Strength versus ductility in carbon nanotube reinforced nickel matrix nanocomposites

Authors
Borkar, TusharHwang, JaewonHwang, Jun YeonScharf, Thomas W.Tiley, JaimieHong, Soon HyungBanerjee, Rajarshi
Issue Date
2014-03-28
Publisher
CAMBRIDGE UNIV PRESS
Citation
JOURNAL OF MATERIALS RESEARCH, v.29, no.6, pp.761 - 769
Abstract
Two types of carbon nanotube reinforced nickel (CNT/Ni) nanocomposites were processed, both involving spark plasma sintering (SPS) of precursor powders consisting of nickel and carbon nanotubes. The first type involved simple mechanical dry milling of nickel and CNT powders, followed by sintering using SPS, resulting in nanocomposites exhibiting a tensile yield strength of 350 MPa (about two times that of SPS processed monolithic nickel with a strength of 160 MPa) and about 30% elongation to failure. In contrast, the nanocomposites processed by SPS of powders prepared by molecular-level mixing (MLM) exhibited substantially higher tensile yield strength of 690 MPa but limited ductility with an 8% elongation to failure. While the former type of processing involving dry-milling is expected to be lower in cost as well as easy to scale-up, the latter type of processing technique involving MLM leads to a more homogeneous distribution of nanotubes, leading to extraordinarily high strength levels.
Keywords
MECHANICAL-PROPERTIES; THERMAL-PROPERTIES; COMPOSITES; HARDNESS; INTERFACE; GRAPHENE; COPPER; MECHANICAL-PROPERTIES; THERMAL-PROPERTIES; COMPOSITES; HARDNESS; INTERFACE; GRAPHENE; COPPER; sintering; composite; stress; strain relationship
ISSN
0884-2914
URI
https://pubs.kist.re.kr/handle/201004/126982
DOI
10.1557/jmr.2014.53
Appears in Collections:
KIST Article > 2014
Files in This Item:
There are no files associated with this item.
Export
RIS (EndNote)
XLS (Excel)
XML

qrcode

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.

BROWSE