The Effects Of Scms On The Mechanical Properties And Durability Of Fibre Cement Plates
Fibre cement plates, often used in construction, generally are made using quartz as an inert material, cement as a binder and cellulose as a fibre. This paper, first of all, investigates the mechanical properties and durability of fibre cement plates when quartz is both partly and fully replaced wit...
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2015
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Diatomite fibre strength supplementary cementing materials. |
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Diatomite fibre strength supplementary cementing materials. Ince, Ceren Erdem, Berkay Z. Derogar, Shahram Nabi Yuzer The Effects Of Scms On The Mechanical Properties And Durability Of Fibre Cement Plates |
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Diatomite fibre strength supplementary cementing materials. |
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Fibre cement plates, often used in construction, generally are made using quartz as an inert material, cement as a binder and cellulose as a fibre. This paper, first of all, investigates the mechanical properties and durability of fibre cement plates when quartz is both partly and fully replaced with diatomite. Diatomite does not only have lower density compared to quartz but also has high pozzolanic activity. The main objective of this paper is the investigation of the effects of supplementary cementing materials (SCMs) on the short and long term mechanical properties and durability characteristics of fibre cement plates prepared using diatomite. Supplementary cementing materials such as ground granulated blast furnace slug (GGBS) and fly ash (FA) are used in this study. Volume proportions of 10, 20, 30 and 40% of GGBS and FA are used as partial replacement materials to cement. Short and long term mechanical properties such as compressive and flexural strengths as well as sorptivity characteristics and mass were investigated. Consistency and setting time at each replacement levels of SCMs were also recorded. The effects of using supplementary cementing materials on the carbonation and sulphate resistance of fibre cement plates were then experimented. The results, first of all, show that the use of diatomite as a full or partial replacement to quartz resulted in a systematic decrease in total mass of the fibre cement plates. The reduction of mass was largely due to the lower density and finer particle size of diatomite compared to quartz. The use of diatomite did not only reduce the mass of these plates but also increased the compressive strength significantly as a result of its high pozzolanic activity. The replacement levels of both GGBS and FA resulted in a systematic decrease in short term compressive strength with increasing replacement levels. This was essentially expected as the total rate of hydration is much lower in GGBS and FA than that of cement. Long term results however, indicated that the compressive strength of fibre cement plates prepared using both GGBS and FA increases with time and hence the compressive strength of plates prepared using SCMs is either equivalent or more than the compressive strength of plates prepared using cement alone. Durability characteristics of fibre cement plates prepared using SCMs were enhanced significantly. Measurements of sopritivty characteristics were also indicated that the plates prepared using SCMs has much lower water absorption capacities compared to plates prepared cement alone. Much higher resistance to carbonation and sulphate attach were observed with plates prepared using SCMs. The results presented in this paper show that the use of SCMs does not only support the production of more sustainable construction materials but also enhances the mechanical properties and durability characteristics of fibre cement plates. : {"references": ["R. Shen, Z. Lin, Y. Zhang, \"The development of non-asbestos fibre\ncement products in China,\" 10th International Inorganic-Bonded Fibre\nComposites Conference, 68-78, (2006).", "C.G. Hoyos, E. Cristia and A. Vazquez, \"Effect of cellulose\nmicrocrystalline particles on properties of cement based composites,\"\nMaterials and Design, 51, 810-818, (2013).", "R. Jarabo, E. Fuente, M.C. Monte, H. Savastano Jr, P. Mutje and C.