Influence of the concrete production and specimen preparation techniques on the compressive strength and fatigue resistance of HPC

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

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OriginalspracheEnglisch
Titel des SammelwerksProceedings of the 2021 session of the 13th fib International PhD Symposium in Civil Engineering, 2021
Herausgeber/-innenFabrice Gatuingt, Jean-Michel Torrenti
Seiten243-250
Seitenumfang8
PublikationsstatusVeröffentlicht - 2021
Veranstaltung13th fib International PhD Symposium in Civil Engineering, 2021 - Virtual, Online
Dauer: 21 Juli 202122 Juli 2021

Publikationsreihe

Namefib Symposium
ISSN (Print)2617-4820

Abstract

The results of tests under monotonically increasing load and cyclic compression load are often analysed employing probabilistic methods. Although there is a considerable scattering in the results, especially in the number of cycles to failure, the cause of these cannot be completely explained. The imperfections of the specimens tested are among the causes of this scattering mentioned in the literature. Based 011 a round-robin test the influence of HPC production and specimen preparation techniques 011 the mean values of the compressive strengths, number of cycles to failure and data scattering have been evaluated. The main findings of the study are that the production techniques influence the compressive strength, however, do not affect the mean number of cycles to failure. Moreover, the accurate preparation of the specimens has a positive influence on the compressive strength and the scattering of the results of both compression and cyclic load tests. Due to the use of the reference strength, the mean number of cycles to failure of HPC specimens is not influenced by the preparation techniques.

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Influence of the concrete production and specimen preparation techniques on the compressive strength and fatigue resistance of HPC. / Basaldella, Marco; Oneschkow, Nadja; Lohaus, Ludger.
Proceedings of the 2021 session of the 13th fib International PhD Symposium in Civil Engineering, 2021. Hrsg. / Fabrice Gatuingt; Jean-Michel Torrenti. 2021. S. 243-250 (fib Symposium).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Basaldella, M, Oneschkow, N & Lohaus, L 2021, Influence of the concrete production and specimen preparation techniques on the compressive strength and fatigue resistance of HPC. in F Gatuingt & J-M Torrenti (Hrsg.), Proceedings of the 2021 session of the 13th fib International PhD Symposium in Civil Engineering, 2021. fib Symposium, S. 243-250, 13th fib International PhD Symposium in Civil Engineering, 2021, Virtual, Online, 21 Juli 2021.
Basaldella, M., Oneschkow, N., & Lohaus, L. (2021). Influence of the concrete production and specimen preparation techniques on the compressive strength and fatigue resistance of HPC. In F. Gatuingt, & J.-M. Torrenti (Hrsg.), Proceedings of the 2021 session of the 13th fib International PhD Symposium in Civil Engineering, 2021 (S. 243-250). (fib Symposium).
Basaldella M, Oneschkow N, Lohaus L. Influence of the concrete production and specimen preparation techniques on the compressive strength and fatigue resistance of HPC. in Gatuingt F, Torrenti JM, Hrsg., Proceedings of the 2021 session of the 13th fib International PhD Symposium in Civil Engineering, 2021. 2021. S. 243-250. (fib Symposium).
Basaldella, Marco ; Oneschkow, Nadja ; Lohaus, Ludger. / Influence of the concrete production and specimen preparation techniques on the compressive strength and fatigue resistance of HPC. Proceedings of the 2021 session of the 13th fib International PhD Symposium in Civil Engineering, 2021. Hrsg. / Fabrice Gatuingt ; Jean-Michel Torrenti. 2021. S. 243-250 (fib Symposium).
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abstract = "The results of tests under monotonically increasing load and cyclic compression load are often analysed employing probabilistic methods. Although there is a considerable scattering in the results, especially in the number of cycles to failure, the cause of these cannot be completely explained. The imperfections of the specimens tested are among the causes of this scattering mentioned in the literature. Based 011 a round-robin test the influence of HPC production and specimen preparation techniques 011 the mean values of the compressive strengths, number of cycles to failure and data scattering have been evaluated. The main findings of the study are that the production techniques influence the compressive strength, however, do not affect the mean number of cycles to failure. Moreover, the accurate preparation of the specimens has a positive influence on the compressive strength and the scattering of the results of both compression and cyclic load tests. Due to the use of the reference strength, the mean number of cycles to failure of HPC specimens is not influenced by the preparation techniques.",
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AU - Basaldella, Marco

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AU - Lohaus, Ludger

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N2 - The results of tests under monotonically increasing load and cyclic compression load are often analysed employing probabilistic methods. Although there is a considerable scattering in the results, especially in the number of cycles to failure, the cause of these cannot be completely explained. The imperfections of the specimens tested are among the causes of this scattering mentioned in the literature. Based 011 a round-robin test the influence of HPC production and specimen preparation techniques 011 the mean values of the compressive strengths, number of cycles to failure and data scattering have been evaluated. The main findings of the study are that the production techniques influence the compressive strength, however, do not affect the mean number of cycles to failure. Moreover, the accurate preparation of the specimens has a positive influence on the compressive strength and the scattering of the results of both compression and cyclic load tests. Due to the use of the reference strength, the mean number of cycles to failure of HPC specimens is not influenced by the preparation techniques.

AB - The results of tests under monotonically increasing load and cyclic compression load are often analysed employing probabilistic methods. Although there is a considerable scattering in the results, especially in the number of cycles to failure, the cause of these cannot be completely explained. The imperfections of the specimens tested are among the causes of this scattering mentioned in the literature. Based 011 a round-robin test the influence of HPC production and specimen preparation techniques 011 the mean values of the compressive strengths, number of cycles to failure and data scattering have been evaluated. The main findings of the study are that the production techniques influence the compressive strength, however, do not affect the mean number of cycles to failure. Moreover, the accurate preparation of the specimens has a positive influence on the compressive strength and the scattering of the results of both compression and cyclic load tests. Due to the use of the reference strength, the mean number of cycles to failure of HPC specimens is not influenced by the preparation techniques.

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