dr. Yasmina Shields

Mechanical properties of 3D printed concrete with 2D infill patterns including print path crossings

Bo Zhang (UGent) , Yaxin Tao (UGent) , Yi Zhang (UGent) , Yasmina Shields (UGent) , Wouter De Corte (UGent) and Roman Wan-Wendner (UGent)

(2025) CONSTRUCTION AND BUILDING MATERIALS. 483.

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Conference Paper

Capillary imbibition of naturally carbonated samples evaluated via neutron radiography

Natalia Mariel Alderete (UGent) , Juan Manuel Etcheverry (UGent) , Vanessa Giaretton Cappellesso (UGent) , Yasmina Shields (UGent) , Claire Riordan and Nele De Belie (UGent)

(2024) 78th RILEM Annual Week & RILEM Conference on Smart Materials and Structures: meeting the major challenges of the 21st century. In Rilem p.1-8

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Journal Article
A1
open access

Recent progress in vascularization of cementitious composites : fundamental concepts, strategies and applications

Ethan Yen, Geetika Mishra, Mohammad Irfan Iqbal, Parsa Namakiaraghi, Yasmina Shields (UGent) , Kim Van Tittelboom (UGent) , Nele De Belie (UGent) and Yaghoob Farnam (UGent)

(2024) CONSTRUCTION AND BUILDING MATERIALS. 449.

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Journal Article
A1
open access

A large-scale demonstration and sustainability evaluation of ductile-porous vascular networks for self-healing concrete

Yasmina Shields (UGent) , Davide di Summa (UGent) , NIcolas Ospitia (UGent) , Gontran Herrier, Erik Schlangen, Tony Jefferson, Nele De Belie (UGent) and Kim Van Tittelboom (UGent)

(2024) JOURNAL OF BUILDING ENGINEERING. 95.

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Journal Article
A1
open access

Neutron radiography with simultaneous deformation measurements demand rethinking the modelling of imbibition in cement paste

Natalia Mariel Alderete (UGent) , Yury Villagrán-Zaccardi, Yasmina Shields (UGent) , Philip Van den Heede (UGent) , María Paula Zappitelli, Ravi Patel, Balša Jovanović (UGent) , Pavel Trtik and Nele De Belie (UGent)

(2024) CEMENT AND CONCRETE RESEARCH. 179.

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PhD Thesis

Self-healing concrete with a 3D printed ductile-porous vascular network

Yasmina Shields (UGent)

(2024)

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Journal Article
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open access

Non-destructive evaluation of ductile-porous versus brittle 3D printed vascular networks in self-healing concrete

Yasmina Shields (UGent) , Eleni Tsangouri, Claire Riordan, Cristina De Nardi, Jose Ricardo Assunção Godinho, Ticho Ooms (UGent) , Paola Antonaci, Dave Palmer, Abir Al-Tabbaa, Tony Jefferson, et al.

(2024) CEMENT & CONCRETE COMPOSITES. 145.

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Conference Paper
C1
open access

A comparison of potential healing agents for vascular-based self-healing concrete

Yasmina Shields (UGent) , Vanessa Giaretton Cappellesso (UGent) , Tim Van Mullem (UGent) , Nele De Belie (UGent) and Kim Van Tittelboom (UGent)

(2023) MATEC WEB OF CONFERENCES. 378.

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Conference Paper
C1
open access

The sustainability profile of a biomimetic 3D printed vascular network to restore the structural integrity of concrete

Davide di Summa (UGent) , Yasmina Shields (UGent) , Vanessa Giaretton Cappellesso (UGent) , Liberato Ferrara and Nele De Belie (UGent)

(2023) MATEC WEB OF CONFERENCES. 378.

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Conference Paper
C1
open access

Autonomous healing by vascular networks : tracking of cracks interaction by Ultrasounds and Acoustic Emission

Eva Vangansbeke, Yasmina Shields (UGent) , Nele De Belie (UGent) , Kim Van Tittelboom (UGent) and Eleni Tsangouri

(2023) MATEC WEB OF CONFERENCES. In MATEC Web of Conferences 378.

Academic Bibliography

dr. Yasmina Shields

Mechanical properties of 3D printed concrete with 2D infill patterns including print path crossings

Capillary imbibition of naturally carbonated samples evaluated via neutron radiography

Recent progress in vascularization of cementitious composites : fundamental concepts, strategies and applications

A large-scale demonstration and sustainability evaluation of ductile-porous vascular networks for self-healing concrete

Neutron radiography with simultaneous deformation measurements demand rethinking the modelling of imbibition in cement paste

Self-healing concrete with a 3D printed ductile-porous vascular network

Non-destructive evaluation of ductile-porous versus brittle 3D printed vascular networks in self-healing concrete

A comparison of potential healing agents for vascular-based self-healing concrete

The sustainability profile of a biomimetic 3D printed vascular network to restore the structural integrity of concrete

Autonomous healing by vascular networks : tracking of cracks interaction by Ultrasounds and Acoustic Emission

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