Hydration modelling of calcium sulphates

A.C.J. de Korte

Hydration modelling of calcium sulphates

A.C.J. de Korte

Faculty of Engineering Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

91 Downloads (Pure)

Abstract

The CEMHYD3D model has been extended at the University of Twente in last ten years1,2. At present the cement hydration model is extended for the use of gypsum. Although gypsum was present in the model already, the model was not suitable for high contents of gypsum and did not include the transitions between the different calcium sulphate phases (anhydrite, hemihydrate and gypsum). Besides that gypsum was seen as intermediate phase instead of a final phase. The presented model addresses these problems and has the possibility to simulate the microstructure development of gypsum, including reaction kinetics (dissolution, diffusion and precipitation) and the formation of gypsum needles. The model enables multi-time modelling which means the possibility to zoom in and out on the hydration process with respect to time. Multi-time modelling enables the user to study the hydration in more detail in both the early phase (hours) and on the long term (years). This modelling is needed, since the hydration of calcium sulphates is very short compared to that of cement.

Original language	English
Title of host publication	7th fib International PhD Symposium in Civil Engineering, 11-13 September 2008, Stuttgart, Germany
Editors	R. Eligehausen, C. Gehlen
Place of Publication	Stuttgart, Germany
Publisher	Universität Stuttgart
Pages	3-13
Publication status	Published - 11 Sept 2008
Event	7th FIB International PhD Symposium in Civil Engineering 2008 - Universität Stuttgart, Stuttgart, Germany Duration: 11 Sept 2008 → 13 Sept 2008

Conference

Conference	7th FIB International PhD Symposium in Civil Engineering 2008
Country/Territory	Germany
City	Stuttgart
Period	11/09/08 → 13/09/08

Keywords

METIS-249731
IR-68564

Access to Document

2008_Stuttgart_-_de_Korte

Cite this

@inproceedings{74b2c9a0cff648cb94dcc5dae779a6cd,

title = "Hydration modelling of calcium sulphates",

abstract = "The CEMHYD3D model has been extended at the University of Twente in last ten years1,2. At present the cement hydration model is extended for the use of gypsum. Although gypsum was present in the model already, the model was not suitable for high contents of gypsum and did not include the transitions between the different calcium sulphate phases (anhydrite, hemihydrate and gypsum). Besides that gypsum was seen as intermediate phase instead of a final phase. The presented model addresses these problems and has the possibility to simulate the microstructure development of gypsum, including reaction kinetics (dissolution, diffusion and precipitation) and the formation of gypsum needles. The model enables multi-time modelling which means the possibility to zoom in and out on the hydration process with respect to time. Multi-time modelling enables the user to study the hydration in more detail in both the early phase (hours) and on the long term (years). This modelling is needed, since the hydration of calcium sulphates is very short compared to that of cement.",

keywords = "METIS-249731, IR-68564",

author = "{de Korte}, A.C.J.",

year = "2008",

month = sep,

day = "11",

language = "English",

pages = "3--13",

editor = "R. Eligehausen and C. Gehlen",

booktitle = "7th fib International PhD Symposium in Civil Engineering, 11-13 September 2008, Stuttgart, Germany",

publisher = "Universit{\"a}t Stuttgart",

note = "7th FIB International PhD Symposium in Civil Engineering 2008 ; Conference date: 11-09-2008 Through 13-09-2008",

}

Hydration modelling of calcium sulphates. / de Korte, A.C.J.
7th fib International PhD Symposium in Civil Engineering, 11-13 September 2008, Stuttgart, Germany. ed. / R. Eligehausen; C. Gehlen. Stuttgart, Germany: Universität Stuttgart, 2008. p. 3-13.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Hydration modelling of calcium sulphates

AU - de Korte, A.C.J.

PY - 2008/9/11

Y1 - 2008/9/11

N2 - The CEMHYD3D model has been extended at the University of Twente in last ten years1,2. At present the cement hydration model is extended for the use of gypsum. Although gypsum was present in the model already, the model was not suitable for high contents of gypsum and did not include the transitions between the different calcium sulphate phases (anhydrite, hemihydrate and gypsum). Besides that gypsum was seen as intermediate phase instead of a final phase. The presented model addresses these problems and has the possibility to simulate the microstructure development of gypsum, including reaction kinetics (dissolution, diffusion and precipitation) and the formation of gypsum needles. The model enables multi-time modelling which means the possibility to zoom in and out on the hydration process with respect to time. Multi-time modelling enables the user to study the hydration in more detail in both the early phase (hours) and on the long term (years). This modelling is needed, since the hydration of calcium sulphates is very short compared to that of cement.

AB - The CEMHYD3D model has been extended at the University of Twente in last ten years1,2. At present the cement hydration model is extended for the use of gypsum. Although gypsum was present in the model already, the model was not suitable for high contents of gypsum and did not include the transitions between the different calcium sulphate phases (anhydrite, hemihydrate and gypsum). Besides that gypsum was seen as intermediate phase instead of a final phase. The presented model addresses these problems and has the possibility to simulate the microstructure development of gypsum, including reaction kinetics (dissolution, diffusion and precipitation) and the formation of gypsum needles. The model enables multi-time modelling which means the possibility to zoom in and out on the hydration process with respect to time. Multi-time modelling enables the user to study the hydration in more detail in both the early phase (hours) and on the long term (years). This modelling is needed, since the hydration of calcium sulphates is very short compared to that of cement.

KW - METIS-249731

KW - IR-68564

M3 - Conference contribution

SP - 3

EP - 13

BT - 7th fib International PhD Symposium in Civil Engineering, 11-13 September 2008, Stuttgart, Germany

A2 - Eligehausen, R.

A2 - Gehlen, C.

PB - Universität Stuttgart

CY - Stuttgart, Germany

T2 - 7th FIB International PhD Symposium in Civil Engineering 2008

Y2 - 11 September 2008 through 13 September 2008

ER -

Hydration modelling of calcium sulphates

Abstract

Conference

Keywords

Access to Document

Fingerprint

Cite this