2621369
doi
10.5281/zenodo.2621369
oai:zenodo.org:2621369
user-eu
Francesco Lo Monte
Politecnico di Milano
Eduardo J. Mezquida-Alcaraz
Universitat Politecnica de Valencia
Estefania Cuenca
Politecnico di Milano
Viktor Mechtcherine
Technische Universität Dresden
Michaela Reichardt
Technische Universität Dresden
Alva Peled
Ben Gurion University of the Negev
Oren Regev
Ben Gurion University of the Negev
Ruben P. Borg
University of Malta
Alexej Tretjakov
ANF Development OU
Dennis Lizunov
ANF Development OU
Konstantin Sobolev
University of Wisconsin at Milwaukee
Stamatina Sideri
API Europe
Kim Nelson
American Process
Enrico Maria Gastaldo Brac
Penetron Italia
Liberato Ferrara
Politecnico di Milano
UPGRADING THE CONCEPT OF UHPFRC FOR HIGH DURABILITY IN THE CRACKED STATE: THE CONCEPT OF ULTRA HIGH DURABILITY CONCRETE (UHDC) IN THE APPROACH OF THE H2020 PROJECT RESHEALIENCE
PEDRO SERNA
Universitat Politecnica de Valencia
isbn:978-2-35158-217-6
info:eu-repo/semantics/openAccess
Creative Commons Attribution 4.0 International
https://creativecommons.org/licenses/by/4.0/legalcode
Ultra High Durability Concrete
(micro)cracked state,
nanoparticles
self-healing
<p>Current solutions for new concrete constructions in Extremely Aggressive Exposures, as recommended and enforced by design codes, are not taking into account new cement-based construction materials, such as Ultra High Performance Fibre Reinforced Concrete, neither new constituents specifically conceived to improve the concrete durability, because of the lack of standards and technical awareness by most designers and contractors. The H2020 ReSHEALience project will upgrade to the concept of Ultra High Durability Concrete (UHDC), combining nano-scale constituents (nano-cellulose, alumina nanofibers) and self-healing promoters (crystalline admixtures). The paper will present the approach pursued in the project together with a synopsis of the results of ongoing research.</p>
Zenodo
2019-04-02
info:eu-repo/semantics/conferencePaper
2621368
user-eu
award_title=Rethinking coastal defence and Green-Energy Service infrastructures through enHancEd-durAbiLIty high-performance fiber reinforced cement-based materials.; award_number=760824; award_identifiers_scheme=url; award_identifiers_identifier=https://cordis.europa.eu/projects/760824; funder_id=00k4n6c32; funder_name=European Commission;
1594374335.090252
455858
md5:5b072b31da020d6777a204f5662e4705
https://zenodo.org/records/2621369/files/2, ZENODO. RILEM-SMSS-UHDC revised (002).pdf
public
978-2-35158-217-6
Is part of
isbn
10.5281/zenodo.2621368
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doi