Interfacial technology for enhancement in steel fiber reinforced cementitious composite from nano to macroscale
Interfacial technology for enhancement in steel fiber reinforced cementitious composite from nano to macroscale
The rapid construction of innovative structures and megastructures is pushing the development of steel fiber reinforced cementitious composite (SFRCC). The interfacial enhancement technology from nano to macroscale for improving global properties of SFRCC is summarized here, including nanomaterials reinforcement of cementitious matrix, physical arrangement and nanomaterials modification of steel fiber. The interfacial bonding strength of SFRCC can be enhanced more than 150% via these approaches. To evaluate the effect of local interfacial technology on global mechanical properties of SFRCC, the structural performance of SFRCC with interfacial modification is reviewed. The energy absorption capacity of SFRCC can be improved over 20% through interfacial enhancement technology. The multi-scale mechanisms behind these approaches are illustrated through macroscale characterizations and molecular dynamics modeling. Furthermore, the key challenges and future prospects of enhancement approaches are also discussed from the perspectives of bottom-up system, nanoscale reinforcement, and durability properties in SFRCC, which are expected to inspire further improvement in interfacial performance and promote the application of SFRCC in practical engineering.
Zhou, Ao
5b42c2a4-26b2-416e-ab3c-446f1ece7a20
Wei, Huinan
5b6a7271-bc02-4389-ac5f-204a67056107
Liu, Tiejun
07e72a65-be75-4b13-b54d-9ed949c93470
Zou, Dujian
f932d3d9-b218-4268-a86e-0bb63aec1e31
Li, Ye
86d13351-982d-46c3-9347-22794f647f86
Qin, Renyuan
77940951-3907-4529-b6be-08b32f230eba
2 July 2021
Zhou, Ao
5b42c2a4-26b2-416e-ab3c-446f1ece7a20
Wei, Huinan
5b6a7271-bc02-4389-ac5f-204a67056107
Liu, Tiejun
07e72a65-be75-4b13-b54d-9ed949c93470
Zou, Dujian
f932d3d9-b218-4268-a86e-0bb63aec1e31
Li, Ye
86d13351-982d-46c3-9347-22794f647f86
Qin, Renyuan
77940951-3907-4529-b6be-08b32f230eba
Zhou, Ao, Wei, Huinan, Liu, Tiejun, Zou, Dujian, Li, Ye and Qin, Renyuan
(2021)
Interfacial technology for enhancement in steel fiber reinforced cementitious composite from nano to macroscale.
Nanotechnology Reviews, 10 (1).
(doi:10.1515/NTREV-2021-0037).
Abstract
The rapid construction of innovative structures and megastructures is pushing the development of steel fiber reinforced cementitious composite (SFRCC). The interfacial enhancement technology from nano to macroscale for improving global properties of SFRCC is summarized here, including nanomaterials reinforcement of cementitious matrix, physical arrangement and nanomaterials modification of steel fiber. The interfacial bonding strength of SFRCC can be enhanced more than 150% via these approaches. To evaluate the effect of local interfacial technology on global mechanical properties of SFRCC, the structural performance of SFRCC with interfacial modification is reviewed. The energy absorption capacity of SFRCC can be improved over 20% through interfacial enhancement technology. The multi-scale mechanisms behind these approaches are illustrated through macroscale characterizations and molecular dynamics modeling. Furthermore, the key challenges and future prospects of enhancement approaches are also discussed from the perspectives of bottom-up system, nanoscale reinforcement, and durability properties in SFRCC, which are expected to inspire further improvement in interfacial performance and promote the application of SFRCC in practical engineering.
Text
10.1515_ntrev-2021-0037
- Version of Record
More information
Published date: 2 July 2021
Identifiers
Local EPrints ID: 497457
URI: http://eprints.soton.ac.uk/id/eprint/497457
ISSN: 2191-9089
PURE UUID: e0bec47d-f16b-43c6-aa99-e80aac82fb38
Catalogue record
Date deposited: 23 Jan 2025 17:33
Last modified: 22 Aug 2025 02:47
Export record
Altmetrics
Contributors
Author:
Ao Zhou
Author:
Huinan Wei
Author:
Tiejun Liu
Author:
Dujian Zou
Author:
Ye Li
Author:
Renyuan Qin
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics