有节点所拥有的节点度数占网络节点总度数的比例之间的关系,分析研究幂律指数和最大节点度等拓扑参数对该比例关系的影响,通过数值分析发现Internet AS拓扑中27%的最富有节点拥有约73%的节点度数(简称为"73/27"规律),基于Internet AS拓扑经验数据对上述结果进行验证分析,结果表明该幂律模型对Internet AS拓扑是有效的,Internet AS拓扑存在"73/27"规律。 展开更多
关键词 INTERNET自治系统 幂律模型 “73/27”规律 最富有节点
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环氧化酶-2、血管内皮细胞生长因子、热休克蛋白27和P53在非小细胞肺癌中的表达及其临床意义 被引量:2
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作者 李榕 范小红 +3 位作者 钟华 陈岗 冯久贤 韩宝惠 《上海医学》 CAS CSCD 北大核心 2005年第6期465-468,共4页
目的通过对中国人非小细胞肺癌(NSCLC)患者肿瘤组织中环氧化酶-2(COX-2)、血管内皮细胞生长因子(VEGF)、热休克蛋白27(HSP27)和P53表达的检测,观察这4种蛋白质在NSCLC肿瘤组织中的表达情况,分析其与性别、年龄、病理类型、肿瘤细胞分化... 目的通过对中国人非小细胞肺癌(NSCLC)患者肿瘤组织中环氧化酶-2(COX-2)、血管内皮细胞生长因子(VEGF)、热休克蛋白27(HSP27)和P53表达的检测,观察这4种蛋白质在NSCLC肿瘤组织中的表达情况,分析其与性别、年龄、病理类型、肿瘤细胞分化程度、肿瘤直径、淋巴结转移的相关性,为临床判断和有效控制NSCLC提供有价值的参考。方法采用免疫组织化学法检测50例NSCLC患者肿瘤组织中COX-2、VEGF、HSP27和P53的表达,采用原位杂交法检测COX-2mRNA的表达。结果COX-2、VEGF、HSP27、P53单一指标阳性均与性别、年龄、组织学分类、肿瘤直径、N分期、肿瘤细胞分化程度无关。COX-2与淋巴结转移有关(偏相关系数为0.3237,P=0.028),而VEGF、HSP27、P53与淋巴结转移无关。COX-2和P53或COX-2和VEGF共同高表达在N2期的NSCLC中明显多于N0和N1期;COX-2、P53和VEGF共同高表达或其中两种蛋白质高表达在N2期的NSCLC中明显多于N0和N1期(P=0.002)。HSP27高表达虽然与淋巴结转移无关,但与COX-2高表达有关(偏相关系数为0.5143)。结论COX-2、P53和VEGF共同高表达或其中两种蛋白质高表达与NSCLC淋巴结转移密切相关。COX-2与NSCLC淋巴结转移有关。 展开更多
关键词 环氧化酶-2 血管内皮细胞生长因子 热休克蛋白27 P53 非小细胞肺癌 基因表达
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Are “Higher-Order” and “Layer-wise Zig-Zag” Plate & Shell Theories Necessary for Functionally Graded Materials and Structures?
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作者 Yaping Zhang Qifeng Fan +1 位作者 Leiting Dong Satya NAtluri 《Computer Modeling in Engineering & Sciences》 SCIE EI 2016年第7期1-32,共32页
Similar to the very vast prior literature on analyzing laminated composite structures,“higher-order”and“layer-wise higher-order”plate and shell theories for functionally-graded(FG)materials and structures are also... Similar to the very vast prior literature on analyzing laminated composite structures,“higher-order”and“layer-wise higher-order”plate and shell theories for functionally-graded(FG)materials and structures are also widely popularized in the literature of the past two decades.However,such higher-order theories involve(1)postulating very complex assumptions for plate/shell kinematics in the thickness direction,(2)defining generalized variables of displacements,strains,and stresses,and(3)developing very complex governing equilibrium,compatibility,and constitutive equations in terms of newly-defined generalized kinematic and generalized kinetic variables.Their industrial applications are thus hindered by their inherent complexity,and the fact that it is difficult for end-users(front-line structural engineers)to completely understand all the newly-defined generalized DOFs for FEM in the higher-order and layer-wise theories.In an entirely different way,very simple 20-node and 27-node 3-D continuum solid-shell elements are developed in this paper,based on the simple theory of 3D solid mechanics,for static and dynamic analyses of functionally-graded plates and shells.A simple Over-Integration(a 4-point Gauss integration in the thickness direction)is used to evaluate the stiffness matrices of each element,while only a single element is used in the thickness direction without increasing the number of degrees of freedom.A stress-recovery approach is used to compute the distribution of transverse stresses by considering the equations of 3D elasticity in Cartesian as well as cylindrical polar coordinates.Comprehensive numerical results are presented for static and dynamic analyses of FG plates and shells,which agree well,either with the existing solutions in the published literature,or with the computationally very expensive solutions obtained by using simple 3D isoparametric elements(with standard Gauss Quadrature)available in NASTRAN(wherein many 3D elements are used in the thickness direction to capture the varying material properties).The effects of the material gradient index,the span-to-thickness ratio,the aspect ratio and the boundary conditions are also studied in the solutions of FG structures.Because the proposed methodology merely involves:(2)standard displacement DOFs at each node,(2)involves a simple 4-point Gaussian over-integration in the thickness direction,(3)relies only on the simple theory of solid mechanics,and(4)is capable of accurately and efficiently predicting the static and dynamical behavior of FG structures in a very simple and cost-effective manner,it is thus believed by the authors that the painstaking and cumbersome development of“higher-order”or“layer-wise higher-order”theories is not entirely necessary for the analyses of FG plates and shells. 展开更多
关键词 functionally GRADED plates and SHELLS 20-node hexahedral element 27-node over-integration higher order theory layer-wise
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