\nNegro, \"Use of cellulose fibres from hemp core in fibre cement\nproduction. Effect on flocculation, retention, drainage and product\nproperties,\" Industrial Crops and Products, 39, 89-96, (2012).", "M. Bentchikou, A. Guidoum, K. Scrivener, K. Silhadi and S. Hanini,\n\"Effect of recycled cellulose fibres on the properties of lightweight\ncement composite matrix,\" Construction and Building Materials, 34,\n451-456, (2012).", "N. Degirmenci and A. Y\u0131lmaz, \"Use of diatomite as partial replacement\nfor Portland cement in cement mortars,\" Construction and Building\nMaterials, 23, 284-288, (2009).", "A. A. Ramezanianpour, S. Atarodi, M. Sami, \"Durability of concretes\ncontaining ground granulated blast furnace GGBS against sulphate\nattack,\" Third International Conference on Sustainable Construction\nMaterials and Technologies", "S. P. Sangeetha, P. S. Joanna, \"Flexural Behaviour of Reinforced\nConcrete Beams with Partial Replacement of GGBS,\" American Journal\nof Engineering Research (AJER) e-ISSN: 2320-0847 p-ISSN : 2320-\n0936, Volume-03, Issue-01, pp:119-127", "M. Soman and K. Sobha, \"Strength and Behaviour of High Volume Fly\nAsh Concrete,\" International Journal of Innovative Research in Science,\nEngineering and Technology, Vol. 3, Issue 5, May 2014, Pp 12416-\n12424.", "S. Arivalagan, \"Sustainable Studies on Concrete with GGBS as a\nReplacement Material in Cement\" Jordan Journal of Civil Engineering,\nVolume 8, No. 3, 2014, Pp 263-270\n[10] A.H.L. Swaroop, K. Venkateswararao, P Kodandaramarao, \"Durability\nStudies On Concrete With Fly Ash & GGBS,\" International Journal of\nEngineering Research and Applications (IJERA) ISSN: 2248-9622, Vol.\n3, Issue 4, Jul-Aug 2013, pp.285-289 285\n[11] BSI (2005) EN 450-1:2005 \"Fly ash for concrete. Definition,\nspecifications and conformity criteria,\" BSI, London, UK.\n[12] BSI (2006) EN 15167-1:2006, \"Ground granulated blast furnace slag for\nuse in concrete, mortar and grout. Definitions, specifications and\nconformity criteria,\" BSI, London, UK.\n[13] C. Ince, M.A. Carter, M.A. Wilson, N.C. Collier, A. El-Turki, R.J. Ball,\nG.C. Allen, \"Factors Affecting the Water Retaining Characteristics of\nLime and Cement Mortars in the Freshly-Mixed State,\" Mater. Struct.\n44(2), 2011, 509-516.\n[14] BSI (1999) EN 1015-3:1999. \"Methods of test for mortar for masonry.\nDetermination of consistence of fresh mortar (by flow table)\". BSI,\nLondon, UK.\n[15] BSI (2005) EN 196-3:2005 +A1:2008. \"Methods of testing cement.\nDetermination of setting times and soundness,\" BSI, London, UK.\n[16] BSI EN 14630:2006, \"Products and systems for the protection and repair\nof concrete structures. Test methods. Determination of carbonation depth\nin hardened concrete by the phenolphthalein method.\" ISBN 0580\n496228."]} |
format |
Text |
author |
Ince, Ceren Erdem, Berkay Z. Derogar, Shahram Nabi Yuzer |
author_facet |
Ince, Ceren Erdem, Berkay Z. Derogar, Shahram Nabi Yuzer |
author_sort |
Ince, Ceren |
title |
The Effects Of Scms On The Mechanical Properties And Durability Of Fibre Cement Plates |
title_short |
The Effects Of Scms On The Mechanical Properties And Durability Of Fibre Cement Plates |
title_full |
The Effects Of Scms On The Mechanical Properties And Durability Of Fibre Cement Plates |
title_fullStr |
The Effects Of Scms On The Mechanical Properties And Durability Of Fibre Cement Plates |
title_full_unstemmed |
The Effects Of Scms On The Mechanical Properties And Durability Of Fibre Cement Plates |
title_sort |
effects of scms on the mechanical properties and durability of fibre cement plates |
