Copyright © 2015, American Concrete Institute. All rights reserved. Nanoindentation, quantitative modulus mapping, and PeakForce quantitative nanomechanical mapping (QNM) are applied to investigate the quantitative nanomechanics of hardened cement paste at different spatial resolutions. The elastic modulus measured by static nanoindentation is slightly higher than those measured by the other methods. The average elastic modulus and probability obtained by PeakForce QNM are typically consistent with those found by modulus mapping. Both modulus mapping and PeakForce QNM can be used to discriminate different material phases in cement paste at the nanoscale. It concludes that cement paste is a granular material in which the sub-micron scale gra...
Investigation on the mechanical properties of cement-based materials at micron and submicron scales ...
In this paper an attempt has been made to provide an overview on the use of nanoindentation techniqu...
This paper aims to present the experimental results involving the use of nanoindentation measurement...
Nanoindentation, quantitative modulus mapping, and PeakForce quantitative nanomechanical mapping (QN...
Three types of nanomechanical methods including static nanoindentation, modulus mapping and peak-for...
© 2018 Elsevier Ltd Advanced characterization techniques have provided powerful tools for characteri...
The study is related to the EU 7th Framework Programme CODICE (COmputationally Driven design of Inno...
This paper reports a study to assess nanoindentation mapping of mechanical properties of cement past...
Nanoindentation technique is used to assess the mechanical properties of materials at nano-level. A ...
A commonly used hardened cement mortar was analyzed via the grid-nanoindentation coupled with scanni...
This paper provides in depth novel exploration of the local mechanical properties of nanocomposite c...
International audienceNano-indentation experiments are carried out on two cement pastes in order to ...
The measurement of elastic properties at the nanoscale is a prerequisite to building a foundation fo...
The nanoindentation technique is already widely applied in the mechanical characterization of the mi...
Cementitious materials represent the most used materials in the construction industry. Their strong ...
Investigation on the mechanical properties of cement-based materials at micron and submicron scales ...
In this paper an attempt has been made to provide an overview on the use of nanoindentation techniqu...
This paper aims to present the experimental results involving the use of nanoindentation measurement...
Nanoindentation, quantitative modulus mapping, and PeakForce quantitative nanomechanical mapping (QN...
Three types of nanomechanical methods including static nanoindentation, modulus mapping and peak-for...
© 2018 Elsevier Ltd Advanced characterization techniques have provided powerful tools for characteri...
The study is related to the EU 7th Framework Programme CODICE (COmputationally Driven design of Inno...
This paper reports a study to assess nanoindentation mapping of mechanical properties of cement past...
Nanoindentation technique is used to assess the mechanical properties of materials at nano-level. A ...
A commonly used hardened cement mortar was analyzed via the grid-nanoindentation coupled with scanni...
This paper provides in depth novel exploration of the local mechanical properties of nanocomposite c...
International audienceNano-indentation experiments are carried out on two cement pastes in order to ...
The measurement of elastic properties at the nanoscale is a prerequisite to building a foundation fo...
The nanoindentation technique is already widely applied in the mechanical characterization of the mi...
Cementitious materials represent the most used materials in the construction industry. Their strong ...
Investigation on the mechanical properties of cement-based materials at micron and submicron scales ...
In this paper an attempt has been made to provide an overview on the use of nanoindentation techniqu...
This paper aims to present the experimental results involving the use of nanoindentation measurement...