[1. Lahdensivu J: “Durability properties and actual deterioration of Finnish concrete facades and balconies”. Tampere, Tampere University of Technology, Publication 1028, 2012, 117 p + app. 37 p.]Search in Google Scholar
[2. Page C. L: “Basic Principles of Corrosion”. In: Schiessl P (editor): Corrosion of Steel in Concrete, London, Chapman and Hall, 1988, pp. 3–21.]Search in Google Scholar
[3. Schiessl P: “Corrosion of Steel in Concrete”. London, Chapman and Hall, 1988, 101 p.]Search in Google Scholar
[4. Liu Y & Weyers R E: “Modelling the Time-to-Corrosion Cracking in Chloride Contaminated Reinforced Concrete Structures”. ACI Materials Journal, Vol. 95, No. 6, 1998, pp. 675 – 681.10.14359/410]Search in Google Scholar
[5. Tuutti K: “Corrosion of steel in concrete”. Stockholm, Swedish Cement and Concrete Research Institute, CBI Research 4:82, 1982, 304 p.]Search in Google Scholar
[6. Li C Q: “Reliability service life prediction of corrosion affected concrete structures”. ASCE Journal of Structural Engineering, Vol. 130(10), 2004, pp. 1570–1577.10.1061/(ASCE)0733-9445(2004)130:10(1570)]Search in Google Scholar
[7. Concrete Association of Finland: “Concrete codes”. Helsinki, The Concrete Association of Finland, BY 65, 2016, 164 p. (in Finnish)]Search in Google Scholar
[8. Concrete Association of Finland: “Selection of concrete and service life design – guideline for construction designers”. Helsinki, The Concrete Association of Finland, BY 68, 2016, 95 p. (in Finnish)]Search in Google Scholar
[9. Pentti, M., Huopainen, J., Lahdensivu J., Mäkelä, K. “Condition investigation of concrete facades and balconies in Jakomäki”. Tampere University of Technology, Research report 274, 1994, 93 p. (in Finnish)]Search in Google Scholar
[10. Parrott L J: “A review of carbonation in reinforced concrete”. Cement and Concrete Association, Slough, UK, 1987, 42 p.]Search in Google Scholar
[11. Huopainen J: “Carbonation of concrete facades – a field study”. Tampere University of Technology, MSc thesis, 1997. (in Finnish)]Search in Google Scholar
[12. Neves R, Branco F A & de Brito J: “A method for the use of accelerated carbonation tests in durability design”. Construction and Building Materials, Vol. 36, 2012, pp. 585-591.10.1016/j.conbuildmat.2012.06.028]Search in Google Scholar
[13. fib Bulletin No. 34. “Model Code for Service Life Design”. International Federation for Structural Concrete, Lausanne, 2006, 116 p.]Search in Google Scholar
[14. Concrete Association of Finland: “Condition assessment manual of concrete facades and balconies”. Helsinki, The Concrete Association of Finland, BY 42, 2013, 163 p. (in Finnish)]Search in Google Scholar
[15. 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, Vol. 4:3, 2013, pp. 199-209.10.1080/2093761X.2013.817359]Search in Google Scholar
[16. Concrete Association of Finland: “Durability of concrete structures”. Helsinki, The Concrete Association of Finland, BY 9, 1976, 44 p. (in Finnish)]Search in Google Scholar