Investigation of Cis Palamfiber on the mechanical properties of Concrete

Abstract:The use of fibers in concrete in order to improve concrete properties and mechanical behavior has started four decades ago and is growing. Fibers in concrete reduce the brittleness and provids ductile behavior of concrete. Fiber may be of plant species, artificial and metral which can impro...

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Autor principal: Mohammad Hassan Mirabimoghaddam
Formato: article
Lenguaje:FA
Publicado: Iranian Society of Structrual Engineering (ISSE) 2021
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Acceso en línea:https://doaj.org/article/77a66fee9aab4b538cdd1230f8db981e
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Sumario:Abstract:The use of fibers in concrete in order to improve concrete properties and mechanical behavior has started four decades ago and is growing. Fibers in concrete reduce the brittleness and provids ductile behavior of concrete. Fiber may be of plant species, artificial and metral which can improve mechanical properties of concrete under compressive load, tensile, flexural,shear, dynamic and hit, as well shrinkage and creep, resistance to freezing and thaw, abrasion and erosion and can create a uniformmaterial. In this research we have studied the impact of palm fiber so – called Cis which is abundant in Balouchistan on mechanical properties of concrete. For this purpose, we used ac laboratory method in which samples with varoous shapes and different percentages of palm fiber (CIS) have been made and different properties of concrete have been tested. The result showed that concrete made with broken fibers 2%, shear fiber 2%, waste fiber 1% has a comperssive strength greater than control sample and concrete with broken fiber 2% has higher tensile stergth than the control sample. Keywords: Fiber concrete, Plant concrete, Tensile strength, Compressive strength. Noorsaidi, M., (Corresponding author) .Comparison Study on Oil Palm Trunk and Oil Palm Fruit Bunch Fiber Reinforced Laterite Bricks. Department of Building, Faculty of Architecture, Planning and Surveying Kota Samarahan, Sarawak, Malaysia University, Technology, MARA. Ramli, M., and Dawood, E, Th. Properties of High Strength Flowable Mortar Reinforced With Different Fibers. Department of Construction and Building, Technical College of Mosul, IRAQ School of Housing, Building and Planning, University Sains Malaysia