走近电离辐射

 提起辐射,人们很自然地联想到手机、电脑的电磁辐射,对电离辐射则比较陌生。其实,这种电磁辐射就是电离辐射的一种。电离辐射还包括电子、质子、中子及较重粒子的粒子源,微波辐射,光辐射,同步辐射等。我们的生活环境中存在着天然电离辐射和人工电离辐射,可以说,电离辐射就在我们身边。电离辐射可以造福于人类,它在工业、医学、农业上有着广泛的应用;电离辐射也可以给人类带来巨大的灾难,特别是核武器和辐射事故的发生。因此,我们对待电离辐射这把双刃剑时,既要充分利用它来造福人类,又要严防它的危害。     

蓝光相变光盘的多层膜结构设计

为了使光盘获得优良的记录／读出性能并能够长期稳定地使用，必须优化设计相变光盘的多层膜结构。采用自行设计的模拟分析相变光盘读出过程设计软件，从光学角度出发模拟计算了蓝光(405nm)相变光盘的膜层结构，研究了多层膜系的反射率和反射率对比度等光学参量与各层膜厚度和槽深的关系。研究得出的最佳多层膜结构为：下介电层／记录层／上介电层／反射层的厚度对于台记录为100nm／10nm／25nm，／60nm，而对于槽记录则为140nm／15nm／30nm，／60nm，槽深为50nm。模拟计算结果对于将来高密度蓝光相变光盘的制备具有一定的指导意义。     

Equivalent Antisymmetry Performance of Three—Dimensional Heterogeneous Anisotropic Composites

Starting from the physical features of materials, heterogeneous anisotropic composites (HAGs) are analysed on the basis of the understanding and applications of its equivalent antisymmetry performance. Moreover, the design parameter is optimized to attain the goal of maximizing the use of materials, which is quite meaningful. The HAG structure is defined as a kind of equivalent structures according to the structure and properties of materials.We apply the mature plate theory and the composite materials laminate theory in analysis of the HAG structure,and in this way a new concept and a new idea are expected.     

Crystal Structure of Adduct 2-Phenyl-imidazo [ 4,5-f ] 1,10-phenanthroline Methanol

The structure of the title adduct comprises a phenanthroline derivative 2-phenyl-imidazo[4,5-f]1,10-phenanthroline and a methanol.The composition of the crystalline adduct was characterized as C19H12N4.CH3OH.It belongs to orthorhombic system,space group Pna21 with a=1.3693(4)nm,b=2.2988(7)nm,c=0.51338(15)nm,V=1.6160(8)nm^3.Z=4,and final R1=0.0423.wR2=0.1012 .Crystal structure shows that all the 19 carbon atoms and 4 nitrogen atoms are coplanar.The bond length data indicated that a very extensive conjugation system was formed.This conjugation makes the compound being a potentially excellent energy transformer used for luminescent materials.     

Release Behaviour of Shock Loaded LY12 Aluminium Alloy

By making use of a light gas gun, a specially designed target is impacted by the LY12 flyer, and the pressure is taken in the range of 0.6-3 GPa. Based on the stress profiles measured in the buffer materials by manganese gauges, the Hugoniot curve and release curves of LY12 aluminium alloy are obtained. Meanwhile, the release curves from different initial shocked states are described in both the pressure-particle velocity plane and the pressure-specific volume plane.     

溶胶-凝胶生物玻璃多孔材料显微结构和生物活性的扫描电镜及红外光谱分析

本文利用溶胶．凝胶法制备了CaO-P2O5-SiO，系统生物活性玻璃，并以其为原料制备了用于骨修复及骨组织工程支架的块状生物活性材料。利用体外实验方法(invitro)结合x射线衍射(XRD)、扫描电子显微镜(SEM)和傅立叶变换红外光谱分析(FTIR)技术对不同烧结工艺制备的材料结构、晶相和生物活性的影响进行了分析研究。研究表明，经800℃和1100℃烧结5min的两种材料均有硅磷酸钙Ca5(PO4)2SjO4微晶相析出。烧结温度越高，析出微晶相的体积比例越大，材料的生物活性则越低。在模拟生理溶液中碳酸羟基磷灰石(HCA)只在烧结体中的玻璃颗粒表面形成，而在其硅磷酸钙Ca5(PO4)2SiO4微晶相表面未发现HCA形成。     

自组装与纳米技术

自组装技术是制备纳米结构的几种为数不多的方法之一.本文对最近几年自组装技术在纳米科技领域中的一些重大突破和成果进行较为系统地综述,主要包括以下几个方面:自组装单层膜、纳米尺度的表面改性、超分子材料、分子电子学与光子晶体.     

我国研制出激光透明陶瓷

经中科院上海光学精密机械．研究所测试，由中科院上海硅酸盐研究所自主研发的透明陶瓷日前首次成功射出激光，这标志着我国在激光材料方面取得了重大突破，成为世界上仅有的几个掌握这一尖端技术的国家之一。     

道康宁拓展热界面材料的供应——三种新产品为电子行业器件提供更多的控热选择

道康宁公司宣布拓展了其为电子业提供的热管理解决方案，即推出了三种新型热界面材料(thermal interface materials，简称TIMs)。其中的两种新型材料一道康宁TP-1600薄膜系列和道康宁TP2400衬垫系列是道康宁在去年战略性收购了Tyco Electronics’ Raychem Power Materials Business U—