Bibliography

1

H.D. Baehr and K. Stephan: Heat and Mass Transfer, Springer, 2006.

2

Z.P. Bazant, L.J. Najjar.
Nonlinear water diffusion in nonsaturated concrete.
Materials and Structures, 5:3-20, 1972.

3

Z.P. Bazant, J. Planas: Fracture and Size Effect in Concrete and Other Quasibrittle Materials, CRC Press, 1998.

4

S. Brunauer, J. Skalny, E.E. Bodor: J. Colloid Interface Sci, 30, 1969.

5

D.P. Bentz: CEMHYD3D: A Three-Dimensional Cement Hydration and Microstructure Development Modeling Package. Version 3.0., NIST Building and Fire Research Laboratory, Gaithersburg, Maryland, Technical report, 2005.

6

M. Cervera, J. Oliver, and T. Prato: Thermo-chemo-mechanical model for concrete. I: Hydration and aging. Journal of Engineering Mechanics ASCE, 125(9):1018-1027, 1999.

7

D. Gawin, F. Pesavento, and B. A. Schrefler: Hygro-thermo-chemo-mechanical modelling of concrete at early ages and beyond. Part I: Hydration and hygro-thermal phenomena. International Journal for Numerical Methods in Engineering, 67(3):299-331, 2006.

8

P. Grassl and M. Jirásek.
Damage-plastic model for concrete failure.
International Journal of Solids and Structures, 43:7166-7196, 2006.

9

P. Grassl and M. Jirásek.
CDPM2: A damage-plasticity approach to modelling the failure of concrete.
International Journal of Solids and Structures, 50:3805-3816, 2013.

10

P. Grassl and M. Jirásek.
Meso-scale approach to modelling the fracture process zone of concrete subjected to uniaxial tension.
International Journal of Solids and Structures, 47: 957-968, 2010.

11

P. Grassl, D. Xenos, M. Jirásek and M.  Horák.
Evaluation of nonlocal approaches for modelling fracture near nonconvex boundaries.
International Journal of Solids and Structures, 51: 3239–-3251, 2014.

12

M. Jirásek, Z.P. Bazant: Inelastic analysis of structures, John Wiley, 2001.

13

P.F. Hansen: Coupled Moisture/Heat Transport in Cross Sections of Structures, Beton og Konstruktionsinstituttet, 1985.

14

E. Hoek and Z.T. Bieniawski: Brittle Rock Fracture Propagation In Rock Under Compression, International Journal of Fracture Mechanics 1(3), 137-155, 1965.

15

H.M. Künzel, H.M.: Simultaneous heat and moisture transport in building components, Ph.D. thesis, IRB-Verlag, 1995.

16

M. Jirásek: Comments on microplane theory, Mechanics of Quasi-Brittle Materials and Structures, ed. G. Pijaudier-Cabot, Z. Bittnar, and B. Gérard, Hermès Science Publications, Paris, 1999, pp. 57-77.

17

B. Lourenco, J.G. Rots: Multisurface Interface Model for Analysis of Masonry Structures, Journal of Engng Mech, vol. 123, No. 7, 1997.

18

M. Ortiz, E.P. Popov: Accuracy and stability of integration algorithms for elasto-plastic constitutive relations, Int. J. Numer. Methods Engrg, 21, 1561-1576, 1985.

19

B. Patzák: OOFEM home page, http://www.oofem.org, 2003.

20

J.C. Simo, T.J.R. Hughes: Computational Inelasticity, Springer, 1998.

21

J. Ruiz, A. Schindler, R. Rasmussen, P. Kim, G. Chang: Concrete temperature modeling and strength prediction using maturity concepts in the FHWA HIPERPAV software, 7th international conference on concrete pavements, Orlando (FL), USA, 2001.

22

J.C. Simo, J.G. Kennedy, S. Govindjee: Non-smooth multisurface plasticity and viscoplasticity. Loading/unloading conditions and numerical algorithms, Int. J. Numer. Methods Engrg, 26, 2161-2185, 1988.

23

A. K. Schindler and K. J. Folliard: Heat of Hydration Models for Cementitious Materials, ACI Materials Journal, 102, 24 - 33, 2005.

24

J.C. Simo, K.S. Pister: Remarks on rate constitutive equations for finite deformation problems: computational implications, Comp Methods in Applied Mech and Engng, 46, 201-215, 1984.

25

V. Šmilauer and T. Krejcí, Multiscale Model for Temperature Distribution in Hydrating Concrete, International Journal for Multiscale Computational Engineering, 7 (2), 135-151, 2009.

26

J.H.P. de Vree, W.A.M. Brekelmans, and M.A.J. van Gils: Comparison of nonlocal approaches in continuum damage mechanics. Computers and Structures 55(4), 581–588, 1995.

27

Y. Xi, Z.P. Bazant, H.M. Jennings: Moisture Diffusion in Cementitious Materials, Advn Cem Bas Mat, 1994.

28

Z.P. Bazant, S. Prasannan: Solidification theory for concrete creep. I: Formulation. Journal of Engineering Mechanics 115(8), 1691–1703, 1989.

29

Z.P. Bazant, A.B. Hauggaard, F. Ulm: Microprestress-solidification theory for concrete creep. I: Aging and drying effects. Journal of Engineering Mechanics 123(11), 1188–1194, 1997.

30

M. Jirásek, P. Havlásek: Microprestress-Solidification Theory of Concrete Creep: Reformulation and Improvement. Cement and Concrete Research 60, 51–62, 2014.

31

International Federation for Structural Concrete (fib): The fib Model Code for Concrete Structures 2010.