1. bookVolume 60 (2019): Edition 1 (June 2019)
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eISSN
2545-2819
Première parution
30 Sep 2018
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Accès libre

Stability of Air Content in Fresh Concretes with PCE-Based Superplasticizers

Publié en ligne: 20 Jul 2019
Volume & Edition: Volume 60 (2019) - Edition 1 (June 2019)
Pages: 145 - 158
Reçu: 26 Sep 2018
Accepté: 18 Jun 2019
Détails du magazine
License
Format
Magazine
eISSN
2545-2819
Première parution
30 Sep 2018
Périodicité
2 fois par an
Langues
Anglais

1. Mölsä S: “The reason for the Kemijärvi railroad bridge's construction defects”. 2016. (In Finnish). [Online] https://www.rakennuslehti.fi/2016/11/kemijarven-sillan-valuvian-syyt-selvisivat-turkua-tutkitaan/ [Accessed on 29.1.2019]Search in Google Scholar

2. Turunsanomat News: “The background of the concrete strength problems is the elevated air content in-site”. 2016. (In Finnish). [Online] https://www.ts.fi/uutiset/paikalliset/3117381/Betonin+lujuusongelmien+taustalla+liialliset+ilmamaarat+Tyksin+tyomaalla [Accessed on 29.1.2019]Search in Google Scholar

3. Yang Q: “Stability of air bubbles in fresh concrete”. Master of Science Thesis. Department of Civil and Environmental Engineering, Division of Building Technology. Chalmers University of Technology, Göteborg, Sweden, 2012.Search in Google Scholar

4. Zakka A, Carrasquillo R & Ramon L: “Effects of high-range water reducers on the properties of fresh and hardened concrete”. Research Report No. 1117-3F. Guidelines for Proper Use of Superplasticizers and the Effect of Retempering Practices on Performance and Durability of Concrete. Texas State Department of Highways and Public Transportation In Cooperation with the U.S. Department of Transportation Federal Highway Administration, USA, October 1989.Search in Google Scholar

5. Lazniewska-Piekarczyk B: ”The effect of superplasticizers and anti-foaming agents on the air entrainment and properties of the mix of self-compacting concrete”. Article in Cement, Wapno, Beton. May 2009 [Online] https://www.researchgate.net/publication/287164082 [Accessed on 29.1.2019]Search in Google Scholar

6. Łaźniewska-Piekarczyk B, Szwabowski J & Miera P: ”Superplasticizer compatibility problem with innovative air-entraining multicomponent Portland cement”. Proceedings, 14th International Congress on the Chemistry of Cement (ICCC 2015), Beijing, China, Oct. 13-16, 2015. [Online] https://www.researchgate.net/publication/290392716 [Accessed on 3.10.2018]Search in Google Scholar

7. Kubens S: “Interaction of cement and admixtures and its influence on rheological properties”. Cuvillier Verlag, Inhaberin Annette Jentzsch-Cuvillier, Nonnenstieg 8, 37075 Göttingen, Germany, 2010. [Online] https://cuvillier.de/de/shop/publications/752 [Accessed on 29.1.2019]Search in Google Scholar

8. Rath S & Ouchi M:. “Effective Mixing Method for Stability of Air Content in Fresh Mortar of Self-Compacting Concrete in Terms of Air Diameter”. Internet Journal for Society for Social Management Systems, Issue 10, Vol. 1. 2015, sms15-6550.Search in Google Scholar

9. Eickschen E & Müller C: ”Interactions of air-entraining agents and plasticizers in concrete”. Concrete Technology Reports 2010 – 2012. VDZ gGmbH (Hrsg.). Düsseldorf, Germany, 2012. [Online] https://www.vdz-online.de/en/publications/concrete-technology-reports/ [Accessed on 29.1.2019]Search in Google Scholar

10. Al-Neshawy F & Punkki J: “Securing the stable protective pore system of concrete - Report for ‘Robust Air’”. Research Project, Aalto University publication series Science + Technology, No. 10, 2017, Aalto University, Helsinki, Finland. Online at: https://aaltodoc.aalto.fi/handle/123456789/28893Search in Google Scholar

11. Finnish Transport Agency: “P-rate method for frost-resistant concrete in Finnish bridges”. (In Finnish). Report 22/2016, Helsinki, Finland, 2016. [Online] https://julkaisut.liikennevirasto.fi/pdf8/lo_2016-22_siltabetonien_plukumenettely_web.pdf [Accessed on 4.10.2018]Search in Google Scholar

12. SFS-EN 12350-7:2009 “Testing fresh concrete. Part 7: Air content. Pressure methods”. Finnish Association of Construction Product Industries, SFS, Helsinki, Finland, 2009.Search in Google Scholar

13. ASTM C138 / C138M-17a “Standard Test Method for Density (Unit Weight), Yield, and Air Content (Gravimetric) of Concrete”. ASTM International, West Conshohocken, PA, USA, 2017, www.astm.orgSearch in Google Scholar

14. SFS-EN 12350-2:2009 “Testing fresh concrete. Part 2: Slump-test”. Finnish Association of Construction Product Industries, SFS, Helsinki, Finland, 2009.Search in Google Scholar

15. SFS-EN 12350-5:2009 “Testing fresh concrete. Part 5: Flow table test”. Finnish Association of Construction Product Industries, SFS, Helsinki, Finland, 2009.Search in Google Scholar

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