Analysis of the Flow Rate Characteristics of Valveless Piezoelectric Pump with Fractal-like Y-shape Branching Tubes

Microchannel heat sink with high heat transfer coefficients has been extensively investigated due to its wide application prospective in electronic cooling. However, this cooling system requires a separate pump to drive the fluid transfer, which is uneasy to minimize and reduces their reliability and applicability of the whole system. In order to avoid these problems, valveless piezoelectric pump with fractal-like Y-shape branching tubes is proposed. Fractal-like Y-shape branching tube used in microchannel heat sinks is exploited as no-moving-part valve of the valveless piezoelectric pump. In order to obtain flow characteristics of the pump, the relationship between tube structure and flow rate of the pump is studied. Specifically, the flow resistances of fractal-like Y-shape branching tubes and flow rate of the pump are analyzed by using fractal theory. Then, finite element software is employed to simulate the flow field of the tube, and the relationships between pressure drop and flow rate along merging and dividing flows are obtained. Finally, valveless piezoelectric pumps with fractal-like Y-shape branching tubes with different fractal dimensions of diameter distribution are fabricated, and flow rate experiment is conducted. The experimental results show that the flow rate of the pump increases with the rise of fractal dimension of the tube diameter. When fractal dimension is 3, the maximum flow rate of the valveless pump is 29.16 mL/min under 100 V peak to peak （13 Hz） power supply, which reveals the relationship between flow rate and fractal dimensions of tube diameter distribution. This paper investigates the flow characteristics of valveless piezoelectric pump with fractal-like Y-shape branching tubes, which provides certain references for valveless piezoelectric pump with fractal-like Y-shape branching tubes in application on electronic chip cooling.

Fractal Features and Computer Simulation of Fan-Shaped Sedimentary Bodies in Faulted Basins

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Plus Shape Slotted Fractal Antenna for Wireless Applications

Fractal antennas are characterized by space filling and self-similarity properties which results in considerable size reduction and multiband operation as compared to conventional microstrip antenna. This paper outlines a multiband antenna design based on fractal concepts. Fractal antennas show multiband behavior due to self-similarity in their structure. The plus shaped fractal antenna has been designed on a substrate of dielectric constant €r = 4.4 and thickness 1.6mm. The proposed antenna is characterized by a compact size and it is microstrip feed fractal patch of order 1/3. It is observed that the antenna is radiating at multiple resonant frequencies. The resonant frequency is reduced from 2.2 GHz to 900 MHz after I & II iterations respectively. Thus considerable size reduction of 81.77% & overall bandwidth of 12.92% are achieved. The proposed antenna is simulated using the method of moment based commercial software (IE3D) and it is found that simulated results are in good agreement with the experimental results.

基于参数化技术的图案设计综述

参数化、变量化技术是学术界、产业界的一个交叉学科研究热点。分析了包括形状语法、分形理论、数学模型等参数化图案设计的理论和方法,讨论与比较了建筑、产品以及图案设计3个领域的参数化设计语言。在此基础上,总结了在理论算法、设计流程以及参数化软件方面的共性,为图案设计的发展与多样性提供新的驱动力。针对服装图案特性,研究了参数化技术的应用现状与难题,提出了参数化技术在图案设计领域未来的发展方向。

城市居住区三维绿色空间影响空气温湿度的机制研究

以郑州市居住区为例,采用手持式路昌LM-8000四合一环境测量仪,对郑州市区中不同方位、不同高度、不同布局形式分类的6个居住区微气候环境进行观测,对气温、相对湿度等气象数据进行分析,并探讨绿色空间布局形式影响空气温湿度的机制。结果表明:居住区白天相对湿度的变化幅度高于温度;测量日内,高层小区和多层小区的温湿度达到最大值的时间不同;在静风条件下,植物蒸散和阴影影响的范围为10~50 m,相对湿度的影响范围为10~50 m;居住区相对湿度最小值、均值分别与测点10 m范围内绿色空间的分形维数有关;相对湿度最大值与50 m范围内绿色空间的形状指数有关;白天时段,湿度的变化与50 m范围内的形状指数和连接度指数有关。

