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Nano-mechanical properties of internally cured kenaf fiber reinforced concrete using nanoindentation
Abstract Kenaf fiber reinforced concrete (KFRC) is being considered as a more sustainable fiber reinforced concrete. The effect of water-absorbing kenaf fibers on the microstructure of concrete was studied using nanoindentation. Results showed that cement hydration products found in KFRC are similar to those in conventional concrete, but relative volume fractions of these hydration products differ in KFRC. KFRC samples have more CH/CSH and less LD CSH in bulk than would be expected for plain concretes with similar water–cement ratios. Further nanoindentation experiments were performed in the interfacial transition zones around individual kenaf fibers, revealing a porous phase, a high percentage of LD CSH, and a lack of HD CSH in the fiber interfacial zones. The water absorbance of kenaf fibers and associated internal curing effects explain both results. Enhanced production of higher density hydration products in KFRC may provide a pathway for optimal design of these materials.
Nano-mechanical properties of internally cured kenaf fiber reinforced concrete using nanoindentation
Abstract Kenaf fiber reinforced concrete (KFRC) is being considered as a more sustainable fiber reinforced concrete. The effect of water-absorbing kenaf fibers on the microstructure of concrete was studied using nanoindentation. Results showed that cement hydration products found in KFRC are similar to those in conventional concrete, but relative volume fractions of these hydration products differ in KFRC. KFRC samples have more CH/CSH and less LD CSH in bulk than would be expected for plain concretes with similar water–cement ratios. Further nanoindentation experiments were performed in the interfacial transition zones around individual kenaf fibers, revealing a porous phase, a high percentage of LD CSH, and a lack of HD CSH in the fiber interfacial zones. The water absorbance of kenaf fibers and associated internal curing effects explain both results. Enhanced production of higher density hydration products in KFRC may provide a pathway for optimal design of these materials.
Nano-mechanical properties of internally cured kenaf fiber reinforced concrete using nanoindentation
Zanjani Zadeh, Vahid (author) / Bobko, Christopher P. (author)
Cement and Concrete Composites ; 52 ; 9-17
2014-04-21
9 pages
Article (Journal)
Electronic Resource
English
Nano-mechanical properties of internally cured kenaf fiber reinforced concrete using nanoindentation
| Online Contents | 2014
Mechanical properties of kenaf fiber reinforced concrete
| British Library Online Contents | 2011
Mechanical properties of kenaf fiber reinforced concrete
| Online Contents | 2011
Mechanical properties of kenaf fiber reinforced concrete
| Elsevier | 2010