Combining Traditional Materials-Concrete and Reinforcement - in a Modern Manner-SCC and WWF - for Cost Effective and Zero Defects Construction

T.A. Rajha Rajeswaran; A. Ravichandran; S. Kothandaraman

doi:10.4028/www.scientific.net/KEM.803.294

Paper Titles

A Reinforced Kite-Shaped Microstructure with Negative Linear and Area Hygrothermal Expansions
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Characterization of Cements Produced from Clinker Co-Processed with TiO₂ Waste (UOW)
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Influence of Clutch Disc Waste (Grinding Dust) on Portland Cement Hydration
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Effect of the Addition of Unreacted Ilmenite (UOW) on the Hydration of White Portland Cement - Hydrated Lime Pastes
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Combining Traditional Materials-Concrete and Reinforcement - in a Modern Manner-SCC and WWF - for Cost Effective and Zero Defects Construction
p.294

Early and Late Compressive Strengths Behaviour of Concrete with Blended South African Extenders
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Mineralogical Analysis of Portland Clinker Produced from the Incorporation of Granitic Rock Fines (GRF)
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Investigation of Failure Mechanism of Thin Steel Plate Shear Wall in RC Frame
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Impact Response of Reinforced Concrete Columns with Different Axial Load under Low-Velocity Impact Loading
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 803Combining Traditional Materials-Concrete and...

Combining Traditional Materials-Concrete and Reinforcement - in a Modern Manner-SCC and WWF - for Cost Effective and Zero Defects Construction

Abstract:

The paper describes how two traditional construction materials-Concrete and Steel Reinforcement can contribute better value to RCC and Precast Concrete structures by modernizing their forms as Self-Compacting Concrete (SCC) and Welded Wire Fabric (WWF). SCC is widely accepted by infrastructural, industrial, commercial and even individual house builders – due to its assured quality delivery, especially for cast–in-situ RCC construction. Many defects with conventional vibrated concrete -- honeycombing, segregation and bleeding, loss of workability, choking in concrete pump pipelines and overheating -- have been eliminated or at least minimized by using SCC. For any type of congested reinforcement, mainly in beam – column junctions, edges and corners, SCC has delivered satisfactory filling and honeycomb free densification. Also due to the absence of the use of vibrators, formworks have been spared from joint leakages – saving both the concrete and the formwork itself. But however, even in many advanced construction companies, due to poor detailing practices, and non-mechanized bar-bending (or mechanization limited to only cutting and bending of rebars ), reinforcement laps, splices and bends, hooks, pose an additional burden on the free flow, filling and densification of SCC. Thus using SCC alone may not ensure defect free construction in RCC. The changes should be wholesome and comprehensive. This paper describes how SCC and WWF enhance the quality of RCC construction and ensuring defect free construction. The effects of WWF and SCC are elaborated in detail considering all the physical properties and practical issues. Along with the technical analysis, the commercial and sustainable benefits of SCC and WWF are discussed.

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Periodical:

Key Engineering Materials (Volume 803)

Pages:

294-301

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.803.294

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Online since:

May 2019

Authors:

T.A. Rajha Rajeswaran*, A. Ravichandran, S. Kothandaraman

Keywords:

Cost Effectiveness, Self-Compacting Concrete, Value Addition, Welded Wire Fabric, Zero Defects Construction

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