基于体认-分形的拟形话语生成机制探索

拟形是一类较为独特的修辞方式,拟形话语是指含有拟形的语言表达。以体认语言学和隐喻分形说为理论基础,构建基于体认-分形的概念-表征模型以探讨拟形话语的生成机制。研究结果表明:拟形话语生成受到意向性、体认、隐喻分形、感受意等因素的影响或制约,意向性是拟形话语生成的主导因素,体认为拟形话语生成奠定了基础,隐喻分形是拟形话语生成的实现方式,感受意的提取是拟形话语生成过程中的一个关键环节。基于体认-分形的概念-表征模型为修辞表达研究提供了理论依据。

Random heterogeneous microstructure construction of composites via fractal geometry

The microstructures of a composite determine its macroscopic properties. In this study, microstructures with particles of arbitrary shapes and sizes are constructed by using several developed fractal geometry algorithms implemented in MATLAB. A two-dimensional (2D) quadrilateral fractal geometry algorithm is developed based on the modified Sierpinski carpet algorithm. Square-, rectangle-, circle-, and ellipse-based microstructure constructions are special cases of the 2D quadrilateral fractal geometry algorithm. Moreover, a three-dimensional (3D) random hexahedron geometry algorithm is developed according to the Menger sponge algorithm. Cube-and sphere-based mi-crostructure constructions are special cases of the 3D hexahedron fractal geometry algo-rithm. The polydispersities of fractal shapes and random fractal sub-units demonstrate significant enhancements compared to those obtained by the original algorithms. In ad-dition, the 2D and 3D algorithms mentioned in this article can be combined according to the actual microstructures. The verification results also demonstrate the practicability of these algorithms. The developed algorithms open up new avenues for the constructions of microstructures, which can be embedded into commercial finite element method soft-wares.

On the Design of Plus Slotted Fractal Antenna Array

A new technique which is a combination of fractal antenna and array antenna is presented to design Plus Slotted Fractal Antenna Array (PSFAA) in this paper. PSFAA with corporate feed operates at 2.5 GHz frequency. PSFAA is designed on FR4 substrate material with permittivity 4.4 and height 1.6 mm. PSFAA is designed up to 2nd iteration. High Frequency Structure Simulator (HFSS) software is used for simulation of PSFAA. The proposed antenna array operates at three bands with five frequencies 2.5 GHz, 4.1 GHz, 6.9 GHz, 7.4 GHz and 8.2 GHz. Simulated Return losses results of proposed PSFAA are -22.15 dB, -19.44 dB, -25.21 dB, -10 dB, -12.45 dB at above frequencies respectively. It has a gain of 9.22 dB at resonant frequency 2.5 GHz whereas conventional antenna array has a gain of 5.15 dB at resonant frequency 2.5 GHz. Return losses and gain of PSFAA also improved from conventional antenna array at various resonant frequencies.

FRACTAL DIMENSION AS MORPHOLOGY AND SIZE PARAMETERS OF FRACTURED PARTICLES OF ROCK

Semi-automatic image analysis system was used for the surface fractal dimension measurement of 15 kinds of rock-fractured particles. The results indicate that the surfaces of the particles that have a size of about 200 mesh are fractal, and that the fractal dimension is in the range of 2.07～2.11. Therefore, some definitions of particle size such as surface diameter, equivalent volumetricly surface diameter are equivocal without giving the step length and the drag diameter, free-fall diameter, and stokes’diameter may be modified by the fractal dimension.

基于侵入试验的单齿破岩机理及齿形优化研究

齿形是影响镶齿滚刀破岩效率的关键因素。本文通过单齿侵入破岩试验对4种刀齿(镐形齿、锥形齿、楔形齿和球形齿)的破岩机理及硬岩破岩齿形优化等相关问题进行探讨,研究不同齿形侵入岩体过程中的破岩特征、加载力侵深曲线特征以及对侵深、破碎体积、破碎坑半径、破岩岩屑分布特征的影响规律。通过分形理论评估破岩效果,从而达到优化齿形及加载力的目的。结果表明:随加载力增大,齿形对侵深、破碎体积、破碎坑半径等破岩效果指标的影响差异随之增大;破碎岩屑在粒度上具有分形特征,通过破碎分形维数并结合破碎体积等指标可以评估破碎效果,优化齿形及加载力;针对花岗岩类岩石,镐形齿所获得的破碎分形维数最低,破碎体积、破碎坑半径、侵深最大,可优选为花岗岩类硬岩中镶齿滚刀的齿形,并推荐100 kN为镐形齿优化加载力。

