Details Details PDF BIBTEX RIS Title Effect of lithium nitrate on the reaction between opal aggregate and sodium and potassium hydroxides in concrete over a long period of time Journal title Bulletin of the Polish Academy of Sciences Technical Sciences Yearbook 2017 Volume 65 Issue No 6 (Special Section on Civil Engineering – Ongoing Technical Research. Part II) Authors Zapała-Sławeta, J. ; Owsiak, Z. Divisions of PAS Nauki Techniczne Coverage 773-778 Date 2017 Identifier DOI: 10.1515/bpasts-2017-0085 Source Bulletin of the Polish Academy of Sciences: Technical Sciences; 2017; 65; No 6 (Special Section on Civil Engineering – Ongoing Technical Research. Part II); 773-778 References Mo (2007), Investigation of structural properties associated with alkali silica reaction by means of macro - and micro - structural analysis, Mater Charact, 14, 179. ; Leemann (2011), Alkali - silica reaction : the influence of calcium on silica dissolution and the formation of reaction products, Am Ceram Soc, 1243. ; Collins (2004), Examination of the effects of LiOH on alkali silica reaction, Res, 1403. ; Fammy (2001), Influence of the storage conditions on the dimensional changes of heat - cured mortars, Res, 31, 795. ; Oberholster (1992), Cracked Prestressed Concrete Railway Sleepers : Alkali - Silica Reaction or Delayed Ettringite Formation th, Proc, 20, 739. ; Leemann (2014), Mitigation of ASR by the use of Characterization of the reaction products, Res, 16, 59. ; Owsiak (2007), The importance of ettringite accompanying the alkali - aggregate reaction in several - year - old mortars Cement Lime, Concrete, 27, 40. ; Owsiak (null), Interfacial transition zone of cement paste - reactive aggregate in cement - zeolite mortars Pol, Tech, 1. ; Owsiak (2004), Alkali - aggregate reaction in concrete containing high - alkali cement and granite aggregate, Res, 25, 7. ; Tremblay (2008), Use of the accelerated mortar bar test to evaluate the effectiveness of LiNO against alkali - silica reaction Part Comparison with results from the concrete prism test, Int, 13, 5. ; Owsiak (null), Effect of chalcedony dust on ASR in mortars of reactive aggregate, Eng, 108. ; Feng (2005), Studies on lithium salts to mitigate ASR - induced expansion in new concrete : a critical, review Res, 8, 1789. ; Shayan (1994), Alkali - aggregate reaction in concrete railway sleepers from th Texas, Proc, 19, 69. ; Drożdż (2014), reakcji alkalicznej ASR w betonie z cementów zawierających popiół lotny wapienny, null, 216. ; Shayan (1992), Microscopic features of cracked and uncracked concrete railway sleepers, Mater J, 21, 89. ; Santos Silva (2008), Research on the suppression expansion due to Effect of coatings and lithium nitrate th Trondheim Norway, Proc, 29, 1250. ; Zapała (null), The influence of lithium compounds on alkali - aggregate reaction in concrete PhD thesis Kielce University of Technology, null, 2015. ; Afshinnia (null), The potential of ground clay brick to mitigate Alkali Silica Reaction in mortar prepared with highly reactive aggregate, Build Mater, 95. ; Sahu (2004), Delayed ettringite formation in Swedish concrete railroad ties, Res, 22, 1675. ; Brown (1993), The stability of ettringite, Adv Cem Res, 26, 5. ; Owsiak (null), Internal of of Technology, Corrosion Concrete University, 2015. ; Kurdowski (2011), destruction caused by delayed ettringite formation XXV Conference of Structural Failures, Concrete, 37. ; Ekolu (2007), Dual effectiveness of lithium salt in controlling both delayed ettringite formation and ASR in concretes, Res, 28, 37. ; Durand (2000), More results about the use of lithium salts and mineral admixtures to inhibit ASR in concrete th Quebec, Proc, 11, 623. ; Owsiak (null), Diagnosis of concrete structures distress due to alkali - aggregate reaction Pol, Tech, 1. ; Owsiak (null), The lithium nitrate effect on the concrete expansion caused by alkali - silica reaction in concrete of gravel aggregate Cement Lime, Concrete, 15, 25. ; Zapała (2016), The role of lithium compounds in mitigating alkali - gravel aggregate reaction, Build Mater, 115. ; Bouzabata (2012), Swellings due to alkali - silica reaction and delayed ettringite formation : Characterisation of expansion isotropy and effect of moisture conditions, null, 17, 349. ; Diamond (1994), Combined effects of alkali silica reaction and secondary ettringite deposition in steam cured mortars, Trans, 24, 40. ; Owsiak (2010), The effect of delayed ettriringite formation and alkali - silica reaction on concrete microstructure, null, 18, 277. ; Maa (2017), real case of steam - cured concrete track slab premature deterioration due to ASR Case Stud, Mater, 23, 63. ; McCoy (1951), New approach in inhibiting alkali - aggregate expansion, Mater J, 11, 693. ; Grattan (2005), Discussion of paper Alkali - aggregate reaction in concrete containing high - alkali cement and granite aggregate by, Res, 34, 1868. ; Feng (2008), Effects and mechanism of lithium nitrate on controlling alkali - silica reaction University of New, null, 12.