References
- Asadi I, Skjølsvold O., Kanstad T., Jacobsen S. Frost-salt testing non-air entrained high-performance fly-ash concrete. Part I: Relations liquid uptake - internal cracking – scaling, submitted to NCR.
- Skripkiūnas G, Nagrockienė D, Girskas G, Vaičienė M & Baranauskaitė : “ The cement type effect on freeze–thaw and deicing salt resistance of concrete”. Procedia engineering, 57, 2013, pp.1045-1051.
- Zhao J, Cai G, Gao D & Zhao S : “Influences of freeze–thaw cycle and curing time on chloride ion penetration resistance of Sulphoaluminate cement concrete”. Construction and Building Materials, 2014. 53: pp. 305-311
- EN 206. BSI Standards Publication Concrete : “Specification, performance, production and conformity”. Br Stand 2013:30.
- ASTM International. (2016). Standard Test Method for Microscopical Determination of Parameters of the Air-Void System in Hardened Concrete: C 457/C 457M-12. ASTM.6.
- Valenza II, John J & George W. Scherer : “A review of salt scaling: I. Phenomenology.” Cement and Concrete Research 37.7 (2007): pp.1007-1021
- Valenza II, John J & George W. Scherer : “A review of salt scaling: II. Mechanisms.” Cement and Concrete Research 37.7 (2007):pp. 1022-1034.
- Sun Z & Scherer GW : “Effect of air voids on salt scaling and internal freezing”. Cement and Concrete Research, 2010. 40(2): pp. 260-270.
- Faheem A : “Influence of thermal boundary conditions and temperature distribution in concrete on frost scaling–experimental and numerical study”., PhD, DTU (2021) 158 p.
- Çopuroğlu O & Schlangen E : “Modeling of frost salt scaling”. Cement and Concrete Research, 2008. 38(1): pp. 27-39.
- Tremblay MH, Lory F, Marchand J, Scherer GW & Valenza JJ : “Ability of the glue spall model to account for the de-icer salt scaling deterioration of concrete”. Paper W4-07.3 in proceedings of 12th ICCC. National Research Council of Canada, Montreal, Canada, 2007.
- Jacobsen S & Scherer GW : “Freezing induced stresses in concrete-steel composite beams and effect of air voids”. in I: Proceedings of the International RILEM Conference Materials, Systems and Structures in Civil Engineering 2016 Segment on Frost Action in Concrete. Rilem publications. 2016.
- Bahafid S, Hendriks M, Jacobsen S & Geiker M : “Revisiting concrete frost salt scaling: On the role of the frozen salt solution micro-structure”. Cement and Concrete Research, 2022. 157, 106803.
- Valenza JJ & Scherer GW : “Mechanism for salt scaling”. Journal of the American Ceramic Society, 2006. 89(4): pp. 1161-1179.
- Bager DH & Sellevold EJ : “Ice formation in hardened cement paste, part I—Room temperature cured pastes with variable moisture contents”. Cement and Concrete Research, 1986. 16(5): p. 709-720.
- Bager DH & Sellevold EJ : “Ice formation in hardened cement paste, Part II—drying and resaturation on room temperature cured pastes”. Cement and Concrete Research, 1986. 16(6): pp. 835-844.
- Jacobsen S, Asadi I, Skjøsvold O & Kanstad T : “Frost testing non-air entrained SCM HPC: salt-scaling and internal damage”. Rilem week, Vancouver, Canada, 2023, 8 p.
- Shpak A, Gong F & Jacobsen S: “Frost durability of high-volume fly ash concrete: Relation liquid transport-damage”. Cement and Concrete Research, 2023. 163, 107017.
- Lindmark S : “Mechanisms of salt frost scaling of Portland cement-bound materials: Studies and hypothesis”. 1998, Lund University, Report TVBM 1017, 266 p.
- Liu Z & Hansen W : “Freezing characteristics of air-entrained concrete in the presence of deicing salt”. Cement and Concrete Research, 2015. 74: pp. 10-18.
- Liu Z, Hansen W & Wang F : “Pumping effect to accelerate liquid uptake in concrete and its implications on salt frost durability”. Construction and building materials, 2018. 158: pp. 181-188.
- Sellevold E & Farstad T.: Nordic Concrete Research. Publ. No 10, 1991: p. 121-138.
- Verbeck GJ & Klieger P : “Studies of’salt’scaling of concrete”. Highway Research Board Bulletin, 1957(150).
- Jacobsen S, Marchand J, Boisvert L, Pigeon M & Sellevold EJ : “Frost deicer salt scaling testing of concrete: effect of drying and natural weathering”. Cement Concrete and Aggregates, 1997. 19: pp. 8-16.
- Utgenannt P : “The influence of ageing on the salt-frost resistance of concrete”. Lund University Report TVBM 1021. 2004, 346 p + 11 app.
- NB Publikasjon 37 Lavkarbonbetong (Norw Conc Ass Publ 37 Low carbon concrete ) 2020, 37 pages
- Technical Specification (CN/TS): “Testing hardened concrete – part 9: Freeze-thaw resistance with de-icing salts, Scaling”. CEN/TS 12390-9:2016.
- Shpak A : “Production and documentation of frost durable high-volume fly ash concrete: air entrainment, cracking and scaling in performance testing”. Ph.D Thesis 2020:366, Norwegian University of Science and Technology (NTNU) 2020,
- Maus S, Bahafid S, Hendriks M, Jacobsen S & Geiker MR: “X-ray micro-tomographic imaging and modelling of saline ice properties in concrete frost salt scaling experiments”. Cold Regions Science and Technology, 2023. 208, 103780.
- Kongshaug SS, Oseland O, Kanstad T, Hendriks MA, Rodum E & Markeset G: “Experimental investigation of ASR-affected concrete–The influence of uniaxial loading on the evolution of mechanical properties, expansion and damage indices”. Construction and Building Materials, 2020. 245, 118384.
- Brun MB, Shpak A & Jacobsen S: “Shape and size of particles scaled from concrete surfaces during salt frost testing and rapid freeze/thaw in water”. Nordic Concrete Research, 2021. 64(1): pp. 53-68.
- Gong F & Jacobsen S: “Modeling of water transport in highly saturated concrete with wet surface during freeze/thaw”. Cement and Concrete Research, 2019. 115: pp. 294-307.