低温粮食储存用相变蓄冷装置性能强化研究

基于相变材料的蓄冷技术可将电力供给峰期的制冷负荷转移到谷期,实现节省运行费用、减小装机容量等目的。本文基于enthalpy-porosity方法建立了分形树状肋片结构的相变蓄冷装置释冷过程的二维非稳态理论模型并进行了数值模拟,获得了释冷过程中的形貌特征与温度场分布特性,评估了不同肋参数(肋高、肋厚、肋数)蓄冷装置的释冷效果,给出了粮食低温储存蓄冷装置的肋片优化结构。

酸化条件下尾矿砂颗粒形貌变化特性及机理研究

尾矿砂是矿石在经过机械破碎和分选后形成的产物,颗粒整体具有扁平度较高、圆度低以及形状极不规则等特点。尾矿砂在酸化后表面原有几何形状会遭到破坏,进而改变了颗粒与颗粒之间的接触、咬合方式等,从而影响土体的内摩擦角与抗剪强度等物理力学性质。为了揭示尾矿酸化对尾矿砂颗粒形状的影响,对尾矿砂进行化学浸泡实验,通过控制过氧化氢溶液的用量,模拟不同堆积时期尾矿砂的酸化效果。利用ImageJ图形软件对不同程度酸化的尾矿砂颗粒进行黑白二值化处理,获取颗粒形状轮廓边界,并从三个层面计算尾矿砂颗粒的形状参数值。研究结果表明,随着酸化程度的加深,尾矿砂的扁平度统计平均值从1.457降至1.332;尾矿砂的圆度统计平均值整体略有增加;而尾矿砂的形状系数统计平均值则从0.843增加至0.876。此外,采用分形理论讨论了酸化对尾矿砂颗粒形状轮廓的影响,结果表明,随着酸化程度的加深尾矿砂颗粒形状逐渐规则化。

一种新颖的分形超宽带天线

本文提出了一种新颖的花瓣分形超宽带微带天线结构,并采用共面波导对天线进行馈电。采用商用电磁场数值仿真分析软件ANSYS HFSS对天线的性能进行了仿真优化分析,结果表明,通过增加花瓣分形结构的迭代次数以及优化有限接地面的结构,天线可以获得良好的阻抗带宽。采用PCB印制板工艺对天线进行了加工制作。测试结果表明,天线工作频带为3.1GHz~14.65 GHz,相对带宽为129.9%,仿真结果与测试结果基本吻合,证明了天线设计的有效性。该天线可应用于超宽带(UWB)无线通信系统中,为超宽带天线的设计提供了新的思路。

钙质砂颗粒的形状分析

钙质砂是一种含碳酸钙达50%以上的海洋生物成因的粒状材料。颗粒棱角度高、形状不规则,影响钙质砂的压缩、填充等力学性能。通过光学显微镜获取钙质砂颗粒的几何投影图像,借助Matlab图像处理软件,分别运用常规统计方法和分形理论对钙质砂颗粒的几何形态进行了描述,并结合钙质砂特殊的生物成因对其表现出的特性进行了分析。结果表明:钙质砂颗粒的形状具有分形特性,且随着颗粒粒径的减小,分形特性越明显。

应力路径试验前后不同黄土的孔隙分形特征

为了解不同黄土孔隙形状复杂程度的差异和应力路径对孔隙形状复杂程度的影响,对两种黄土应力路径前后孔隙分形特征进行了研究。首先比较了3种分维模型所得孔隙分形维数的可靠性,然后选用热力学关系模型,由进汞、退汞试验得到地裂缝区黄土、充填黄土初始样和三轴应力路径试验后的孔隙分布,据此分析了两种土体进汞孔隙和退汞孔隙分形维数的差异和受载后的分形维数变化,根据退汞过程仅管形孔内的汞流出及孔隙由管形孔和球形孔组成的假定,得到了应力路径试验前后孔隙形状的改变。结果表明,热力学关系模型得到的孔隙分形维数合理、可靠。初始状态,原状和重塑充填黄土的孔隙形状比原状和重塑黄土复杂;常规三轴试验后试样孔隙比减少,孔隙分形维数增加,球形孔向管形孔转变;相对于常规三轴压缩试验,减围压三轴压缩试验后试样的孔隙分形维数较小,管形孔占总孔隙的体积比例较少;总体上管形孔的分形维数比球形孔大,且基本不受应力路径的影响,其占总孔隙的体积比例随着试样宏观孔隙比的减少而增加。

