Early-age properties of silicomanganese fume and metakaolin-based cement mortar designed using RSM

Muhammad Nasir; Ahmed Adil Alammari; Abdulrahman Khalid Alkulaibi; Mohammed Abdulghani Busaleh; Mohammed Ibrahim; A. B.M.Saiful Islam; Khalid Saqer Alotaibi; Fahad Anwar

doi:10.21741/9781644903414-67

Early-age properties of silicomanganese fume and metakaolin-based cement mortar designed using RSM

Muhammad Nasir^*
, Ahmed Adil Alammari
, Abdulrahman Khalid Alkulaibi
, Mohammed Abdulghani Busaleh^*
, Mohammed Ibrahim
, A. B.M.Saiful Islam
, Khalid Saqer Alotaibi
, Fahad Anwar

^*Corresponding author for this work

Civil & Construction Engineering Department

Imam Abdulrahman Bin Faisal University
King Fahd University of Petroleum and Minerals

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

Contemporary and viable construction needs have shifted the interest of research towards utilizing unconventional materials sourced from industrial wastes or by-products. In this paper, two locally available waste materials, namely silicomanganese fume (SMF) and metakaolin (MK) were used as a partial replacement to the ordinary Portland cement (OPC) to optimize theiimpact on the flow and early-age compressive strength by varying their dosages and calcination temperature employing a Response Surface Methodology (RSM). A total of 29 mortar mixes suggested by RSM were prepared by varying SMF and MK content (0 to 30%), SMF and MK temperature (ambient to 700°C) at a constant sand to binder ratio of 2 and the water-to-cemenratio of 0.4. The experimental responses were used in the program to optimize the studied parameters, analyze the data statistically and develop prediction models. It was discovered that the flow is favored by the synergistic effect of high-volume SMF with low calcination temperature oMK with high calcination temperature. On the other hand, early strength development is favored by high-volume MK with high calcination temperature or moderate-volume SMF with moderate calcination temperature. This study will help promote valorization of solid waste materialsminimize energy consumption, preserve natural resources, lower carbon footprints in the concrete sector and possibly attain reasonable technical advantages.

Original language	English
Title of host publication	Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions
Editors	Tahar Ayadat
Publisher	Association of American Publishers
Pages	617-625
Number of pages	9
ISBN (Print)	9781644903414
DOIs	https://doi.org/10.21741/9781644903414-67
State	Published - 2025
Event	1st International Conference on Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions, 2024 - Al Khobar, Saudi Arabia Duration: 3 Nov 2024 → 5 Nov 2024

Publication series

Name	Materials Research Proceedings
Volume	48
ISSN (Print)	2474-3941
ISSN (Electronic)	2474-395X

Conference

Conference	1st International Conference on Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions, 2024
Country/Territory	Saudi Arabia
City	Al Khobar
Period	3/11/24 → 5/11/24

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure
SDG 11 Sustainable Cities and Communities
SDG 12 Responsible Consumption and Production
SDG 13 Climate Action

Keywords

Compressive Strength
Flow
Material Design
Modelling
Statistical Analysis
Supplementary Cementitious Materials

Access to Document

10.21741/9781644903414-67

Cite this

Nasir, M., Alammari, A. A., Alkulaibi, A. K., Busaleh, M. A., Ibrahim, M., Islam, A. B. M. S., Alotaibi, K. S., & Anwar, F. (2025). Early-age properties of silicomanganese fume and metakaolin-based cement mortar designed using RSM. In T. Ayadat (Ed.), Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions (pp. 617-625). (Materials Research Proceedings; Vol. 48). Association of American Publishers. https://doi.org/10.21741/9781644903414-67

Nasir, Muhammad ; Alammari, Ahmed Adil ; Alkulaibi, Abdulrahman Khalid et al. / Early-age properties of silicomanganese fume and metakaolin-based cement mortar designed using RSM. Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions. editor / Tahar Ayadat. Association of American Publishers, 2025. pp. 617-625 (Materials Research Proceedings).

@inproceedings{3fdec52005a04a3c8d68a452e2127100,

title = "Early-age properties of silicomanganese fume and metakaolin-based cement mortar designed using RSM",

