Documents

Cement paste is the glue that holds concrete together and any improvements in material performance will come from its microstructure. For better understanding and predicting its elastic properties and fracture performance, more and more studies are carried out based on micromechanics simulations. However, the predicted results can be hardly verified experimentally due to the technical limitations. This paper presents a procedure for validating micromechanics simulation by making, testing and modelling deformation and fracture of micro cement paste cube (100 um x 100 um x 100 um). The micro scale specimens were produced by a micro dicing saw which is commonly employed in the semiconductor industry and fractured by a commercial

cylindrical wedge tip mounted on a nano-indenter equipment. A combination of X-ray computed tomography technique and a discrete lattice fracture model was applied to simulate the deformation and fracture performance of the micro scale specimen under indentation. Mechanical properties of local phases are the input for this fracture simulation, which are taken from the previous study by the authors, wherein a micro scale experiment is developed to calibrate these values. Load-displacement curve and crack pattern from the simulation show a good agreement with those obtained experimentally. The proposed technique forms the basis for experimental validation of simulation tools that are used in a multi-scale framework at every scale.
Original languageEnglish
Title of host publicationComputational Modelling of Concrete Structures
Subtitle of host publicationProceedings of the Conference on Computational Modelling of Concrete and Concrete Structures
EditorsGünther Meschke, Bernhard Pichler, Jan G. Rots
PublisherCRC Press
Pages121-126
ISBN (Electronic)978-1-315-18296-4
ISBN (Print)978-1-13-874117-1
Publication statusPublished - 28 Feb 2018
EventConference on Computational Modelling of Concrete and Concrete Structures - Bad Hofgastein, Austria, Bad Hofgastein, Austria
Duration: 26 Feb 20181 Mar 2018
http://208.254.74.112/books/details/9781138741171/

Conference

ConferenceConference on Computational Modelling of Concrete and Concrete Structures
Abbreviated titleEURO-C 2018
CountryAustria
CityBad Hofgastein
Period26/02/181/03/18
Internet address

ID: 40072399