Study on the effects of white rice husk ash and fibrous materials additions on some properties of fiber–cement composites

This work assesses the effects of white rice husk ash (WRHA) as pozzolanic material, virgin kraft pulp (VKP), old corrugated container (OCC) and fibers derived from fiberboard (FFB) as reinforcing agents on some properties of blended cement composites. In the sample preparation, composites were manu...

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Veröffentlicht in:	Journal of environmental management 2013-03, Vol.117, p.263-267
Hauptverfasser:	Hamzeh, Yahya, Ziabari, Kamran Pourhooshyar, Torkaman, Javad, Ashori, Alireza, Jafari, Mohammad
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal, plant and microbial ecology Applied ecology Ashes Binders Biological and medical sciences Cement Cements Composite materials Compressive Strength Conservation of Natural Resources - methods Conservation, protection and management of environment and wildlife Construction Materials Environmental management Fibers Fiber–cement composites Fibrous materials Fundamental and applied biological sciences. Psychology General aspects Incineration Manufacturing Mechanical properties Oryza Physical properties Raw materials Resistance Statistical analysis Statistical methods Water Water - chemistry Water absorption White rice husk ash
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creator	Hamzeh, Yahya Ziabari, Kamran Pourhooshyar Torkaman, Javad Ashori, Alireza Jafari, Mohammad
description	This work assesses the effects of white rice husk ash (WRHA) as pozzolanic material, virgin kraft pulp (VKP), old corrugated container (OCC) and fibers derived from fiberboard (FFB) as reinforcing agents on some properties of blended cement composites. In the sample preparation, composites were manufactured using fiber-to-cement ratio of 25:75 by weight and 5% CaCl2 as accelerator. Type II Portland cement was replaced by WRHA at 0%, 25% and 50% by weight of binder. A water-to-binder ratio of 0.55 was used for all blended cement paste mixes. For parametric study, compressive strength, water absorption and density of the composite samples were evaluated. Results showed that WRHA can be applied as a pozzolanic material to cement and also improved resistance to water absorption. However, increasing the replacement level of WRHA tends to reduce the compressive strength due to the low binding ability. The optimum replacement level of WRHA in mortar was 25% by weight of binder; this replacement percentage resulted in better compressive strengths and water absorption. OCC fiber is shown to be superior to VKF and FFB fibers in increasing the compressive strength, due to its superior strength properties. As expected, the increase of the WRHA content induced the reduction of bulk density of the cement composites. Statistical analysis showed that the interaction of above-mentioned variable parameters was significant on the mechanical and physical properties at 1% confidence level. ► Compressive strength and physical properties were significantly influenced by the addition of pulp fibers and WRHA contents. ► OCC/cement composites had superior compressive strength compared to the VKF and BBF filled composites. ► By addition of WRHA, water absorption and bulk density of the samples significantly reduced. ► The optimum condition was obtained when the OCC fibers and 25% WRHA were used.
doi_str_mv	10.1016/j.jenvman.2013.01.002
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In the sample preparation, composites were manufactured using fiber-to-cement ratio of 25:75 by weight and 5% CaCl2 as accelerator. Type II Portland cement was replaced by WRHA at 0%, 25% and 50% by weight of binder. A water-to-binder ratio of 0.55 was used for all blended cement paste mixes. For parametric study, compressive strength, water absorption and density of the composite samples were evaluated. Results showed that WRHA can be applied as a pozzolanic material to cement and also improved resistance to water absorption. However, increasing the replacement level of WRHA tends to reduce the compressive strength due to the low binding ability. The optimum replacement level of WRHA in mortar was 25% by weight of binder; this replacement percentage resulted in better compressive strengths and water absorption. OCC fiber is shown to be superior to VKF and FFB fibers in increasing the compressive strength, due to its superior strength properties. As expected, the increase of the WRHA content induced the reduction of bulk density of the cement composites. Statistical analysis showed that the interaction of above-mentioned variable parameters was significant on the mechanical and physical properties at 1% confidence level. ► Compressive strength and physical properties were significantly influenced by the addition of pulp fibers and WRHA contents. ► OCC/cement composites had superior compressive strength compared to the VKF and BBF filled composites. ► By addition of WRHA, water absorption and bulk density of the samples significantly reduced. ► The optimum condition was obtained when the OCC fibers and 25% WRHA were used.</description><identifier>ISSN: 0301-4797</identifier><identifier>EISSN: 1095-8630</identifier><identifier>DOI: 10.1016/j.jenvman.2013.01.002</identifier><identifier>PMID: 23391756</identifier><identifier>CODEN: JEVMAW</identifier><language>eng</language><publisher>Kidlington: Elsevier Ltd</publisher><subject>Animal, plant and microbial ecology ; Applied ecology ; Ashes ; Binders ; Biological and medical sciences ; Cement ; Cements ; Composite materials ; Compressive Strength ; Conservation of Natural Resources - methods ; Conservation, protection and management of environment and wildlife ; Construction Materials ; Environmental management ; Fibers ; Fiber–cement composites ; Fibrous materials ; Fundamental and applied biological sciences. 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In the sample preparation, composites were manufactured using fiber-to-cement ratio of 25:75 by weight and 5% CaCl2 as accelerator. Type II Portland cement was replaced by WRHA at 0%, 25% and 50% by weight of binder. A water-to-binder ratio of 0.55 was used for all blended cement paste mixes. For parametric study, compressive strength, water absorption and density of the composite samples were evaluated. Results showed that WRHA can be applied as a pozzolanic material to cement and also improved resistance to water absorption. However, increasing the replacement level of WRHA tends to reduce the compressive strength due to the low binding ability. The optimum replacement level of WRHA in mortar was 25% by weight of binder; this replacement percentage resulted in better compressive strengths and water absorption. OCC fiber is shown to be superior to VKF and FFB fibers in increasing the compressive strength, due to its superior strength properties. As expected, the increase of the WRHA content induced the reduction of bulk density of the cement composites. Statistical analysis showed that the interaction of above-mentioned variable parameters was significant on the mechanical and physical properties at 1% confidence level. ► Compressive strength and physical properties were significantly influenced by the addition of pulp fibers and WRHA contents. ► OCC/cement composites had superior compressive strength compared to the VKF and BBF filled composites. ► By addition of WRHA, water absorption and bulk density of the samples significantly reduced. ► The optimum condition was obtained when the OCC fibers and 25% WRHA were used.</abstract><cop>Kidlington</cop><pub>Elsevier Ltd</pub><pmid>23391756</pmid><doi>10.1016/j.jenvman.2013.01.002</doi><tpages>5</tpages></addata></record>
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subjects	Animal, plant and microbial ecology Applied ecology Ashes Binders Biological and medical sciences Cement Cements Composite materials Compressive Strength Conservation of Natural Resources - methods Conservation, protection and management of environment and wildlife Construction Materials Environmental management Fibers Fiber–cement composites Fibrous materials Fundamental and applied biological sciences. Psychology General aspects Incineration Manufacturing Mechanical properties Oryza Physical properties Raw materials Resistance Statistical analysis Statistical methods Water Water - chemistry Water absorption White rice husk ash
title	Study on the effects of white rice husk ash and fibrous materials additions on some properties of fiber–cement composites
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