SEM/AFM studies of cementitious binder modified by MWCNT and nano-sized Fe needles
Autor: | Albert G. Nasibulin, Vesa Penttala, Andrzej Cwirzen, Prasantha R. Mudimela, Karin Habermehl-Cwirzen, E.I. Kaupinen |
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Rok vydání: | 2009 |
Předmět: |
Cement
Materials science Bond strength Scanning electron microscope Mechanical Engineering technology industry and agriculture chemistry.chemical_element Carbon nanotube Condensed Matter Physics law.invention Flexural strength chemistry Mechanics of Materials law Ferrite (iron) General Materials Science Cementitious Composite material Carbon |
Zdroj: | Materials Characterization. 60:735-740 |
ISSN: | 1044-5803 |
DOI: | 10.1016/j.matchar.2008.11.001 |
Popis: | Several compositions of cement paste samples containing multiwalled carbon nanotubes were produced using a small-size vacuum mixer. The mixes had water-to-binder ratios of 0.25 and 0.3. Sulfate resistant cement has been used. The multiwalled carbon nanotubes were introduced as a water suspension with added surfactant admixtures. The used surfactant acted as plasticizing agents for the cement paste and as dispersant for the multiwalled carbon nanotubes. A set of beams was produced to determine the compressive and flexural strengths. The scanning electron microscope and atomic force microscope studies of fractured and polished samples showed a good dispersion of multiwalled carbon nanotubes in the cement matrix. The studies revealed also sliding of multiwalled carbon nanotubes from the matrix in tension which indicates their weak bond with cement matrix. In addition to multiwalled carbon nanotubes also steel wires covered with ferrite needles were investigated to determine the bond strength between the matrix and the steel wire. These later samples consisted of 15-mm-high cylinders of cement paste with vertically cast-in steel wires. As reference, plain steel wires were cast, too. The bond strength between steel wires covered with nano-sized Fe needles appeared to be lower in comparison with the reference wires. The scanning electron microscope studies of fractured samples indicated on brittle nature of Fe needles resulting in shear-caused breakage of the bond to the matrix. |
Databáze: | OpenAIRE |
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