Air-Cured Fiber-Cement Composite Mixtures with Different Types of Cellulose Fibers

This present study was carried out to check the feasibility of different cellulose fibers obtained from cropped virgin cellulose, blenched eucalyptus, and araucaria pulps through different new environmentally friendly curing processes for fiber-cement production. The aim is to introduce the differen...

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Main Authors: Ali Murat Soydan, Abdul Kadir Sari, Burcu Duymaz, Recep Akdeniz, Bahadır Tunaboylu
Format: Article
Language:English
Published: Wiley 2018-01-01
Series:Advances in Materials Science and Engineering
Online Access:http://dx.doi.org/10.1155/2018/3841514
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author Ali Murat Soydan
Abdul Kadir Sari
Burcu Duymaz
Recep Akdeniz
Bahadır Tunaboylu
author_facet Ali Murat Soydan
Abdul Kadir Sari
Burcu Duymaz
Recep Akdeniz
Bahadır Tunaboylu
author_sort Ali Murat Soydan
collection DOAJ
description This present study was carried out to check the feasibility of different cellulose fibers obtained from cropped virgin cellulose, blenched eucalyptus, and araucaria pulps through different new environmentally friendly curing processes for fiber-cement production. The aim is to introduce the different sources of cellulose fibers with lower cost to produce the “fiber-cement without autoclave” (FCWA). The slurries used in the experiments contain approximately 8% wt. of cellulose. The influence of the waste marble powder addition to the cement mixture was also studied. The physical and mechanical properties of the products which were prepared with this method under different curing conditions were investigated. The mechanical properties of eucalyptus cellulose appear to offer the best combination, especially after longer air-cure cycles. The results showed that the production of FCWA is very economical by using waste marble powders. And moreover, two new types of cellulose fibers (eucalyptus and araucaria celluloses; EuC and ArC, resp.), which provide a better density and packing in the fiber-cement leading to better modulus of rupture (MOR) and modulus of elasticity (MOE) values as virgin cellulose (ViC), are very usable for production of the fiber-cement in industrial scale.
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institution Kabale University
issn 1687-8434
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language English
publishDate 2018-01-01
publisher Wiley
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series Advances in Materials Science and Engineering
spelling doaj-art-5973e81fa4594301a5da4374ab96145a2025-02-03T06:44:46ZengWileyAdvances in Materials Science and Engineering1687-84341687-84422018-01-01201810.1155/2018/38415143841514Air-Cured Fiber-Cement Composite Mixtures with Different Types of Cellulose FibersAli Murat Soydan0Abdul Kadir Sari1Burcu Duymaz2Recep Akdeniz3Bahadır Tunaboylu4Gebze Technical University, Institute of Energy Technologies, Gebze, TurkeyDepartment of Materials Science and Engineering, Gebze Technical University, Gebze, TurkeyDepartment of Materials Science and Engineering, Gebze Technical University, Gebze, TurkeyDepartment of Materials Science and Engineering, Gebze Technical University, Gebze, TurkeyDepartment of Industrial Engineering, Istanbul Sehir University, Dragos Kampusu Orhantepe Mahallesi, Turgut Ozal Bulvarı, No. 21, Dragos, Kartal, Istanbul, TurkeyThis present study was carried out to check the feasibility of different cellulose fibers obtained from cropped virgin cellulose, blenched eucalyptus, and araucaria pulps through different new environmentally friendly curing processes for fiber-cement production. The aim is to introduce the different sources of cellulose fibers with lower cost to produce the “fiber-cement without autoclave” (FCWA). The slurries used in the experiments contain approximately 8% wt. of cellulose. The influence of the waste marble powder addition to the cement mixture was also studied. The physical and mechanical properties of the products which were prepared with this method under different curing conditions were investigated. The mechanical properties of eucalyptus cellulose appear to offer the best combination, especially after longer air-cure cycles. The results showed that the production of FCWA is very economical by using waste marble powders. And moreover, two new types of cellulose fibers (eucalyptus and araucaria celluloses; EuC and ArC, resp.), which provide a better density and packing in the fiber-cement leading to better modulus of rupture (MOR) and modulus of elasticity (MOE) values as virgin cellulose (ViC), are very usable for production of the fiber-cement in industrial scale.http://dx.doi.org/10.1155/2018/3841514
spellingShingle Ali Murat Soydan
Abdul Kadir Sari
Burcu Duymaz
Recep Akdeniz
Bahadır Tunaboylu
Air-Cured Fiber-Cement Composite Mixtures with Different Types of Cellulose Fibers
Advances in Materials Science and Engineering
title Air-Cured Fiber-Cement Composite Mixtures with Different Types of Cellulose Fibers
title_full Air-Cured Fiber-Cement Composite Mixtures with Different Types of Cellulose Fibers
title_fullStr Air-Cured Fiber-Cement Composite Mixtures with Different Types of Cellulose Fibers
title_full_unstemmed Air-Cured Fiber-Cement Composite Mixtures with Different Types of Cellulose Fibers
title_short Air-Cured Fiber-Cement Composite Mixtures with Different Types of Cellulose Fibers
title_sort air cured fiber cement composite mixtures with different types of cellulose fibers
url http://dx.doi.org/10.1155/2018/3841514
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