1. bookVolumen 36 (2014): Edición 1 (March 2014)
Detalles de la revista
License
Formato
Revista
eISSN
2083-831X
ISSN
0137-6365
Primera edición
09 Nov 2012
Calendario de la edición
4 veces al año
Idiomas
Inglés
Acceso abierto

Rock Pore Structure as Main Reason of Rock Deterioration

Publicado en línea: 13 Jun 2014
Volumen & Edición: Volumen 36 (2014) - Edición 1 (March 2014)
Páginas: 79 - 88
Detalles de la revista
License
Formato
Revista
eISSN
2083-831X
ISSN
0137-6365
Primera edición
09 Nov 2012
Calendario de la edición
4 veces al año
Idiomas
Inglés

[1] ACADORCJAN Z.A., Prirodnyje kamennyje materialy Armenii, Izdateľstvo literatury po stroiteľstvu, Moscow, 1967, 240.Search in Google Scholar

[2] ADAMSON A.W., Physical chemistry of surfaces, A Wiley- Interscience Publication, New York, 1982, 777.Search in Google Scholar

[3] BATES R.L., JACKSON J.A., Dictionary of geological terms, Third Edition, The American Geological Institute, New York, 1984, 571.Search in Google Scholar

[4] BENAVENTURE D., GARCIA DEL CURA M.A., ORDONEZ S., Thermodynamic modelling of changes induced by salt pressure crystallisation in porous media of stone, Journal of Crystal Growth, 1999, 204, 168-178.10.1016/S0022-0248(99)00163-3Search in Google Scholar

[5] BENAVENTURE D., GARCIA DEL CURA M.A., BERNADEU S., ORDONEZ S., Quantification of salt weathering in porous stones using an experimental continuous partial immersion method, Engineering Geology, 2001, 59, 313-325.10.1016/S0013-7952(01)00020-5Search in Google Scholar

[6] BENAVENTURE D., GARCIA DEL CURA M.A., GARCIA- -GUINEAD J., SANCHEZ-MORAL S., ORDONEZ S., Role of pore structure in salt crystallisation in unsaturated porous stone, Journal of Crystal Growth, 2004, 260, 532-544.10.1016/j.jcrysgro.2003.09.004Search in Google Scholar

[7] ČABALOVÁ D., Štúdium nasiakavosti vulkanických hornín Slovenska z hľadiska možnosti ich využitia pre ušľachtilú a hrubú kamenársku výrobu, Geologický Průzkum, 1988, Vol. 30, No. 2, 40-44.10.1079/WPS19880003Search in Google Scholar

[8] ČABALOVÁ D., Výsledky štúdia pórovej štruktúry vulkanických hornín Slovenska, Acta Polytechnica, Práce ČVÚT, Prague, 1989, 41-47.Search in Google Scholar

[9] DEJIAN L., GUILIAN W., LIQIANG H., PEIYU L., MANCHAO H., GUOXING Y., QIMIN T., CHENG C., Analysis of microscopic pore structures of rocks before and after water absorption, Mining Science and Technology, (China), 2011, 21, 287-293.10.1016/j.mstc.2011.02.002Search in Google Scholar

[10] DUNN J.R., HUDEC P.P., Frost and sorption effects in argillaceous rocks. Frost action in soils, Highway research record, No. 393, National Research Council, Washington, D.C., 1972, 65-78.Search in Google Scholar

[11] FAGERLUND G., Determination of specific surface by the BET method, Materials and Constructions, 1973, Vol. 6, 239-144.10.1007/BF02479039Search in Google Scholar

[12] FETTER C.W., Applied Hydrogeology, Second Edition, Macmillan Collage Publishing Company, 1994, 77-128.Search in Google Scholar

[13] FISCHER C., GAUPP R., Multi-scale rock surface area quantification - a systematic method to evaluate the reactive surface area of rocks, Chemie der Erde, 2004, 64, 241-256.10.1016/j.chemer.2003.12.002Search in Google Scholar

[14] HILTMANN W., STRIBRNY B., Tonmineralogie und Bodenphysik, Handbuch zur Erkundung des Untergrundes von Deponien und Altlasten, Springer, Berlin, 1998, Vol. 5, 297.10.1007/978-3-642-58852-5Search in Google Scholar

[15] HUDEC P.P., Durability of carbonate rocks as function of their thermal expansion, water sorption, and mineralogy, ASTM Tech. Pub., 1980, 691, 497-508.10.1520/STP36084SSearch in Google Scholar

[16] HUDEC P.P., Deterioration of aggregates. The underlying causes, Katharine and Bryant Mather International Conference on Concrete Durability, American Concrete Institution, Detroit, Michigan, 1987, 1325-1342Search in Google Scholar

