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Występowanie THaumasytu w konstrukcjach betonowych

Autorzy
Mróz R. , Małolepszy J.
Identyfikatory
Warianty tytułu
EN
Occurrence of thaumasite in concrete constructions
Języki publikacji
PL
Abstrakty
Słowa kluczowe
PL
EN
Wydawca
Oficyna Wydawnicza Politechniki Opolskiej
Czasopismo
Zeszyty Naukowe. Budownictwo / Politechnika Opolska
Rocznik
2005
Tom
z. 48
Strony
109--122
Opis fizyczny
Bibliogr. 63 poz., rys.
Twórcy
autor
Mróz R.
  • Katedra Technologii Materiałów Budowlanych Wydział Inżynierii Materiałowej i Ceramiki AGH Kraków
autor
Małolepszy J.
Bibliografia
  • [1] BENSTED J., VARMA S. P.: Studies of Thaumasite. Sil. Ind. 38, t. 2, s. 29-32 1973.
  • [2] BENSTED J., VARMA S. P.: Studies of thaumasite, part II. Sil. Ind. 39,s. 11-19, 1974.
  • [3] BERRA M., BARONIO G.: Thaumasite in Dcleriorated Concretes in Presence of Sulfatcs. Concrete Durability SP 100 - 106, s. 2073-2089, 1984.
  • [4] BROWN P. W.: Thaumasite formation and other fornis of sulfate attack. CCC 24, s. 301-303, 2002.
  • [5] CRAMMOND N. J., HALLIWF.LL M. A.: Assessment of the conditions reąuired for the Thaumasite fonu ofsulphate attack. Symposium on Mechanism of Chemical Degradation of Cement-based Systems, Boston, 27-30 listopad 1995.
  • [6] HARTSHORN S., SIMS I.: Thaumasite - a brief guide for engineers. Concrete nr 10, s. 24 -27, 1998.
  • [7] Thaumasite Expert Group: The thaumasite from of sulfate attack: Risks, diagnosis, rcmedial works and guidance on new eonstruction. Raport of the Thaumasite Expert Group. DETR, Londyn, 1999.
  • [8] VAN AARDT J. H. P., VISSER S.: Thaumasite formation: A cause of deterioration of portland cement and related substances in the presence of sulphates. CCR 5, s. 225-232, 1975.
  • [9] BENSTED .J.: Thaumasite sulphate attack - its scientific background and ramifications in constructions. Kurdowski Symposium - Science of Cement and Concrete, s. 189-198, 20-21 czerwiec, Kraków 2001.
  • [10] EDGE R. A., TAYLOR H. F. W.: Crystal Structure of Thaumasite [Ca3Si(OH)6- 12H20](S04)(C0.,). Acta Cryst. B27, 1971.
  • [11] TAYLOR M. F. W., NEWBURY D. E.: Calcium hydroxide distribution and calcium silicate hydrate composition in tricalcium silicate and [3- dicalcium silicate pastes. OCR, Vol. 15, s. 93-98, 1984.
  • [12] COLLETT G., CRAMMOND N. J„ SWAMY R. N„ SHARP J. II.: The role of carbon dioxide in the formation of thaumasite. Conference to celebrate the Contribution of Hal Taylor to cement and concretc science, Les Diablerls Switzerland, 20-23 Junc 2004.
  • [13] JALLAD K. N„ SANTHANAM M„ COHEN M. D.: Stability and reactivity of thaumasite at different pH levels. CCR 33, s. 433-437, 2003.
  • [14] IRASSAR E. E., BONAVETTI V. L„ GONZALEZ M.: Microstructural study of sulfate attack on ordinary and limestone Portland ccments at ambient temperaturę. CCR 33, s. 31-41, 2003.
  • [15] BROWN P., HOOTON R. D.: Ettringite and thaumasite formation in laboratory concretes prcparcd using sulphate-resisting cements. CCC 24, s. 361-370, 2002.
  • [16] GAZE, M. E.: The effects of varying gypsum contcnt on thaumasite formation in a cement:lime:sand mortar at 5°C. CCR 27, s. 259-265, 1997.
  • [17] VAN AARDT J. H. P.: The influence of temperaturę on sulfate attack on Portland cement mortars. 5lh 1CCR 3, s. 250, Tokyo 1968.
  • [18] SANTHANAM M., COHEN M. D„ OLEK L: Mechanism of sulfate attack: A fresh look. Part 1: Summary of experimental results. CCR 32, s. 915-921,2002.
