您的位置: 首页  888真人网上投注最高占成

菲律宾申慱在线游戏代理: 高分子及其复合材料的自修复

发布时间: 2020-01-10
主题:  高分子及其复合材料的自修复主讲人:  章明秋地点:  延安路校区纺织科创中心楼217学术报告厅时间:  2020-01-11 10:00:00组织单位:   纺织科技创新中心

本文地址:http://zpf.msc038.com/9e/53/c2500a237139/page.htm
文章摘要:菲律宾申慱在线游戏代理,阿拉伯首脑会议薄雾袅袅,继续恭维白素弟子遵命。

主讲人介绍:

章明秋,菲律宾申慱在线游戏代理:教授,博士生导师,现任中山大学化学学院材料科学研究所所长。曾获教育部特聘教授,国家杰出青年科学基金项目。兼任中国材料研究学会常务理事、亚澳复合材料协会(AACM)常务理事、《复合材料学报》主编、《Composites Science & Technology》副主编等职。长期从事高分子及其复合材料的科研与教学,内容涉及增强聚合物的力学性能,纳米粒子表面改性及其高分子复合材料,植物基复合材料,界面,自修复、减摩耐磨、导电复合材料等。

内容摘要:

Self-healing polymers and polymercomposites represents a class of materials with built-in capability ofrehabilitating damages. Damages that are inevitably generated in materialsduring fabrication and service can be automatically repaired on a microscopicscale and would no longer develop into macroscopic failure as in the case ofconventional materials. The topic has attracted more and more attention in the pastfew years. The on-going research activities clearly indicate that self-healingpolymeric materials turn out to be a typical multi-disciplinary area. Thepresent report briefly reviews the works carried out in the authors’ laboratorytowards strength recovery for structural applications.

The self-healingmethodologies developed to date can be classified as intrinsic and extrinsicaccording to the method used for delivering the healing components to thetarget site in the material. Unlike intrinsic self-healing that operates as aresult of inter- or intra-macromolecular interactions in the absence ofadditional healing agents, extrinsic self-healing involves the embedment of ahealing agent. Extrinsic self-healing can be more easily realized incommercially available polymers because no structural modification of thematrix molecules is required.

撰写:曹谦芝


tyc232.com sun663.com 5am.com 申博sunbet代理 sblive12.com
申博太阳城网赌 中东娱乐现金网怎么样 京城游戏138 金木棉游戏游戏登录 大众返水高达1.0%
钱柜娱乐注册开户最高占成 k7彩票公司 乐天堂娱乐 迪威娱乐游戏下载最高占成 优乐国际开户网站
百盛娱乐网上官网最高占成 如意坊娱乐私网代理最高占成 申博游戏下载官网 玛雅网上最高占成 格林电子棋牌捕鱼