Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Influence of Prominent Temperature on the Compressive Strength of Self Compacting Concrete
View through CrossRef
In an extensive research scenario, the self-compacting concrete influence a major role in the advanced construction technology which gives the higher impact on its strength and durability of the structure, for its assessment there were various types of physical and chemical testing techniques are available. In this article the work represents the compressive strength of self-compacting concrete in various temperature testing like 200o C and 400 o C with the consideration of 100% cement and different mix proportion of admixtures for the replaceable of cement like Fly-ash with 30% and 15% and GGBFS 30% and 15% and the addition of polypropylene fibre with 1% and 2% with all of its mix proportion. The fundamental tests of the concrete are performed as per the Indian Standard code. The results indicate that an enhancement of compressive strength at the maximum optimized temperature.
Title: Influence of Prominent Temperature on the Compressive Strength of Self Compacting Concrete
Description:
In an extensive research scenario, the self-compacting concrete influence a major role in the advanced construction technology which gives the higher impact on its strength and durability of the structure, for its assessment there were various types of physical and chemical testing techniques are available.
In this article the work represents the compressive strength of self-compacting concrete in various temperature testing like 200o C and 400 o C with the consideration of 100% cement and different mix proportion of admixtures for the replaceable of cement like Fly-ash with 30% and 15% and GGBFS 30% and 15% and the addition of polypropylene fibre with 1% and 2% with all of its mix proportion.
The fundamental tests of the concrete are performed as per the Indian Standard code.
The results indicate that an enhancement of compressive strength at the maximum optimized temperature.
Related Results
Analyzing the Impact of Supplementary Cementitious Material and Polypropylene Fiber on the Fresh, Mechanical Properties, and Acid Attack of Quaternary Blended Self Compacting Concrete
Analyzing the Impact of Supplementary Cementitious Material and Polypropylene Fiber on the Fresh, Mechanical Properties, and Acid Attack of Quaternary Blended Self Compacting Concrete
Self-Compacting Concrete (SCC) is defined as concrete that has an ability to flow under its own weight, to fill the required space or formwork completely and to produce a dense and...
Analysis of High Temperature Fluctuations on Asphalt Pavement of Cement Concrete Bridge
Analysis of High Temperature Fluctuations on Asphalt Pavement of Cement Concrete Bridge
Abstract
In this study a 2-D finite element model of a multilayered pavement structure of a cement concrete bridge was developed to calculate the temperature fluctua...
Effect of Elevated Temperatures and Thermal Cycles on Self Compacting Concrete Reinforced with Polypropylene Fibers
Effect of Elevated Temperatures and Thermal Cycles on Self Compacting Concrete Reinforced with Polypropylene Fibers
SCC has been widely adopted in the various applications. Addition of fibers to SCC has shown to increase the strength and concrete durable. Concrete structures are subjected to int...
Structural Behavior of Precast Lightweight Foam Concrete Sandwich Panel with Double Shear Truss Connectors under Flexural Load
Structural Behavior of Precast Lightweight Foam Concrete Sandwich Panel with Double Shear Truss Connectors under Flexural Load
This paper presents the structural behaviour of precast lightweight foam concrete sandwich panel (PFLP) under flexure, studied experimentally and theoretically. Four (4) full scale...
New fire resistance design approach for concrete‐filled cold‐formed steel (CF‐CFS) built‐up composite column
New fire resistance design approach for concrete‐filled cold‐formed steel (CF‐CFS) built‐up composite column
AbstractPrior research investigated the fire resistance prediction of the concrete‐filled cold‐formed steel (CF‐CFS) built‐up columns when subjected to axial compression and high t...
Experimental and Numerical Investigation of the Seismic Performance of RC Moment Resisting Frames
Experimental and Numerical Investigation of the Seismic Performance of RC Moment Resisting Frames
The rehabilitation of concrete structures has been a subject of extensive investigation, exploring various facets. One such avenue involves the incorporation of fiber additives int...
Effect of coupling agent as integral blend additive on silicone rubber sealant
Effect of coupling agent as integral blend additive on silicone rubber sealant
AbstractSilane coupling agent (SCA) plays an important role in the improvement of adhesive properties of the silicone rubber (SR) sealant. In this study, three trifunctional silane...
NaOH Molarity's Impacts on SCGC's Workability and Durability with Ecologically Friendly Industrial By-Products
NaOH Molarity's Impacts on SCGC's Workability and Durability with Ecologically Friendly Industrial By-Products
The objective of the analysis is to investigate the workability and durability properties of self-compacting geopolymer concrete (SCGC) based on fly ash and GGBS on various NaOH mo...