Freeze-thaw Damage Dependence on Wind-driven Rain of Outdoor Exposed Concrete – A Case Study

1. Lahdensivu J: “Durability Properties and Actual Deterioration of Finnish Concrete Facades and Balconies”. TUT Publ. 1028. (PhD Thesis), Tampere University of Technology. Tampere, Finland, 2012, 117 p.Search in Google Scholar

2. Pakkala T A, Köliö A, Lahdensivu J & Kiviste M: “Durability demands related to frost attack for Finnish concrete buildings in changing climate”, Building and Environment, Volume 82, December 2014, pp. 27-41.10.1016/j.buildenv.2014.07.028Search in Google Scholar

3. Pakkala T A, Köliö A, Lahdensivu J & Pentti M: “Predicted corrosion rate on outdoor exposed concrete structures”, International Journal of Building Pathology and Adaptation, accepted 6 February 2019.10.1108/IJBPA-11-2018-0086Search in Google Scholar

4. Köliö A, Pakkala T A, Hohti H, Laukkarinen A, Lahdensivu J, Mattila J & Pentti M: “The corrosion rate in reinforced concrete facades exposed to outdoor environment”, Materials and Structures, 50(1), 2016, pp. 1–16.10.1617/s11527-016-0920-7Search in Google Scholar

5. Lisø K R, Kvande T, Hygen H O, Thue J V, Harstveit K: “A frost decay exposure index for porous, mineral building materials”, Building and Environment, 42(10), 2007, Pp. 3547–3555.10.1016/j.buildenv.2006.10.022Search in Google Scholar

6. Finnish Concrete Association: “by 42 Condition investigation of concrete façade panels 2013”. (“by 42 Betonijulkisivun kuntotutkimus 2013”). Helsinki, Finland. (In Finnish).Search in Google Scholar

7. Lahdensivu J, Varjonen S, Pakkala T & Köliö A: “Systematic condition assessment of concrete facades and balconies exposed to outdoor climate”, International Journal of Sustainable Building Technology and Urban Development, 4:3(2013), pp. 199-209.Search in Google Scholar

8. Kuosa H & Vesikari E: “Ensuring of concrete frost resistance Part 1: Basic data and service life design”. (“Betonin pakkasenkestävyyden varmistaminen. Osa 1. Perusteet ja käyttöikämitoitus”). VTT Technical Research Centre of Finland, Research notes 2056, 2000, 141 p. (In Finnish).Search in Google Scholar

9. Powers T C: “The air requirement of frost-resistant concrete”. Chicago: Portland Cement Association, Research and Development laboratories, Development Department, Bulletin 33, 1949.Search in Google Scholar

10. Litvan G: “Phase transitions of adsorbates IV – Mechanism of frost action in hardened cement paste”. Journal of the American Ceramic Society 55 (1), 1972, pp. 38–42.10.1111/j.1151-2916.1972.tb13393.xSearch in Google Scholar

11. Pigeon M & Pleau R: “Durability of concrete in cold climates”. London. E & FN Spon, 1995, 244 p.Search in Google Scholar

12. ASTM International: “ASTM C856-18a (2018) – Standard Practice for Petrographic Examination of Hardened Concrete”. West Conshohocken, PA. 15 p.Search in Google Scholar

13. Koskiahde A: “An experimental petrographic classification scheme for the condition assessment of concrete in facade panels and balconies”. Materials Characterization, Vol. 53, 2014, pp. 327–334.10.1016/j.matchar.2004.09.004Search in Google Scholar

14. Shang H-S, Cao W-Q & Wang B: “Effect of Fast Freeze-thaw Cycles on Mechanical Properties of Ordinary-Air-Entrained Concrete”. The Scientific World Journal, 2014, 7 p.10.1155/2014/923032403356024895671Search in Google Scholar

15. Lahdensivu J, Varjonen S & Köliö A: “Repair Strategies of Concrete Facades and Balconies”. (“Betonijulkisivujen ja -parvekkeiden korjausstrategiat”). Tampere University of Technology, Department of Civil Engineering. Research report 148, 2010. (In Finnish).Search in Google Scholar

16. Pakkala T A, Lemberg A-M, Lahdensivu J & Pentti M: “Climate change effect on wind-driven rain on facades”. Nordic Concrete Research, Publication No. 54, 2016, pp. 31–49.Search in Google Scholar

17. Finnish Standards Association SFS: “SFS-EN ISO 15927-3. 2009. Hygrothermal performance of buildings. Calculation and presentation of climatic data. Part 3: Calculation of a driving rain index for vertical surfaces from hourly wind and rain data”. Helsinki, Finland, 2009.Search in Google Scholar

18. Blocken B. & Carmeliet J: “Overview of three state-of-the-art wind-driven rain assessment models and comparison based on model theory”. Building and Environment, Volume 45 (2010), pp. 691–703.10.1016/j.buildenv.2009.08.007Search in Google Scholar