Development of self-compacting concrete using contrast constant factorial design

The objective of this study is to determine if adjustment of the four factors viz. cement content (C), water to powder (w/p) ratio, fly ash (FA) content, and superplasticizer (SP) will increase the compressive strength of self-compacting concrete (SCC) by using contrast constant factorial design and...

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Main Authors: Alqadi A.N.S., Bin Mustapha K.N., Naganathan S., Al-Kadi Q.N.S.
Other Authors: 54971946700
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Published: King Saud University 2023
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spelling my.uniten.dspace-294332023-12-28T12:13:03Z Development of self-compacting concrete using contrast constant factorial design Alqadi A.N.S. Bin Mustapha K.N. Naganathan S. Al-Kadi Q.N.S. 54971946700 26032672000 30267872100 54973761000 Compressive strength Factorial design Response surface methodology Self-compacting concrete Slump flow Cements Fly ash Powders Self compacting concrete Surface properties Cement content Couple effects Factorial design Fly ash content Quadratic modeling Response surface methodology Slump flow Superplasticizers Compressive strength The objective of this study is to determine if adjustment of the four factors viz. cement content (C), water to powder (w/p) ratio, fly ash (FA) content, and superplasticizer (SP) will increase the compressive strength of self-compacting concrete (SCC) by using contrast constant factorial design and response surface methodology. The method of the analyzing 2k factorial design that is a design with k factors each at two levels was used with 16 factorial points. It is concluded that the interactions of the parameters of a couple effect of C with SP, w/p with SP, FA with SP, and C with FA and SP in a full quadratic model are the only significant effects and the underlying assumptions of the analysis are satisfied. In maximizing compressive strength, variables such as cement content A or x1, water to powder ratio B or x2, fly ash content C or x3, and super plasticizer dosage D or x4 should be at a high level of significance and the process is relatively robust (exhibiting strength) to superplasticizer D. � 2012 Final 2023-12-28T04:13:03Z 2023-12-28T04:13:03Z 2013 Article 10.1016/j.jksues.2012.06.002 2-s2.0-84904861940 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84904861940&doi=10.1016%2fj.jksues.2012.06.002&partnerID=40&md5=242e55ef76d736d559a192fb0774e13b https://irepository.uniten.edu.my/handle/123456789/29433 25 2 105 112 All Open Access; Gold Open Access King Saud University Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Compressive strength
Factorial design
Response surface methodology
Self-compacting concrete
Slump flow
Cements
Fly ash
Powders
Self compacting concrete
Surface properties
Cement content
Couple effects
Factorial design
Fly ash content
Quadratic modeling
Response surface methodology
Slump flow
Superplasticizers
Compressive strength
spellingShingle Compressive strength
Factorial design
Response surface methodology
Self-compacting concrete
Slump flow
Cements
Fly ash
Powders
Self compacting concrete
Surface properties
Cement content
Couple effects
Factorial design
Fly ash content
Quadratic modeling
Response surface methodology
Slump flow
Superplasticizers
Compressive strength
Alqadi A.N.S.
Bin Mustapha K.N.
Naganathan S.
Al-Kadi Q.N.S.
Development of self-compacting concrete using contrast constant factorial design
description The objective of this study is to determine if adjustment of the four factors viz. cement content (C), water to powder (w/p) ratio, fly ash (FA) content, and superplasticizer (SP) will increase the compressive strength of self-compacting concrete (SCC) by using contrast constant factorial design and response surface methodology. The method of the analyzing 2k factorial design that is a design with k factors each at two levels was used with 16 factorial points. It is concluded that the interactions of the parameters of a couple effect of C with SP, w/p with SP, FA with SP, and C with FA and SP in a full quadratic model are the only significant effects and the underlying assumptions of the analysis are satisfied. In maximizing compressive strength, variables such as cement content A or x1, water to powder ratio B or x2, fly ash content C or x3, and super plasticizer dosage D or x4 should be at a high level of significance and the process is relatively robust (exhibiting strength) to superplasticizer D. � 2012
author2 54971946700
author_facet 54971946700
Alqadi A.N.S.
Bin Mustapha K.N.
Naganathan S.
Al-Kadi Q.N.S.
format Article
author Alqadi A.N.S.
Bin Mustapha K.N.
Naganathan S.
Al-Kadi Q.N.S.
author_sort Alqadi A.N.S.
title Development of self-compacting concrete using contrast constant factorial design
title_short Development of self-compacting concrete using contrast constant factorial design
title_full Development of self-compacting concrete using contrast constant factorial design
title_fullStr Development of self-compacting concrete using contrast constant factorial design
title_full_unstemmed Development of self-compacting concrete using contrast constant factorial design
title_sort development of self-compacting concrete using contrast constant factorial design
publisher King Saud University
publishDate 2023
_version_ 1806427937087422464
score 13.222552