Erik Schlangen
Cited by
Cited by
Application of bacteria as self-healing agent for the development of sustainable concrete
HM Jonkers, A Thijssen, G Muyzer, O Copuroglu, E Schlangen
Ecological engineering 36 (2), 230-235, 2010
Fracture simulations of concrete using lattice models: computational aspects
E Schlangen, EJ Garboczi
Engineering fracture mechanics 57 (2-3), 319-332, 1997
Simple lattice model for numerical simulation of fracture of concrete materials and structures
E Schlangen, JGM Van Mier
Materials and Structures 25, 534-542, 1992
Experimental and numerical analysis of fracture processes in concrete
E Schlangen
TU Delft, Delft University of Technology, 1993
Experimental and numerical analysis of micromechanisms of fracture of cement-based composites
E Schlangen, JGM Van Mier
Cement and concrete composites 14 (2), 105-118, 1992
Self-healing phenomena in cement-Based materials: state-of-the-art report of RILEM technical committee 221-SHC: self-Healing phenomena in cement-Based materials
M De Rooij, K Van Tittelboom, N De Belie, E Schlangen
Springer Science & Business Media, 2013
Self-healing behavior of strain hardening cementitious composites incorporating local waste materials
S Qian, J Zhou, MR De Rooij, E Schlangen, G Ye, K Van Breugel
Cement and Concrete Composites 31 (9), 613-621, 2009
Bacteria-based self-healing concrete to increase liquid tightness of cracks
E Tziviloglou, V Wiktor, HM Jonkers, E Schlangen
Construction and Building Materials 122, 118-125, 2016
Self-healing in cementitious materials: Materials, methods and service conditions
H Huang, G Ye, C Qian, E Schlangen
Materials & Design 92, 499-511, 2016
Electrical conductivity of asphalt mortar containing conductive fibers and fillers
Á García, E Schlangen, M van de Ven, Q Liu
Construction and building materials 23 (10), 3175-3181, 2009
Use of fine recycled concrete aggregates in concrete: A critical review
M Nedeljkoviæ, J Visser, B ©avija, S Valcke, E Schlangen
Journal of Building Engineering 38, 102196, 2021
Induction heating of electrically conductive porous asphalt concrete
Q Liu, E Schlangen, Á García, M van de Ven
Construction and Building Materials 24 (7), 1207-1213, 2010
Influence of curing condition and precracking time on the self-healing behavior of Engineered Cementitious Composites
SZ Qian, J Zhou, E Schlangen
Cement and concrete composites 32 (9), 686-693, 2010
New method for simulating fracture using an elastically uniform random geometry lattice
E Schlangen, EJ Garboczi
International journal of engineering science 34 (10), 1131-1144, 1996
Development of a bacteria-based self healing concrete
HM Jonkers, E Schlangen
Tailor made concrete structures 1, 425-430, 2008
Preparation of capsules containing rejuvenators for their use in asphalt concrete
Á García, E Schlangen, M van de Ven, G Sierra-Beltrán
Journal of hazardous materials 184 (1-3), 603-611, 2010
Induction healing of asphalt mastic and porous asphalt concrete
Q Liu, Á García, E Schlangen, M van de Ven
Construction and Building Materials 25 (9), 3746-3752, 2011
Lattice modeling of chloride diffusion in sound and cracked concrete
B ©avija, J Pacheco, E Schlangen
Cement and Concrete Composites 42, 30-40, 2013
Characterization of sustainable bio-based mortar for concrete repair
MG Sierra-Beltran, HM Jonkers, E Schlangen
Construction and Building materials 67, 344-352, 2014
Cracking of the concrete cover due to reinforcement corrosion: A two-dimensional lattice model study
B ©avija, M Lukoviæ, J Pacheco, E Schlangen
Construction and Building Materials 44, 626-638, 2013
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