  • [19] KURDOWSKI W., „Chemia cementu”, Wydawnictwo Naukowe PWN, Warszawa 1991
  • [20] AL-DULAIJAN S. U., MASLEHUDDIN M., AL.-ZAHRANI M. M., SHARIP' A. M., SHAMF.EM M., IBRAHIM M., “Sulfate resistance of plain and blendcd cements exposed to varying concentrations of sodium sulfate”, CCC 25, s. 429-437, 2003
  • [21] BAGHABRA AL.-AMOUDI O. S., „Attack on plain and blendcd cements cxposed to aggressive sulfate cnvironmenls”, CCC 24, s. 305-316, 2002
  • [22] MRÓZ R. „Warunki powstawania taumazytu i jego wpływ na właściwości betonu”, XXX Szkoła Inżynierii Materiałowej AGH, s. 487-495, Kraków- Ustroń Jaszowiec 2002
  • [23] SCHNEIDER M„ PUNTKE S„ SYLLA M. M„ LIPUS K„ „ The influence of cement on the sulfate resistance of mortar and concrete”, Cement International 1, s. 131-148, 2002
  • [24] ZELIC J., KRSTULOVIC R„ TKALCEC E„ KROLO P„ „Durability of the hydrated limestone-silica fume Portland cements mortars under sulphate attack”, CCR 29, s. 819-826, 1999
  • [25] VAN AARDT J. H. P., „The influence of temperaturo on sulfate attack on Portland cement mortars”, 5"' ICCR 3, s. 250, Tokyo 1968
  • [26] VAN AARDT J. II. P., VISSER S., „Thaumasite formation: A cause of deterioration of porlland cement and related substances in the presence of sulphates”, CCR 5, s.225-232, 1975
  • [27] MAŁOLEPSZY J., MRÓZ R., „The condition of thaumasite formation and its role in concrete”, Proceedings of 111,1 International Congress on the Chcmislry of Cement, Durban, s. 1487-1496, South Alrica 2003,
  • [28] MAŁOLEPSZY L, MRÓZ R„ „Wpływ zawartości C,A i CaC03 w cemencie na powstawanie taumazytu” XLIX KONFERENCJA NAUKOWA Komitetu Inżynierii Lądowej i Wodnej PAN i Komitetu Nauki PZITB Warszawa-Krynica, t. III, s. 187-196, 14-19 września, Krynica 2003
  • [29] MAŁOLEPSZY J., MRÓZ R.: „Wpływ składu mineralnego cementu na powstawanie taumazytu”, Materiały konferencyjne Konferencji „Dni Betonu”, s. 245-257, Szczyrk 2002
  • [30] BROWN P„ HOOTON R. D„ „Ettringite and thaumasite formation in laboratory concretes prepared using sulphate-resisting cements”, CCC 24, s. 361-370, 2002
  • [31] BARNETT S. i inni, „Study of thaumasite and ettringite phases formed in sulfatc/blasl fumace slag slurries using XRD fuli pattern fitting”, CCC 24, s. 339-346, 2002
  • [32] SCHNEIDER M„ PUNTKE S„ SYLLA M. M„ LIPUS K„ „ The influence of cement on the sulfate resistance of mortar and concrete”, Cement International 1, s. 131-148, 2002
  • [33] HOBBS D. W., TAYLOR M. G„ „Naturę of the thaumasite sulfate attack mechanism in field concrete”, CCR 30, s. 529 - 533, 2000
  • [34] CRAMMOND N„ HALLIWELL M. A„ „The thaumasite form of sulfate attack in concretes conlaining a source of carbonate ions - a microstructural overview”, 2nd CANMET/ACI International Symposium for Advances in Concrete Technology, s. 357-380, Las Vegas, Newada, 12 czerwca 1995
  • [35] GAWLICKI M„ ROSZCZYNIALSKI W„ „Ocena możliwości wykorzystania w przemyśle cementowym ubocznych produktów spalania powstających w kotłach fluidalnych”, IV Konferencja Naukowo- Techniczna, Zagadnienia Materiałowe w Inżynierii Lądowej MATBUD’2003 Politechnika Krakowska, 25 - 27 czerwca Kraków 2003
  • [36] GONZALEZ M. A„ IRASSAR E. F„ „Effect of limestone filier on the sulphate resistance of Iow CjA Portland cement”, CCR 28, s. 1655-1667, 1998
  • [37] HARTSHORN S. A., SHARP J. H., SWAMY R. N„ „Thaumasite formation in Portland-limcstone cement pastes”, CCR 29, s. 1331-1340, 1999
  • [38] HARTSHORN S. A., SHARP J. H., SWAMY R. N., „The Thaumasite form of sulphate attack in Portland-limestonc cement mortars stored in magnesium sulphate solution”, CCC 24, s.351-359, 2002
  • [39] Thaumasite Expert Group „Thaumasite form of sulfate attack”, Concrete Nr 2, s. 37-40, 1999
  • [40] ERLIN B., STARK D. C. Identification and occurrcncc of thaumasite in concrete. Highway ResRecord 1965;113:108-13.
