东篱科研大数据发现系统（DRDS）

位置：成果数据库 > 期刊 > 期刊详情页

Superplastic Behavior of Alumina Composites Mediated by Carbon Nanotubes

ISSN号：2150-5551
期刊名称：Nano-Micro Letters
时间：2013
页码：174-181
分类：TB33[一般工业技术—材料科学与工程] O613.71[理学—无机化学;理学—化学]
作者机构：Division of Functional Materials and Nanodevices, Ningbo Institute of Materials Technology and Engineering (NIMTE), Chinese Academy of Sciences (CAS), Department of Chemical Engineering & Materials Science, University of California, State Key Laboratory of Porous Metal Materials, Northwest Institute for Nonferrous Metal Research
相关基金：supported by grants from ‘hundred Talents Programme’ of The Chinese Academy of Sciences (KJCX2-EW-H06);Qianjiang excellent project (2011R10020) and Zhejiang NSF (Y4ll0376);National Natural Science Foundation of China (Grant No. 51172248);State Key Laboratory of Porous Metal Materials (PMM-SKL-1-2013);NSF-CMMI (grant number CMMI-0700272)
相关项目：ADS用微波段透明陶瓷的介电损耗机理研究及其微缺陷的多尺度分析

作者： Mukherjee, Amiya K.|Xiang, Changshu|Tang, Huiping|Huang, Qing|

中文摘要：

The high temperature creep behavior of carbon nanotube(CNT)/alumina was mediated by the surface chemical functionalization used for synthesis of composite powders. Non-covalent functionalized carbon nanotubes make composites ductile, but covalent approach leads composites that are creep-resistant. Oxygen vacancy mechanism is proposed to account for this mediation effect in this communication.

英文摘要：

The high temperature creep behavior of carbon nanotube (CNT)/alumina was mediated by the surface chemical functionalization used for synthesis of composite powders. Non-covalent functionalized carbon nanotubes make composites ductile, but covalent approach leads composites that are creep-resistant. Oxygen vacancy mechanism is proposed to account for this mediation effect in this communication.

同期刊论文项目