Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Concrete Self-Compacting: An Experimental Investigation
The work done over a longer period of time is based on concrete with regular workability and special concretes, the main concerns of which are performance and durability. Nonetheless, current research on self compacting concrete, also known as self-consolidating concrete (SCC), focuses on rheological and strength factors. The commonly utilized material in SCC, fly ash, has a positive influence on the flow mechanism but has limits in terms of durability. As a result, the major probable issue statement for this study is the necessity to locate a material that is good in flow and durability. It should also be taken into account in terms of material cost and availability. Now during the past few recent years there was a development in cement which is being developed; and that is magnesium rich minerals. The placing, handling, and workability of these concrete rheological qualities are significant benefits. There were also economic benefits such as shorter building time, fewer labour utilization, and so on. SCC have recently affected current construction processes such as steel concrete composites, lean concrete sections, and prestressed and precast buildings. As the use of SCC increased across numerous concreting sectors and applications, the necessity for SCC research became critical. The relative answer will always say about three important performances; one is workability, second is strength and third is durability. Thus this studied is mainly parted into the stages of above said topics and various tests were carried out to ascertain the behavior of concrete in various conditions. Thus it was understood that the UFNSP addition to concrete has restricted the additional unwanted flow properties ensuring the strength and durability enhancement.
Concrete Self-Compacting: An Experimental Investigation
The work done over a longer period of time is based on concrete with regular workability and special concretes, the main concerns of which are performance and durability. Nonetheless, current research on self compacting concrete, also known as self-consolidating concrete (SCC), focuses on rheological and strength factors. The commonly utilized material in SCC, fly ash, has a positive influence on the flow mechanism but has limits in terms of durability. As a result, the major probable issue statement for this study is the necessity to locate a material that is good in flow and durability. It should also be taken into account in terms of material cost and availability. Now during the past few recent years there was a development in cement which is being developed; and that is magnesium rich minerals. The placing, handling, and workability of these concrete rheological qualities are significant benefits. There were also economic benefits such as shorter building time, fewer labour utilization, and so on. SCC have recently affected current construction processes such as steel concrete composites, lean concrete sections, and prestressed and precast buildings. As the use of SCC increased across numerous concreting sectors and applications, the necessity for SCC research became critical. The relative answer will always say about three important performances; one is workability, second is strength and third is durability. Thus this studied is mainly parted into the stages of above said topics and various tests were carried out to ascertain the behavior of concrete in various conditions. Thus it was understood that the UFNSP addition to concrete has restricted the additional unwanted flow properties ensuring the strength and durability enhancement.
Concrete Self-Compacting: An Experimental Investigation
Mastan Bhaldar (Autor:in) / Sandip Nirmal (Autor:in)
03.01.2023
oai:zenodo.org:7500384
Journal of Advances in Civil Engineering and Management 5(3) 1-5
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
DDC:
690
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