  • [41] GOUDA G. R., ROY D. M., SARKAR A. Thaumasite in detcriorated soil cements. CCR 1975;5:519-33.
  • [42] LACHAUD R. Thaumasite and ettringite in building materials. Ann ITBTP 1979;370:3.
  • [43] FLEURENCE A. Note sur la minerał thaumasite, Sa formation dans certain produits industriels. Buli Soc Fr Ceram 1972;94( 1 ):67—79.
  • [44] KOLLMAN H., STRUEBEL G„ TROST F. Reaktionsmechansismen zur Bildung von treibkemen in kalk-Gips-Putzen durch ettringite and thaumasite. Zem KalkGips 1977;30:224-8.
  • [45] BENSTED J. Some problems with ettringite and thaumasite in the gypsum plaster/cement contact area. In: Murat M., Foucault M., editors. Proceedings of the International RILEM Symposium on Calcium Sulfates and Dcrived Materials, France, 1977. p. 479-87.
  • [46] CRAMMOND N. J„ DUNSTER A. D. Avoiding the dcterioration of cement-bascd building materials; Lessons from case studies l.BRE Lab. Report BR 324. UK: Construction Research Communications Ltd (CRC); 1997.
  • [47] CRAMMOND N. J., NIXON P. J. Dcterioration of concrete foundation piles as a result of thaumasite fonnation. In: 6th International Conference on Durability of Building Materials, Japan, 1993. p. 295-305.
  • [48] BICKLEY J. A., HEMMINGS R. T„ HOOTON R. D„ BALINSKY J. Thaumasite related deterioration of concrete structures. In: Proceedings of the Concrete Teclmology: Past, Present and Futurę ACI SP, 144-8. 1995. p. 159-75.
  • [49] CRAMMOND N. J„ HALLIWELL M. A. The thaumasite form of sulfate attack in concretes containing a source of carbonate ions. In: 2nd Symposium Advances in Concrete Technology, ACI, PI54-19. 1995. p. 357-80.
  • [50] SIBBICK R.G., CRAMMOND N. J. Two case studies into the development of the thaumasite form of sulfate attackin hardened concretes. In: Proceedings of the 7th Euroseminar on Microscopy Applied to Building Materials, Delft, July, 1999
  • [52] HOBBS D. W., TAYLOR M. G. Naturc of the thaumasite form of sulfatc attack(TSA) mechanism in field concrete. CCR 2000;32:529 33.
  • [53] GAZL M. E., CRAMMOND N. J. The formation of thaumasite in a cement:lime:sand mortar exposed to cold magnesium and potassium sulfate Solutions. CCC 2000;20:209-22.
  • [54] BROWN F.W., DOERR A. Chemical changes in concrete duc to the ingress of aggressive spccies. CCR 2000;30:411-8.
  • [55] DIAMOND S., LEE R. J. Microstructural alterations associated with sulfate attackin permeable concretcs. In: Marchand J, Skalny JP, edilors. Special volume of Materials Science of Concrete: Sulfate AttackMcchanisms, 1999. p. 123-74.
  • [56] LUCAS W. Dcstruction of concrete by sulfate atlackwith formation of thaumasite and woodfordite. CCR 1975;5:503-18
  • [57] DELOYE F-X., LOUARN N., LOOS G. Examplcs of masonry analysis. The casc of the Puberg Tunnel. Buli de Liaison Lab des Ponts et Chaussees 1988;( 163): 17—24.
  • [58] SCHWANDER H. W., STERN W. B. Experimental production of transformation products on hardened cement pastę surfaces. Zem Kalk Gips 1988;1:81-4 [English translation].
  • [59] BARONIO G., BERRA M. Concrete deterioration with the formation of thaumasite - analysis of the causes. II Cemento 1984;3:169-84.
  • [60] BRACEGIRDLE A, JEFFERIS S. A., TEDD P., CRAMMOND N. J„ CHUDLEIGH I., BURGESS N. The investigation of acid generation within IheWoolwich and Reading Beds at Old Street and its effect on tunnel linings. In: Procecdings of the International Sympośium on Soft Ground Tunnelling, City University, London, 1996.
  • [61] CRAMMOND N. J., DUNSTER A. M., HOLLINSHEAD K. Avoiding deterioration of cement-based building matcrials, Lessons from case studies 2. BRE Lab. Report BR 357. UK: Construction Research Communications Ltd (CRC); 1999.
  • [62] CRAMMOND N., The occurrence of thaumasite in modern construction - a rcview, CCC 24, 2002, s. 393-402
  • [63]ROGERS C., THOMAS M., LOHSE H. Thaumasite from Manitoba and Ontario, Canada. In: 19th International Conferenee on Cement Microscopy, Cincinatti, USA; 1997
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOC-0061-0008
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