电磁流体动力驱动流体搅拌混合器特性研究

对小型电磁流体动力搅拌混合器的特性进行了理论分析和实验研究.该小型电磁动力混合器由聚碳酸脂和黄铜采用常规机械加工方法加工而成.研究采用的流体为氯化钠水溶液.为了观察流体的搅拌混合运动,在流体中加入微量微细玻璃珠作为示踪粒子.采用显微观测及图像采集技术记录流体的搅拌混合过程,用数字图像处理技术对流体速度场进行分析.建立了搅拌混合器的理论模型,并对其动力特性进行了数值分析,理论结果与实验结果相吻合.该小型电磁动力混合器已应用于微管道流动的混合控制并可应用于其它微流体控制系统中.     

一种新型微型杆式超声电机及其驱动原理

提出了一种新型微型杆式超声电机,并对该杆式电机的驱动机理进行了仿真。该电机采用两段金属柱体压紧5片压电陶瓷片作为定子。该定子结构和压电陶瓷片的布局方式可以提高其机电转换效率。为尽量减小定、转子之间的径向滑移以提高摩擦传动效率,电机采用了柔性转子,对原理样机及其微型驱动器进行了性能实验。电机的外径为9mm,长度为15mm,重3.2g。当电机工作在杆式定子的一阶弯曲频率(72kHz)附近时,电机实测最大转速为520r/min,最大输出力矩为4.5mN·m。实验结果表明,该电机具有良好的稳定性,利用频率自动跟踪技术对电机转速进行闭环控制,可以将其转速波动稳定在3%之内。     

谐振式微机械惯性传感器

对几种典型的谐振式加速度微传感器和微陀螺的结构、工作原理等方面进行了概述，分析了各自的应用特点。从中反映出谐振式微惯性传感器具有优良的特性，必有广阔的应用和发展前景。     

Static strength analysis of dragonfly inspired wings for biomimetic micro aerial vehicles

This article examines the suitability of fabricating artificial, dragonfly-like, wing frames from materials that are commonly used in unmanned aircraft(balsa wood, black graphite carbon fiber and red prepreg fiberglass). Wing frames made with Type 321 stainless steel are also examined for comparison. The purpose of these wings is for future use in biomimetic micro aerial vehicles(BMAV). BMAV are a new class of unmanned micro-sized aerial vehicles that mimic flying biological organisms(like flying insects). Insects, such as dragonflies, possess corrugated and complex vein structures that are difficult to mimic. Simplified dragonfly-like wing frames were fabricated from these materials and then a nano-composite film was adhered to them, which mimics the membrane of an actual dragonfly. Finite element analysis simulations were also performed and compared to experimental results. The results showed good agreement(less than 10% difference for all cases).Analysis of these results shows that stainless steel is a poor choice for this wing configuration, primarily because of the aggressive oxidation observed. Steel, as well as balsa wood, also lacks flexibility. In comparison, black graphite carbon fiber and red prepreg fiberglass offer some structural advantages, making them more suitable for consideration in future BMAV applications.     

脉冲微孔喷射技术及其在增材制造方面的应用

介绍了用于制造单分散球形微米级粒子的脉冲微孔喷射技术.根据微滴制备原理,可将其分为适用于低熔点材料的压片式喷射装置及适用于高熔点材料的传动杆式喷射装置,分别阐述了两种方式的脉冲微孔喷射技术的喷射原理、相关特点以及该技术的发展和研究现状.目前,采用脉冲微孔喷射技术已成功制备出金属、半导体及生体材料单分散微粒子,具有粒径均一、圆球度高等优势.通过与其他微米级粒子制备技术,如均匀液滴喷射法、气动式按需喷射法及雾化法相比较,在诸多方面显示出脉冲微孔喷射法的独特优点.与此同时,分别讨论了脉冲微孔喷射技术在增材制造方面的潜在应用,可直接使用微米级粒子作为增材制造用粉体以及液滴沉积成型.鉴于脉冲微孔喷射技术的独特性,可以预见随着研究的不断深入,脉冲微孔喷射技术将在增材制造方面具有更加广阔的发展空间和应用前景.     

PSP支护技术在深基坑工程中的应用

PSP支护技术是一种三元复合支护结构,常用于土钉墙无法满足要求的基坑支护。本文结合工程实例,论述了PSP支护技术结构的设计和工作机理,体现了PSP支护技术在工程应用中有广阔的发展前景和显著的经济效益。     

带弹性元件扑翼机构的动力学分析及实验

为研究扑翼飞行器传动机构的能量特性，以特拉华大学机械系统实验室所研制样机为原型进行了建模。引入气动项和拉力弹簧建立了完整的动力学模型。分析发现，气动项的力矩峰值为惯性项的4.8倍，对电机的转矩峰值的影响起主要作用。运用正交法进行仿真发现，引入拉力弹簧可以使电机转矩峰值最大降低77.5%，与理论分析相符合。进一步的物理实验验证了理论分析和仿真结果的正确性，并得到了当弹簧的连接点位置为185 mm、原长为200 mm及刚度为0.1 N/mm时实验结果取得最优值，可为扑翼机传动机构的优化设计提供依据。此外，引入弹性元件也可有效降低电机的转速波动，进而为仿生扑翼飞行器的生产和实践应用提供理论指导。     

An experimental study of elastic properties of dragonfly-like flapping wings for use in biomimetic micro air vehicles (BMAVs)

This article studies the elastic properties of several biomimetic micro air vehicle (BMAV) wings that are based on a dragonfly wing. BMAVs are a new class of unmanned micro-sized air vehicles that mimic the flapping wing motion of flying biological organisms (e.g., insects, birds, and bats). Three structurally identical wings were fabricated using different materials: acrylonitrile butadiene styrene (ABS), polylactic acid (PLA), and acrylic. Simplified wing frame structures were fabricated from these materials and then a nanocomposite film was adhered to them which mimics the membrane of an actual dragonfly. These wings were then attached to an electromagnetic actu-ator and passively flapped at frequencies of 10–250 Hz. A three-dimensional high frame rate imag-ing system was used to capture the flapping motions of these wings at a resolution of 320 pixels × 240 pixels and 35000 frames per second. The maximum bending angle, maximum wing tip deflection, maximum wing tip twist angle, and wing tip twist speed of each wing were measured and compared to each other and the actual dragonfly wing. The results show that the ABS wing has considerable flexibility in the chordwise direction, whereas the PLA and acrylic wings show better conformity to an actual dragonfly wing in the spanwise direction. Past studies have shown that the aerodynamic performance of a BMAV flapping wing is enhanced if its chordwise flexibility is increased and its spanwise flexibility is reduced. Therefore, the ABS wing (fabricated using a 3D printer) shows the most promising results for future applications.     

基础振动影响下微g加速度计静态数学模型辨识

以从俄罗斯引进的低频微g加速度计校准装置为基础,分析了基础振动对微g加速度计校准结果的影响,给出了消除基础振动噪声的方法及在该种情况下加速度计静态数学模型的辨识方法.     

微型飞行器飞行监测系统设计

根据微型飞行器(Micro Aerial Vehicle-MAV)飞行测试的需求,设计了一种飞行监测系统。系统主要由操纵输入数据记录、地面监测计算机和无线测控链路三大部分组成。详细介绍了各部分的功能和设计方法,最后探讨了一种基于nRF401的测控链路实现方案。