publisher |
Zenodo |
publishDate |
2015 |
url |
https://dx.doi.org/10.5281/zenodo.1107514 https://zenodo.org/record/1107514 |
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ENVELOPE(-61.864,-61.864,-70.221,-70.221) ENVELOPE(-62.350,-62.350,-74.233,-74.233) ENVELOPE(-64.000,-64.000,-65.433,-65.433) |
geographic |
Collier Nash Vazquez |
geographic_facet |
Collier Nash Vazquez |
genre |
sami |
genre_facet |
sami |
op_relation |
https://dx.doi.org/10.5281/zenodo.1107515 |
op_rights |
Open Access Creative Commons Attribution 4.0 https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess |
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CC-BY |
op_doi |
https://doi.org/10.5281/zenodo.1107514 https://doi.org/10.5281/zenodo.1107515 |
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ftdatacite:10.5281/zenodo.1107514 2023-05-15T18:14:21+02:00 The Effects Of Scms On The Mechanical Properties And Durability Of Fibre Cement Plates Ince, Ceren Erdem, Berkay Z. Derogar, Shahram Nabi Yuzer 2015 https://dx.doi.org/10.5281/zenodo.1107514 https://zenodo.org/record/1107514 en eng Zenodo https://dx.doi.org/10.5281/zenodo.1107515 Open Access Creative Commons Attribution 4.0 https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess CC-BY Diatomite fibre strength supplementary cementing materials. Text Journal article article-journal ScholarlyArticle 2015 ftdatacite https://doi.org/10.5281/zenodo.1107514 https://doi.org/10.5281/zenodo.1107515 2021-11-05T12:55:41Z Fibre cement plates, often used in construction, generally are made using quartz as an inert material, cement as a binder and cellulose as a fibre. This paper, first of all, investigates the mechanical properties and durability of fibre cement plates when quartz is both partly and fully replaced with diatomite. Diatomite does not only have lower density compared to quartz but also has high pozzolanic activity. The main objective of this paper is the investigation of the effects of supplementary cementing materials (SCMs) on the short and long term mechanical properties and durability characteristics of fibre cement plates prepared using diatomite. Supplementary cementing materials such as ground granulated blast furnace slug (GGBS) and fly ash (FA) are used in this study. Volume proportions of 10, 20, 30 and 40% of GGBS and FA are used as partial replacement materials to cement. Short and long term mechanical properties such as compressive and flexural strengths as well as sorptivity characteristics and mass were investigated. Consistency and setting time at each replacement levels of SCMs were also recorded. The effects of using supplementary cementing materials on the carbonation and sulphate resistance of fibre cement plates were then experimented. The results, first of all, show that the use of diatomite as a full or partial replacement to quartz resulted in a systematic decrease in total mass of the fibre cement plates. The reduction of mass was largely due to the lower density and finer particle size of diatomite compared to quartz. The use of diatomite did not only reduce the mass of these plates but also increased the compressive strength significantly as a result of its high pozzolanic activity. The replacement levels of both GGBS and FA resulted in a systematic decrease in short term compressive strength with increasing replacement levels. This was essentially expected as the total rate of hydration is much lower in GGBS and FA than that of cement. Long term results however, indicated that the compressive strength of fibre cement plates prepared using both GGBS and FA increases with time and hence the compressive strength of plates prepared using SCMs is either equivalent or more than the compressive strength of plates prepared using cement alone. Durability characteristics of fibre cement plates prepared using SCMs were enhanced significantly. Measurements of sopritivty characteristics were