Add to ORKGUltra Cellulose Fibers are hydrophilic fibers which can hold most of their weight water when it is mixed into concrete, after concrete is hardened, these fibers will slowly release this water to unhydrated cement during the critical early phases of curing which assist in more complete hydration, this internal self curing action results in more completely hydrated cement which contributes to more strength development and more control of internal microcracking, particularly when normal curing is not adequate. Also, these fibers can be used easily in ready mixed concrete batch plants and in hot weather environments. The results indicated clear improvements in both the shrinkage and compressive strength of all cement paste mixes contained thes...
This research analyzes the effects of the previous wetting and drying treatments of cellulosic fiber...
The goal of this project is to design a concrete that will be stronger than a normal Portland Cement...
Cellulose fibers, because of their chemical and physical characteristics, are compatible with other ...
It is known that fibres can improve flexural strength, impact resistance, toughness and decrease the...
Ultra high-strength concrete (\u3e200 MPa) is marked by brittle behavior. In this work, we are rein...
Ultra high performance concrete (UHPC) is a material known for its high compressive strength (greate...
This paper reports the influence of submicron hydrophilic fibers on the hydration and microstructure...
Vegetable fibers are a hierarchical structure material in the macro, micro and nanometric scales tha...
Cellulose based materials, such as natural fibres, when added into a cement based matrix, can greatl...
Early-age crack development in cementitious materials often poses concerns over the long-term durabi...
Ultrahigh-performance fiber-reinforced concrete (UHPFRC) features outstanding durability properties ...
Fibers are usually used in High Performance Concrete with a purpose to increase bending strength and...
In the last few years, an increase in interest has been given to the use of cellulose fibers as alte...
This study investigated the improvement in concrete properties with addition of cellulose, steel, ca...
This study investigated the applicability of kenaf cellulose microfibers (CMFs) as an internal curin...
This research analyzes the effects of the previous wetting and drying treatments of cellulosic fiber...
The goal of this project is to design a concrete that will be stronger than a normal Portland Cement...
Cellulose fibers, because of their chemical and physical characteristics, are compatible with other ...
It is known that fibres can improve flexural strength, impact resistance, toughness and decrease the...
Ultra high-strength concrete (\u3e200 MPa) is marked by brittle behavior. In this work, we are rein...
Ultra high performance concrete (UHPC) is a material known for its high compressive strength (greate...
This paper reports the influence of submicron hydrophilic fibers on the hydration and microstructure...
Vegetable fibers are a hierarchical structure material in the macro, micro and nanometric scales tha...
Cellulose based materials, such as natural fibres, when added into a cement based matrix, can greatl...
Early-age crack development in cementitious materials often poses concerns over the long-term durabi...
Ultrahigh-performance fiber-reinforced concrete (UHPFRC) features outstanding durability properties ...
Fibers are usually used in High Performance Concrete with a purpose to increase bending strength and...
In the last few years, an increase in interest has been given to the use of cellulose fibers as alte...
This study investigated the improvement in concrete properties with addition of cellulose, steel, ca...
This study investigated the applicability of kenaf cellulose microfibers (CMFs) as an internal curin...
This research analyzes the effects of the previous wetting and drying treatments of cellulosic fiber...
The goal of this project is to design a concrete that will be stronger than a normal Portland Cement...
Cellulose fibers, because of their chemical and physical characteristics, are compatible with other ...