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clinker phases determined by atomistic simulations.
Crystal Growth and Design
,
11(7), 2964-2979.
Manzur, T. and Yazdani, N., 2010. Strength enhancement of cement mortar with
carbon nanotubes: early results and potential.
Transportation Research Record
,
2142(2), 102-108.
Matsuyama, H. and Young, J.F., 1999a. Intercalation of polymers in calcium silicate
hydrate: a new synthetic approach to biocomposites?
Chemistry of Materials
,
11(1), 16-19.
Matsuyama, H. and Young, J.F., 1999b. Synthesis of calcium silicate hydrate/polymer
complexes: Part II. Cationic polymers and complex formation with different poly-
mers.
Journal of Materials Research
, 14(8), 3389-3396.
Mehta, P.K., 2009. Global concrete industry sustainability.
Concrete International
,
32(2), 45-48.
Mehta, P.K. and Monteiro P.J.M., 2006.
Concrete: Microstructure, Properties and
Materials
, 3rd edn. McGraw-Hill, Maidenhead.
Meng, T., Qian, K.L., Qian, X.Q. and Zhan, S.L., 2008. Effect of the nano-CaCO
3
on
hydrated properties and interface of cement paste.
Rare Metal Materials and
Engineering
, 37(2), 667-669.
Metaxa, Z.S., Konsta-Gdoutos, M.S. and Shah, S.P., 2010. Carbon nanofi ber-
reinforced cement-based materials.
Transportation Research Record
, 2142,
114-118.
Miller, M., Bobko, C., Vandamme, M. and Ulm, F.-J., 2008. Surface roughness criteria
for cement paste nanoindentation.
Cement and Concrete Research
, 38(4),
467-476.
Minet, J., Abramson, S., Bresson, B., Franceschini, A., Van Damme, H. and Lequeux,
N., 2006. Organic calcium silicate hydrate hybrids: a new approach to cement
based nanocomposites.
Journal of Materials Chemistry
, 16(14), 1379-1383.
Mitchell, L.D., Prica, M. and Birchall, J.D., 1996. Aspects of Portland cement hydra-
tion studied using atomic force microscopy.
Journal of Materials Science
, 31(16),
4207-4212.
Mondal, P., Shah, S.P. and Marks, L., 2007. A reliable technique to determine the
local mechanical properties at the nanoscale for cementitious materials.
Cement
and Concrete Research
, 37(10), 1440-1444.
Mondal, P., Shah, S.R. and Marks, L.D., 2008. Nanoscale characterization of cementi-
tious materials.
ACI Materials Journal
, 105(2), 174-179.
Nasibulin, A.G., Shandakov, S.D., Nasibulina, L.I., Cwirzen, A., Mudimela, P.R.,
Habermehl-Cwirzen, K., Grishin, D.A., Gavrilov, Y.V., Malm, J.E.M., Tapper, U.,
Tian, Y., Penttala, V., Karppinen, M.J. and Kauppinen, E.I., 2009. A novel cement-
based hybrid material.
New Journal of Physics
, 11, 023013.
Nasibulina L.I., Koltsova, T.S., Joentakanen, T., Nasibulin, A.G., Tolochko, O.V.,
Malm, J.E.M., Karppinen, M.J. and Kauppinen, E.I., 2010. Direct synthesis of
carbon nanofi bers on cement particles.
Transportation Research Record
, 2142,
96-101.
Nazari, A. and Riahi, S., 2011. The effects of SiO
2
nanoparticles on physical and
mechanical properties of high strength compacting concrete.
Composites Part B:
Engineering
, 42(3), 570-578.
Nemecek, J., Smilauer, V. and Kopecky, L., 2010. Nanoindentation characteristics
of alkali-activated aluminosilicate materials.
Cement and Concrete Composites
,
33(2), 163-170.
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