In situ polymerization and characterization of polyester‐based polyurethane/nano‐silica composites

Polyester‐based polyurethane/nano‐silica composites were obtained via in situ polymerization and investigated by Fourier‐transform infrared spectroscopy (FTIR), or FTIR coupled with attenuated total reflectance (FTIR‐ATR), Transmission electron microscopy (TEM), atomic force microscopy (AFM), an Instron testing machine, dynamic mechanical analysis (DMA) and ultraviolet‐visible spectrophotometry (UV‐vis). FTIR analysis showed that in situ polymerization provoked some chemical reactions between polyester molecules and nano‐silica particles. FTIR‐ATR, TEM and AFM analyses showed that both surface and interface contained nano‐silica particles. Instron testing and DMA data showed that introducing nano‐silica particles into polyurethane enhanced the hardness, glass temperature and adhesion strength of polyurethane to the substrate, but also increased the resin viscosity. UV‐vis spectrophotometry showed that nano‐silica obtained by the fumed method did not shield UV radiation in polyurethane films. Copyright © 2003 Society of Chemical Industry     

Surface structural change of ZnO-coated LiNi0.5Mn1.5O4 spinel as 5 V cathode materials at elevated temperatures

LiNi_0.5Mn_1.5O₄ powder was synthesized via sol-gel method and coated with ZnO in order to test the electrochemical cyclability of the material as a cathode for the secondary Li battery in the 5 V range at 55 °C. The ZnO-coated LiNi_0.5Mn_1.5O₄ powder nearly maintained its initial capacity of 137 mA h g⁻¹ after 50 cycles whereas the uncoated powder was able to retain no more than 10% of the initial capacity after 30 cycles. TEM analysis of the cycled cathodes suggests that the formation of the graphitic surface phase, hindering the Li migration, may be responsible for the rapid capacity loss of the uncoated material while no such phase was observed on the surface of the ZnO coated LiNi_0.5Mn_1.5O₄ powder.     

埋地管道三层PE外覆盖层及其检测方法研究

文章介绍了埋地管道三层PE外覆盖层系统的构造参数和性能特点,论述了两种用于埋地钢质管道外覆盖层状况检测的方法,一种是多频管中电流法,另一种是DCVG/CIPS组合检测技术。分别介绍了两种方法的工作原理、操作方法和设备,并结合工程实例进行了说明。这些方法和设备可分别或同时用于管道不开挖检测防腐层破损点的位置以及漏点大小。     

纳米涂层的研究现状与展望

简述了纳米表面涂层制备工艺的研究现状，分析了气相沉积、热喷涂、电刷镀、化学镀和电沉积等不同工艺在制备纳米表面层中的应用情况。介绍了纳米涂层在超硬耐磨、耐腐蚀、耐高温热稳定性等方面研究的新进展，并对纳米涂层的应用范围和领域作了展望。     

核壳乳液聚合中甲基丙烯酸用量对印花制品的影响

采用核壳乳液聚合法合成涂料印花粘合剂，考察了甲基丙烯酸(MAC)用量的改变对印花产品的牢度和色光的影响：在核中，当MAC的用量分别为0．0g，0．2g，0．4g，0．6g时，干摩牢度分别为25，2．5 ，3,0，3．5，色光由暗变亮；在壳中当MAC的用量分别为0．0g，0.2g，0．4g，0．6g时，干摩牢度分别为2.5，2．5 ，3．0，3．5，色光变亮，对得色量和鲜艳度影响不大。     

聚氨酯干法涂层的应用

介绍了涂层织物的特点及聚氨酯在涂层整理中的作用,并对干法直接涂层工艺进行了探讨.     

烷基烷氧基硅烷的合成方法及其在涂料中的应用

介绍了烷基烷氧基硅烷的合成方法(包括烷基的引入方法和烷氧基的形成方法)、近几年来在涂料中的应用及其结构与性能的关系。     

真空铸造高强度C／Mg复合材料

本文介绍用真空铸造法制造抗拉强度超过１０００ＭＰａ的高强度Ｃ／Ｍｇ复合材料。将Ｔ３００纤维经Ｃ－Ｓｉ－Ｏ梯度涂层处理后单向排布于型腔内，在真空下注入ＺＭ—５合金液，凝固后即得Ｃ／Ｍｇ复合材料零件或试样。试样的抗拉强度在纤维体积分数为０．３５时达１０５０ＭＰａ。本文讨论Ｃ－Ｓｉ－Ｏ梯度涂层对获得高强度复合材料的作用。     

显像管发射小的跟踪分析

本文对黑白显像管发射小进行了跟踪分析，认为阴极涂层脱落和管内真空度不良是导致显像管发射小的主要原因。     

涂层材料的断裂分析(英文)

和基体厚度相比,涂层很薄,因此细观力学模型可把基体作为半无限弹性体。由于涂层和基体材料的膨胀系数及弹性系数不匹配,涂层材料中残余热应力的解析解为 E_c/(1-γ_c)·(α_s-α_c)△T。用有限元法校核,该应力和解析解吻合得好。通过对涂层产生裂纹驱动力和断裂韧性的讨论,提出了抗裂涂层厚度公式。