[17] HUDEC P.P., Freezing or osmosis as deterioration mechanism of concrete and aggregate? Low temperature effects on concrete proceedings, Second Canadian/Japan Workshop, Ottawa, Ontario, 1991, 1-7.Search in Google Scholar

[18] HUDEC P.P., Aggregate and concrete durability as controlled by water and cation adsorption and osmosis. Proceeding of Del seminario international sobre technologia del concreto, Concrete Durability, Monterrey, Mexico 1993, 32-52.Search in Google Scholar

[19] HUDEC P.P., Vlastnosti hornín a fyzikálne procesy pri urýchlenom zvetrávaní, Zborník z 2. seminára Výroba Kameniva *98 so zahraničnou účasťou, Stará Lesná, 1998, 35-42.Search in Google Scholar

[20] HUDEC P.P., SITAR N., Effect of sorption on carbonate rock expansion, Canadian Geotechnical Journal, 1975, Vol. 12, No. 2, 179-186.10.1139/t75-022Search in Google Scholar

[21] KANEUJI M., WINSLOW D.N., DOLCH W.L., The relationship between an aggregate pore size distribution and its freezethaw durability in concrete, Cement and concrete Research, 1980, 10 (3), 433-441.10.1016/0008-8846(80)90119-2Search in Google Scholar

[22] KATE J.M., GOKHALE C.S., A simple method to estimate complete pore size distribution of rocks, Engineering Geology, 2006, 84, 48-69.10.1016/j.enggeo.2005.11.009Search in Google Scholar

[23] LACH V., DAŇKOVÁ M., Mikrostruktura stavebních látek, ES VUT, Brno, 1987, 170.Search in Google Scholar

[24] MANTELL C.L., Adsorption, McGraw-Hill Book Company, Inc., New York, 1951, 634.Search in Google Scholar

[25] NORTH F.K., Petroleum Geology, Allen & Unwin, Boston, USA, 1985, 115-126.Search in Google Scholar

[26] ONDRÁŠIK M., Vplyv štruktúry pórov a vlastností v nich uzavretej vody na rozpad hornín, PhD Thesis, Department of Engineering Geology, PriF UK, Bratislava, 2004.Search in Google Scholar

[27] ONDRÁŠIK M., Vplyv štruktúry pórov a vlastností v nich uzavretej vody na rozpad hornín, Geologické Práce, Bratislava 2006, No. 112, ŠGÚDŠ, 79-95.Search in Google Scholar

[28] POWERS T.C., The air requirements of frost-resistant concrete, Proceedings of the Highway Research Board, 1949, 29, 184-211.Search in Google Scholar

[29] POWERS T.C., Freezing effect in concrete. Durability of concrete, ACI SP47, American Concrete Institute, Detroit, Michigan, 1975, 1-11.Search in Google Scholar

[30] RIGBEY S.J., The effect of sorbed water on expansivity and durability of rock, Master thesis, University of Windsor, 1980, 169.Search in Google Scholar

[31] ROUQUEROL J., AVNIR D., FAIRBRIDGE C.W., EVERETT D.H., HAYNES J.H., PERNICONE N., RAMSAY J.D.F., SING K.S.W., UNGER K.K., Recommendations for the characterization of porous solids, Pure and Applied Chemistry, 1994, 66, 1739-1758.10.1351/pac199466081739Search in Google Scholar

[32] RUTHVEN D.M., Principles of adsorption and adsorption processes, A Wiley-Interscience Publication, New York, 1984, 464.Search in Google Scholar

[33] SIGURDSSON O., GUMUNDSSON A., FRILEIFSSON O., FRANZSON S., STEFANSSON V., Database on igneous rock properties in Icelandic geothermal systems, status and unexpected results, Proceedings of World Geothermal Congress 2000, Kyushu-Tohoku, Japan, 2000, 2881-2886.Search in Google Scholar

[34] STRUHÁROVÁ A., ROUSEKOVÁ I., Porous structure of cellular concrete and its impact on selected physical-mechanical properties of cellular concrete, Slovak Journal of Civil Engineering, STU Bratislava, 2007, Vol. 2, 35-43.Search in Google Scholar

[35] VERBECK G., LANDGREN R., Influence of physical characteristics of aggregates on frost resistance of concrete, Proceedings of the American Society for Testing and Materials, 1960, 1063-1079.Search in Google Scholar

[36] WARDEH G., PERRIN B., Freezing-thawing phenomena in fired clay materials and consequences on their durability, Construction and Building Materials, 2008, Vol. 22, 820-828. 10.1016/j.conbuildmat.2007.01.004Search in Google Scholar

Artículos recomendados de Trend MD

Planifique su conferencia remota con Sciendo