Experimental Study on Low-Fines Self-compacting Concrete Using Fly Ash Replacement: Fid-Bau Portal

Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

Experimental Study on Low-Fines Self-compacting Concrete Using Fly Ash Replacement

Jaydeep, M. Shinde / Ravi, K.

Smart Dynamic Concrete has a low cementitious material and can have self-compacting properties. Low-Fines Self-Compacting Concrete (LFSCC) was developed in this experimental investigation using cementitious content less than 380 kg/m³. To achieve economy and to create ecological concrete, by replacement of fly ash with cement which ranges from 10 to 50%. The fresh flow (flowable) properties of LFSCC were investigated as per EFNRAC specifications. Compressive strength, strength for flexural, and strength for splitting tensile are evaluated as per Indian standards specifications. From experimental results, all the mix combinations satisfied ENFRAC specifications in the fresh state of LFSCC. The 32.12 MPa highest compressive strength was observed when fly ash was replaced by 30%. The flexural strength and the splitting tensile strength of the LFSCC decreased as the fly ash content increased. Overall findings suggest that LFSCC can be developed for everyday concrete applications by incorporating fly ash.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Experimental Study on Low-Fines Self-compacting Concrete Using Fly Ash Replacement

Jaydeep, M. Shinde / Ravi, K.

Smart Dynamic Concrete has a low cementitious material and can have self-compacting properties. Low-Fines Self-Compacting Concrete (LFSCC) was developed in this experimental investigation using cementitious content less than 380 kg/m³. To achieve economy and to create ecological concrete, by replacement of fly ash with cement which ranges from 10 to 50%. The fresh flow (flowable) properties of LFSCC were investigated as per EFNRAC specifications. Compressive strength, strength for flexural, and strength for splitting tensile are evaluated as per Indian standards specifications. From experimental results, all the mix combinations satisfied ENFRAC specifications in the fresh state of LFSCC. The 32.12 MPa highest compressive strength was observed when fly ash was replaced by 30%. The flexural strength and the splitting tensile strength of the LFSCC decreased as the fly ash content increased. Overall findings suggest that LFSCC can be developed for everyday concrete applications by incorporating fly ash.

Experimental Study on Low-Fines Self-compacting Concrete Using Fly Ash Replacement

Jaydeep, M. Shinde / Ravi, K.

Smart Dynamic Concrete has a low cementitious material and can have self-compacting properties. Low-Fines Self-Compacting Concrete (LFSCC) was developed in this experimental investigation using cementitious content less than 380 kg/m³. To achieve economy and to create ecological concrete, by replacement of fly ash with cement which ranges from 10 to 50%. The fresh flow (flowable) properties of LFSCC were investigated as per EFNRAC specifications. Compressive strength, strength for flexural, and strength for splitting tensile are evaluated as per Indian standards specifications. From experimental results, all the mix combinations satisfied ENFRAC specifications in the fresh state of LFSCC. The 32.12 MPa highest compressive strength was observed when fly ash was replaced by 30%. The flexural strength and the splitting tensile strength of the LFSCC decreased as the fly ash content increased. Overall findings suggest that LFSCC can be developed for everyday concrete applications by incorporating fly ash.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Document information

Title:

Experimental Study on Low-Fines Self-compacting Concrete Using Fly Ash Replacement

Additional title:

Lecture Notes in Civil Engineering

Contributors:

Pathak, Krishna Kant (editor) / Bandara, J. M. S. J. (editor) / Agrawal, Ramakant (editor) / Jaydeep, M. Shinde (author) / Ravi, K. (author)

Conference:

International Conference on Recent Advances in Civil Engineering ; 2022

Published in:

Latest Developments in Civil Engineering ; Chapter: 5 ; 51-60

Lecture Notes in Civil Engineering ; 352

Publication date:

2023-10-03

Size:

10 pages

ISBN:

978-981-99-2676-3 , 978-981-99-2675-6

ISSN:

2366-2565 , 2366-2557

DOI:

https://doi.org/10.1007/978-981-99-2676-3_5

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Low-fines self-compacting concrete , Fly ash , Workability , Compressive strength Engineering , Civil Engineering , Geoengineering, Foundations, Hydraulics , Building Construction and Design

Similar titles

Low fines content self-compacting concrete

Corradi, M. / Khurana, R. / Magarotto, R. | British Library Conference Proceedings | 2007

Self-compacting concrete (SCC) behaviour incorporating limestone fines as cement and sand replacement

Skender, Zakaria / Bali, Abderrahim / Kettab, Ratiba | Taylor & Francis Verlag | 2021

Experimental Study on Self-Compacting Concrete with Replacement Material’s

Abhishek, Patil / Lohith, Pasumarthi / Sravan, Nakka et al. | Springer Verlag | 2018

Self-compacting concrete with high-volume crushed rock fines

Nishio, A. / Tamura, H. / Ohashi, M. | Tema Archive | 1998

New admixture-system for low-fines self-compacting concrete

Roncero, J. / Corradi, M. / Khurana, R.S. | British Library Conference Proceedings | 2007