烧制工艺对氧化镁活性的影响

为获取高活性氧化镁，以提供镁铝水滑石阻燃剂制备的实验依据，采用X射线衍射研究烧制工艺与氧化镁的结晶状态的关系，结果发现烧制温度和烧制时间对氧化镁的活性有较大的影响，而不同活性的氧化镁对镁铝水滑石有决定性影响。在500℃-750℃的范围内，镁盐的烧制温度为500℃-550℃，保温时间2h，这样的氧化镁的活性最大，用其制备镁铝水滑石试样纯度较高。     

Multi-modal Information Integration for Interactive Multi-agent Systems

This paper proposes a multi-agent system that carries out cooperative work. To achieve this, we use Fuzzy Associative Memory Organizing Unit Systems (FAMOUS) and Conceptual Fuzzy Sets (CFS). By using these proposed methods, each agent robot can decide its own behaviour to suit the situation in its environment. We apply this system to an Intelligent Transportation System (ITS) and do simulations.     

分布式入侵检测系统通信模块的设计

为满足分布式入侵检测系统组件间的通信要求，文中设计了分布式入侵检测系统的通信模块。通信模块的设计参照IDWG提出的入侵检测信息交换格式和入侵检测交换协议，并借鉴了TCP／IP的思想，对传输的数据采用数据加密标准和公开密钥加密两种加密算法，提高系统通信的安全性。     

基于小波变换的超声电机启动和关断特性的测试与分析

叙述了本研究中心研发的超声电机瞬态测试系统及其测试方法。由于噪声的影响，启动、关断响应曲线常常不太光滑，以往采用平滑技术和数字滤波等处理办法，获得启动和关断响应特性精度较差。本文利用小波变换对原始启动、关断响应数据进行分析，去除噪声，从而较准确地获得了超声电机启动和关断的响应时间。实验结果表明，超声电机确实具有毫秒级的响应时间。     

薄板坯连铸连轧技术在我国的确大有可为

对我国薄板坯连铸连轧技术2002年以后的发展进行了分析，认为今后将有更大的发展前景，并提出开发新一代薄板坯连铸连轧生产线的设想。     

浅谈仿生传感器

仿生学就是利用现有的科学技术把生物体或人的行为和思维进行部分模拟的行为。科学家和工程技术人员对人的种种行为如视觉、听觉、感觉、嗅觉和思维等进行模拟,研制了自动捕获信息、处理信息、模仿人类的行为装置——仿生传感器。本文就常见的仿生传感器的应用现状及前景作了较为全面的定性介绍。     

具有(k,r)-正交的(g,f)-因子分解的子图

研究了图的正交因子分解，通过构造函数p(x)和q(x)，证明了(mg k，mf-k)-图具有子图，该图有(g，f)-因子分解与kr-星(k，r)-正交，从而推广了原晋江教授的关于(mg m-1，mf-m 1)-图，存在(g，f)-因子分解与星(m，r)-正交的结论．     

Syndiotactic‐specific radical polymerization of N‐isopropylacrylamide in toluene at low temperatures in the presence of silyl alcohols

The radical polymerization of N‐isopropylacrylamide was carried out in toluene at low temperatures in the presence of silyl alcohols, such as triethylsilanol. Poly(N‐isopropylacrylamide) with a racemo dyad content of 75% was obtained at ? 80 °C with a 4:1 triethylsilanol to monomer ratio loading. NMR analysis suggests that the mechanism for syndiotactic induction, in the presence of silyl alcohols, may be similar to that observed with alkyl alcohols. In this case, a 1:2 complex formation, via hydrogen bonding interactions, leads to the induction of syndiotactic specificity. Copyright © 2012 Society of Chemical Industry     

Investigation of the copper concentration on photocurrent collection of CuInSe2 solar cells

In this study, CuInSe₂ (CISe) thin films were prepared from thermally evaporated Cu/In precursors, having various Cu/In atomic ratio, under the same selenization conditions. The precursors were converted into CISe absorber by annealing in a quartz tube furnace in the selenium vapours at substrate temperature of 500 °C. We developed four CISe films with Cu/In atomic ratio of 0.81–1.19, denoted as Cu‐very rich, Cu‐rich, Cu‐poor, and Cu‐very poor CISe thin films respectively. The effects of Cu/In atomic ratio on grain size, surface morphology, micro‐structure and defect formation of the resulting CISe films were examined. It has been found that the photovoltaic properties were strongly related to Cu concentration, as well as carrier transport mechanism. Defects at the surface and in the bulk of CISe thin films were observed using X‐ray diffraction (XRD), X‐ray photoelectron spectroscopy, Raman spectroscopy, energy dispersive X‐ray spectroscopy and scanning electron microscopy. Moreover, XRD revealed that the CISe film surface had a preferred orientation along the (112) plane. The XRD intensity and full width at half maximum of the (112) plane of CISe varied according to the Cu/In atomic ratio. Our experimental results show that the Cu‐rich solar cell achieves conversion efficiency of 4.55% and exhibits an exceptional high short‐circuit current density. Copyright © 2016 John Wiley & Sons, Ltd.     

FDTD simulations on radar cross sections of metal cone and plasma covered metal cone

Electromagnetic wave interaction with a plasma covered metal surface has been studied using the Radar Cross Section (RCS) changes of a 10 cm diameter and 30 cm height metal cone with and without plasma coverage. A Finite-Difference-Time-Difference (FDTD) method was use to calculate the case of a cone with and without a covering of a 1 cm thick sheet plasma for both S Band (2,3, and 4 GHz) and X Band (8, 10, and 12 GHz) frequencies. The characteristic plasma frequency ω_pe was set at 10 GHz, and electron-neutral collision frequency ν_en chosen to be 20 GHz. The results indicate that the metal cone has very small RCS at head-on direction, and a large RCS looking from the back end. A Plasma covered metal cone was shown to achieve head-on direction monostatic RCS changes between −0.47 and −7.2 dBm² from 2 to 4 GHz, and −11 to −3.2 dBm² RCS changes from 8 to 12 GHz, but at the back end the RCS increases between 2.2 and 2.6 dBm² from 2 to 4 GHz, and varies between −0.9 and 0 dBm² from 8 to 12 GHz. In the two frequency bands investigated, maximum RCS reduction of −15 dBm² occurs at 8 GHz at the same direction as the incident electromagnetic wave polarization. Plasma stealth offers advantages like frequency tunability, but the challenge is establishing an adaptive feedback mechanism that can main a constant plasma density and thus a constant RCS by adjusting the power supplied to plasma generator while monitoring the changes in air speed, altitude, and humidity.