also indicated that the plates prepared using SCMs has much lower water absorption capacities compared to plates prepared cement alone. Much higher resistance to carbonation and sulphate attach were observed with plates prepared using SCMs. The results presented in this paper show that the use of SCMs does not only support the production of more sustainable construction materials but also enhances the mechanical properties and durability characteristics of fibre cement plates. : {"references": ["R. Shen, Z. Lin, Y. Zhang, \"The development of non-asbestos fibre\ncement products in China,\" 10th International Inorganic-Bonded Fibre\nComposites Conference, 68-78, (2006).", "C.G. Hoyos, E. Cristia and A. Vazquez, \"Effect of cellulose\nmicrocrystalline particles on properties of cement based composites,\"\nMaterials and Design, 51, 810-818, (2013).", "R. Jarabo, E. Fuente, M.C. Monte, H. Savastano Jr, P. Mutje and C.\nNegro, \"Use of cellulose fibres from hemp core in fibre cement\nproduction. Effect on flocculation, retention, drainage and product\nproperties,\" Industrial Crops and Products, 39, 89-96, (2012).", "M. Bentchikou, A. Guidoum, K. Scrivener, K. Silhadi and S. Hanini,\n\"Effect of recycled cellulose fibres on the properties of lightweight\ncement composite matrix,\" Construction and Building Materials, 34,\n451-456, (2012).", "N. Degirmenci and A. Y\u0131lmaz, \"Use of diatomite as partial replacement\nfor Portland cement in cement mortars,\" Construction and Building\nMaterials, 23, 284-288, (2009).", "A. A. Ramezanianpour, S. Atarodi, M. Sami, \"Durability of concretes\ncontaining ground granulated blast furnace GGBS against sulphate\nattack,\" Third International Conference on Sustainable Construction\nMaterials and Technologies", "S. P. Sangeetha, P. S. Joanna, \"Flexural Behaviour of Reinforced\nConcrete Beams with Partial Replacement of GGBS,\" American Journal\nof Engineering Research (AJER) e-ISSN: 2320-0847 p-ISSN : 2320-\n0936, Volume-03, Issue-01, pp:119-127", "M. Soman and K. Sobha, \"Strength and Behaviour of High Volume Fly\nAsh Concrete,\" International Journal of Innovative Research in Science,\nEngineering and Technology, Vol. 3, Issue 5, May 2014, Pp 12416-\n12424.", "S. Arivalagan, \"Sustainable Studies on Concrete with GGBS as a\nReplacement Material in Cement\" Jordan Journal of Civil Engineering,\nVolume 8, No. 3, 2014, Pp 263-270\n[10] A.H.L. Swaroop, K. Venkateswararao, P Kodandaramarao, \"Durability\nStudies On Concrete With Fly Ash & GGBS,\" International Journal of\nEngineering Research and Applications (IJERA) ISSN: 2248-9622, Vol.\n3, Issue 4, Jul-Aug 2013, pp.285-289 285\n[11] BSI (2005) EN 450-1:2005 \"Fly ash for concrete. Definition,\nspecifications and conformity criteria,\" BSI, London, UK.\n[12] BSI (2006) EN 15167-1:2006, \"Ground granulated blast furnace slag for\nuse in concrete, mortar and grout. Definitions, specifications and\nconformity criteria,\" BSI, London, UK.\n[13] C. Ince, M.A. Carter, M.A. Wilson, N.C. Collier, A. El-Turki, R.J. Ball,\nG.C. Allen, \"Factors Affecting the Water Retaining Characteristics of\nLime and Cement Mortars in the Freshly-Mixed State,\" Mater. Struct.\n44(2), 2011, 509-516.\n[14] BSI (1999) EN 1015-3:1999. \"Methods of test for mortar for masonry.\nDetermination of consistence of fresh mortar (by flow table)\". BSI,\nLondon, UK.\n[15] BSI (2005) EN 196-3:2005 +A1:2008. \"Methods of testing cement.\nDetermination of setting times and soundness,\" BSI, London, UK.\n[16] BSI EN 14630:2006, \"Products and systems for the protection and repair\nof concrete structures. Test methods. Determination of carbonation depth\nin hardened concrete by the phenolphthalein method.\" ISBN 0580\n496228."]} Text sami DataCite Metadata Store (German National Library of Science and Technology) Collier ENVELOPE(-61.864,-61.864,-70.221,-70.221) Nash ENVELOPE(-62.350,-62.350,-74.233,-74.233) Vazquez ENVELOPE(-64.000,-64.000,-65.433,-65.433) |