Ghent University Academic Bibliography

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Testing alginate- and sulfonate-based superabsorbent polymers as alternative to commercial options used for internal curing in cementitious materials

José Roberto Tenório Filho (UGent) , Maria Adelaide Pereira Gomes de Araújo, Els Mannekens, Nele De Belie (UGent) and Didier Snoeck

(2023) CMSS2023, the 4th International Conference on Materials & Structural Stability, Proceedings.
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Alginate- and sulfonate-based superabsorbent polymers for application in cementitious materials : effects of kinetics on internal curing and other properties

José Roberto Tenório Filho (UGent) , Maria Adelaide Pereira Gomes de Araújo (UGent) , Els Mannekens, Nele De Belie (UGent) and Didier Snoeck (UGent)

(2022) CEMENT AND CONCRETE RESEARCH. 159.
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The influence of superabsorbent polymers (SAPs) on autogenous shrinkage in cement paste, mortar and concrete

Laurence De Meyst, Els Mannekens, Kim Van Tittelboom (UGent) and Nele De Belie (UGent)

(2021) CONSTRUCTION AND BUILDING MATERIALS. 286.
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Salt-scaling resistance of SAP-modified concrete under freeze-thaw cycles

José Roberto Tenório Filho (UGent) , Els Mannekens, Didier Snoeck (UGent) and Nele De Belie (UGent)

(2021) Proceedings of the 3rd RILEM Spring Convention and Conference (RSCC2020) : volume 2 : new materials and structures for ultra-durability. In RILEM bookseries 33. p.131-139
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Crack-free reinforced concrete with innovative sulfonate superabsorbent polymers : shrinkage-cracking of concrete structures

José Roberto Tenório Filho (UGent) , Els Mannekens, Nele De Belie (UGent) and Didier Snoeck (UGent)

(2021) CONCRETE PLANT INTERNATIONAL. 2021(6). p.30-36
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Innovative SuperAbsorbent Polymers (iSAPs) to construct crack-free reinforced concrete walls : an in-field large-scale testing campaign

José Roberto Tenório Filho (UGent) , Els Mannekens, Kim Van Tittelboom (UGent) , Sandra Van Vlierberghe (UGent) , Nele De Belie (UGent) and Didier Snoeck (UGent)

(2021) JOURNAL OF BUILDING ENGINEERING. 43.
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Enhanced durability performance of cracked and uncracked concrete by means of smart in-house developed superabsorbent polymers with alkali-stable and -unstable crosslinkers

José Roberto Tenório Filho (UGent) , Evelien Vermoesen (UGent) , Els Mannekens, Kim Van Tittelboom (UGent) , Sandra Van Vlierberghe (UGent) , Nele De Belie (UGent) and Didier Snoeck (UGent)

(2021) CONSTRUCTION AND BUILDING MATERIALS. 297.
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Assessment of the potential of superabsorbent polymers as internal curing agents in concrete by means of optical fiber sensors

José Roberto Tenório Filho (UGent) , Els Mannekens, Kim Van Tittelboom (UGent) , Didier Snoeck (UGent) and Nele De Belie (UGent)

(2020) CONSTRUCTION AND BUILDING MATERIALS. 238.
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Exploring different choices of 'time zero' in the autogenous shrinkage deformation of cement pastes containing superabsorbent polymers

José Roberto Tenório Filho (UGent) , Maria Adelaide Pereira Gomes de Araújo (UGent) , Didier Snoeck (UGent) , Els Mannekens and Nele De Belie (UGent)

(2020) 3rd International Conference on the Application of Superabsorbent Polymers (SAP) and Other New Admixtures Towards Smart Concrete. In RILEM Bookseries 24. p.106-113
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Investigating the efficiency of 'in-house' produced hydrogels as internal curing agents in cement pastes

José Roberto Tenório Filho (UGent) , Els Mannekens, Didier Snoeck (UGent) and Nele De Belie (UGent)

(2019) Proceedings ICSBM 2019 Volume 5 - Biogenic and functionalized materials. In International Conference of Sustainable Building Materials 5. p.900-906

Academic Bibliography

Testing alginate- and sulfonate-based superabsorbent polymers as alternative to commercial options used for internal curing in cementitious materials

Alginate- and sulfonate-based superabsorbent polymers for application in cementitious materials : effects of kinetics on internal curing and other properties

The influence of superabsorbent polymers (SAPs) on autogenous shrinkage in cement paste, mortar and concrete

Salt-scaling resistance of SAP-modified concrete under freeze-thaw cycles

Crack-free reinforced concrete with innovative sulfonate superabsorbent polymers : shrinkage-cracking of concrete structures

Innovative SuperAbsorbent Polymers (iSAPs) to construct crack-free reinforced concrete walls : an in-field large-scale testing campaign

Enhanced durability performance of cracked and uncracked concrete by means of smart in-house developed superabsorbent polymers with alkali-stable and -unstable crosslinkers

Assessment of the potential of superabsorbent polymers as internal curing agents in concrete by means of optical fiber sensors

Exploring different choices of 'time zero' in the autogenous shrinkage deformation of cement pastes containing superabsorbent polymers

Investigating the efficiency of 'in-house' produced hydrogels as internal curing agents in cement pastes

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