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Date
2020
Author
Salah Uddin, K. M.
Subject
500  Science  690  Building and construction  HydratisierungPortlandzementAuflösungAlitReaktivitätMolekulardynamikFreie OberflächeCarbonatisierungFeuchtigkeit
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doi:10.17170/kobra-202009211835
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Elucidation of Chemical Reaction Pathways in Cementitious Materials

Abstract
The foremost objective of this research is to improve the fundamental knowledge of the early hydration mechanisms of Portland cement and the carbonation of the hydration product portlandite by the combinational approach of computer modeling and laboratory experiments. The approach started with an in-depth understanding of the dissolution mechanism of C3S and C2S immediately in contact with water and followed by the polymerization mechanism of silicates (the building block of C-S-H) under the influence of external parameters (i.e. temperature, Ca/Si ratio etc.), as a representative initial step of cement hydration kinetics. The model (ReaxFF combined with MetaD) enables an optimization of the C3S and C2S reactivity, which will allow an even further reduction of the clinker content in cementitious binders without loss of hydration performance. The proposed model will provide new insight into the initial hydration mechanism with an in-depth understanding.
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Zugleich: Dissertation, Universität Kassel, 2020
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kup - kassel university press  (Digitale Bibliotheksdienste)
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Citation
@book{doi:10.17170/kobra-202009211835,
   author={Salah Uddin, K. M.},
   title={Elucidation of Chemical Reaction Pathways in Cementitious Materials},
   publisher={kassel university press},
   year={2020}
}
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3000 Salah Uddin, K. M.
4000 Elucidation of Chemical Reaction Pathways in Cementitious Materials / Salah Uddin, K. M.
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4170 Schriftenreihe Baustoffe und Massivbau - Structural Materials and Engineering Series ;; Heft 33
5550 {{Hydratisierung}}
5550 {{Portlandzement}}
5550 {{Auflösung}}
5550 {{Alit}}
5550 {{Reaktivität}}
5550 {{Molekulardynamik}}
5550 {{Freie Oberfläche}}
5550 {{Carbonatisierung}}
5550 {{Feuchtigkeit}}
7136 ##0##http://hdl.handle.net/123456789/12407

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2021-01-14T10:28:14Z
2021-01-14T10:28:14Z
2020
doi:10.17170/kobra-202009211835
http://hdl.handle.net/123456789/12407
Zugleich: Dissertation, Universit&auml;t Kassel, 2020
eng
kassel university press
Namensnennung - Weitergabe unter gleichen Bedingungen 4.0 International
http://creativecommons.org/licenses/by-sa/4.0/
Hydration mechanism of Portland Cement
dissolution of C3S and C2S
reactivity of different surfaces
homogeneous nucleation
molecular dynamic simulation
Reactive Force Field theory (ReaxFF)
metadynamics
free energy surface
carbonation mechanism of Portlandite
relative humidity
Hydratationsmechanismus von Portlandzement
Aufl&ouml;sung von C3S und C2S
Reaktivit&auml;t verschiedener Oberfl&auml;chen
homogene Keimbildung
Molekulardynamiksimulation
Reaktive Kraftfeldtheorie (ReaxFF)
Metadynamik
Freie-Energie-Oberfl&auml;che
Karbonatisierungsmechanismus von Portlandit
relative Feuchte
500
690
Elucidation of Chemical Reaction Pathways in Cementitious Materials
Buch
The foremost objective of this research is to improve the fundamental knowledge of the early hydration mechanisms of Portland cement and the carbonation of the hydration product portlandite by the combinational approach of computer modeling and laboratory experiments. The approach started with an in-depth understanding of the dissolution mechanism of C3S and C2S immediately in contact with water and followed by the polymerization mechanism of silicates (the building block of C-S-H) under the influence of external parameters (i.e. temperature, Ca/Si ratio etc.), as a representative initial step of cement hydration kinetics. The model (ReaxFF combined with MetaD) enables an optimization of the C3S and C2S reactivity, which will allow an even further reduction of the clinker content in cementitious binders without loss of hydration performance. The proposed model will provide new insight into the initial hydration mechanism with an in-depth understanding.
open access
Salah Uddin, K. M.
XV, 149 Seiten
Schriftenreihe Baustoffe und Massivbau - Structural Materials and Engineering Series ;; Heft 33
Kassel, Universit&auml;t Kassel, Fachbereich Bauingenieur- und Umweltingenieurwesen
Middendorf, Bernhard (Prof. Dr.)
Koenders, Eduardus (Prof. Dr.)
Kassel
978-3-7376-0897-8
Hydratisierung
Portlandzement
Aufl&ouml;sung
Alit
Reaktivit&auml;t
Molekulardynamik
Freie Oberfl&auml;che
Carbonatisierung
Feuchtigkeit
publishedVersion
Schriftenreihe Baustoffe und Massivbau - Structural Materials and Engineering Series
Heft 33
true
39,00
Schriftenreihe Baustoffe und Massivbau - Structural Materials and Engineering Series
Naturwissenschaft, Technik, Informatik, Medizin
Dissertation
FB 14 / Bauingenieur- und Umweltingenieurwesen
Softcover
DIN A5
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Namensnennung - Weitergabe unter gleichen Bedingungen 4.0 International
Except where otherwise noted, this item's license is described as Namensnennung - Weitergabe unter gleichen Bedingungen 4.0 International