Emanuel Lägel scite author profile

Emanuel Lägel

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Leipzig University of Applied Sciences

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Carbon reinforced concrete and temperature

Schladitz

Lägel

Ehlig

2019

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<p>Carbon reinforced concrete — a combination of non-corroding carbon reinforcement and concrete — has been investigated for over 20 years and has been used extensively in construction practice for more than 10 years for new constructions and for renovation. Wall and ceiling constructions in building construction as well as bridges and platform systems were newly erected, but also roofs, silos and bridges were renovated. During its manufacturing process but also during its time of use, carbon reinforced concrete can be affected by temperature stresses. The paper starts with an overview of how the temperature characteristics at different temperatures are to be evaluated. Furthermore, it will be shown how mat-like carbon reinforcement with its electrical conductivity and the high specific electrical resistance of approx. 16 Ω-mm²/m can be used for the deliberate heating of carbon concrete components. In addition, carbon reinforcement can be used to achieve thermal prestressing of fresh concrete components similar to prestressed glass panes.</p>

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Untersuchungen zur Frostbeanspruchung geneigter Oberflächen aus hochfestem Spritzbeton

Stelzmann

Lägel

Kahnt

et al. 2023

Beton und Stahlbetonbau

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Im Experimentalgebäude CUBE – einem Leuchtturmprojekt des Carbonbetonbaus – sind zwei doppeltgekrümmte Bauteile aus Spritzbeton sichtbar ausgeführt worden, woraus sich erhöhte Anforderungen an dessen Optik und besonders an die Sichtbetonqualität der Gebäudehülle ergeben. Eine Besonderheit besteht in der Herstellungstechnologie der Schalentragwerke aus Spritzbeton. Aufgrund der besonderen Formgebung der Bauteile ergeben sich erhöhte Feuchtebeanspruchungen und daraus resultierende Schadenspotenziale durch Frost. In rechnerischen Untersuchungen zeigen sich deutlich erhöhte Frostbeanspruchungen von geneigten Sichtbetonflächen gegenüber Wandflächen. Die allgemein höheren Wassergehalte geneigter Betonflächen führen dazu, dass das in den Porenräumen enthaltene Wasser bereits bei Temperaturen knapp unter 0 °C gefriert. Bei Wandflächen wird das enthaltene Wasser häufiger in sehr feinen Poren gespeichert. Der hier vorherrschende Kapillardruck führt dazu, dass Eis erst bei Temperaturen unter –20 °C entsteht.

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Emanuel Lägel

Carbon reinforced concrete and temperature

Untersuchungen zur Frostbeanspruchung geneigter Oberflächen aus hochfestem Spritzbeton

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