基于离散单元法的溜砂坡堆积形态数值研究

采用离散单元法模拟了溜砂坡的堆积过程,研究粒间摩擦因数和颗粒形状对溜砂坡堆积形态的影响,建立粒间摩擦因数、颗粒形状与堆积形态的相关关系。研究结果表明:颗粒堆积体上、下部的粒径分布均具有分形特性,摩擦因数越大,堆积体上部分形维数和堆积角度越大。对比不同的颗粒形状,颗粒浑圆度越差,堆积体上部分形维数和堆积角度越大。随着粒间摩擦因数的增大,强力链数目减少,弱力链数目增多,力链结构的各向异性增强,颗粒间法向接触力的水平分量变小,接触法向的主方向向竖直方向偏转。圆形颗粒堆积体中力链分布呈树根状,考虑颗粒形状后的堆积体内强力链方向基本与斜坡平行。溜砂坡下部分形维数与其内部孔隙率呈较好的线性关系,下部分形维数越大,堆积体孔隙率越小。

新型树状分形天线多频特性分析

提出了一种新型树状分形天线结构。通过对叶脉进行模拟,天线具有良好的多频特性,二阶分形天线可以在3个频带内良好工作。给出了天线回波损耗、方向图结果。对各阶分形天线进行了加工与测试,仿真结果与测试结果基本吻合,为多频天线的设计提供了新的思路。

采矿引起地表点动态下沉的分形增长规律研究

首次研究揭示了地表点动态下沉的分形增长规律。研究表明 ,地表点动态下沉曲线具有统计分形特征 ,符合大“z”型逐级镶嵌小“z”型的分形增长模式 ;研究实现了地表点动态下沉曲线分形插值 ,运用较少的实地下沉观测数据量 ,在一定精度范围内求得任一时刻的地表点下沉值 ,为地表点动态下沉和动态变形的认识和预测提供了新的途径 ,同时 ,通过地表动态下沉的分形增长规律来认识和揭示岩体内部移动和破坏的物理机制 ,对开采沉陷的深入研究具有重要理论价值。

桐乡市乡镇耕地整理对耕地景观格局的影响及其分析

以桐乡市4个乡镇为研究对象,结合航空遥感和地理信息技术,在ArcGIS8.3和ERDAS8.6软件的支持下,通过数字矢量化、外业实地调查、地物调绘和核查以及室内补测的程序建立耕地景观图层数据库。在此基础上,运用景观格局指数:景观破碎度、分离度、形状指数和斑块分形维数对耕地整理前后的景观格局特征及其动态变化进行研究和分析。根据计算结果:整理后4个乡镇耕地景观的形状指数和分形维数都呈下降趋势,并且后者趋近于1,表明耕地景观的斑块形状越趋简单并越有规律;景观分离度减小,景观破碎度升高,斑块密度增大,而平均斑块面积却减小,这说明在目前耕地整理的初级阶段,不适当的耕地整理方式和方法使得耕地景观的分割、破碎程度加剧,孤立的嵌块体数量增加,将会影响农田生态系统的稳定性。因此,在开展耕地整理时,必须遵循可持续发展的基本原理,必须注重景观生态环境的保护,使之趋向生态环境保育型土地整理方向发展。

WS2颗粒的分形特征

用Ｑ９００自动图象分析系统测定了用（ＮＨ４）２ＷＳ４热分解制备的ＷＳ２颗粒的分形结构，得到ＷＳ２周边分维数Ｄｆ在１．０１５～１．０３２范围，表面分维数Ｄｓ在２．０１５～２．０３２范围，其分维数随着粒度减小而增大。给出了Ｄｆ、Ｄｓ与颗粒等效直径ｄ的关系，Ｄｆ。