abstract = "Contemporary and viable construction needs have shifted the interest of research towards utilizing unconventional materials sourced from industrial wastes or by-products. In this paper, two locally available waste materials, namely silicomanganese fume (SMF) and metakaolin (MK) were used as a partial replacement to the ordinary Portland cement (OPC) to optimize theiimpact on the flow and early-age compressive strength by varying their dosages and calcination temperature employing a Response Surface Methodology (RSM). A total of 29 mortar mixes suggested by RSM were prepared by varying SMF and MK content (0 to 30\%), SMF and MK temperature (ambient to 700°C) at a constant sand to binder ratio of 2 and the water-to-cemenratio of 0.4. The experimental responses were used in the program to optimize the studied parameters, analyze the data statistically and develop prediction models. It was discovered that the flow is favored by the synergistic effect of high-volume SMF with low calcination temperature oMK with high calcination temperature. On the other hand, early strength development is favored by high-volume MK with high calcination temperature or moderate-volume SMF with moderate calcination temperature. This study will help promote valorization of solid waste materialsminimize energy consumption, preserve natural resources, lower carbon footprints in the concrete sector and possibly attain reasonable technical advantages.",

keywords = "Compressive Strength, Flow, Material Design, Modelling, Statistical Analysis, Supplementary Cementitious Materials",

author = "Muhammad Nasir and Alammari, \{Ahmed Adil\} and Alkulaibi, \{Abdulrahman Khalid\} and Busaleh, \{Mohammed Abdulghani\} and Mohammed Ibrahim and Islam, \{A. B.M.Saiful\} and Alotaibi, \{Khalid Saqer\} and Fahad Anwar",

note = "Publisher Copyright: {\textcopyright} 2025, Association of American Publishers. All rights reserved.; 1st International Conference on Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions, 2024 ; Conference date: 03-11-2024 Through 05-11-2024",

year = "2025",

doi = "10.21741/9781644903414-67",

language = "English",

isbn = "9781644903414",

series = "Materials Research Proceedings",

publisher = "Association of American Publishers",

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Nasir, M, Alammari, AA, Alkulaibi, AK, Busaleh, MA, Ibrahim, M, Islam, ABMS , Alotaibi, KS & Anwar, F 2025, Early-age properties of silicomanganese fume and metakaolin-based cement mortar designed using RSM. in T Ayadat (ed.), Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions. Materials Research Proceedings, vol. 48, Association of American Publishers, pp. 617-625, 1st International Conference on Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions, 2024, Al Khobar, Saudi Arabia, 3/11/24. https://doi.org/10.21741/9781644903414-67

Early-age properties of silicomanganese fume and metakaolin-based cement mortar designed using RSM. / Nasir, Muhammad; Alammari, Ahmed Adil; Alkulaibi, Abdulrahman Khalid et al.
Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions. ed. / Tahar Ayadat. Association of American Publishers, 2025. p. 617-625 (Materials Research Proceedings; Vol. 48).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Early-age properties of silicomanganese fume and metakaolin-based cement mortar designed using RSM

AU - Nasir, Muhammad

AU - Alammari, Ahmed Adil

AU - Alkulaibi, Abdulrahman Khalid

AU - Busaleh, Mohammed Abdulghani

AU - Ibrahim, Mohammed

AU - Islam, A. B.M.Saiful

AU - Alotaibi, Khalid Saqer

AU - Anwar, Fahad

PY - 2025

Y1 - 2025

N2 - Contemporary and viable construction needs have shifted the interest of research towards utilizing unconventional materials sourced from industrial wastes or by-products. In this paper, two locally available waste materials, namely silicomanganese fume (SMF) and metakaolin (MK) were used as a partial replacement to the ordinary Portland cement (OPC) to optimize theiimpact on the flow and early-age compressive strength by varying their dosages and calcination temperature employing a Response Surface Methodology (RSM). A total of 29 mortar mixes suggested by RSM were prepared by varying SMF and MK content (0 to 30%), SMF and MK temperature (ambient to 700°C) at a constant sand to binder ratio of 2 and the water-to-cemenratio of 0.4. The experimental responses were used in the program to optimize the studied parameters, analyze the data statistically and develop prediction models. It was discovered that the flow is favored by the synergistic effect of high-volume SMF with low calcination temperature oMK with high calcination temperature. On the other hand, early strength development is favored by high-volume MK with high calcination temperature or moderate-volume SMF with moderate calcination temperature. This study will help promote valorization of solid waste materialsminimize energy consumption, preserve natural resources, lower carbon footprints in the concrete sector and possibly attain reasonable technical advantages.

AB - Contemporary and viable construction needs have shifted the interest of research towards utilizing unconventional materials sourced from industrial wastes or by-products. In this paper, two locally available waste materials, namely silicomanganese fume (SMF) and metakaolin (MK) were used as a partial replacement to the ordinary Portland cement (OPC) to optimize theiimpact on the flow and early-age compressive strength by varying their dosages and calcination temperature employing a Response Surface Methodology (RSM). A total of 29 mortar mixes suggested by RSM were prepared by varying SMF and MK content (0 to 30%), SMF and MK temperature (ambient to 700°C) at a constant sand to binder ratio of 2 and the water-to-cemenratio of 0.4. The experimental responses were used in the program to optimize the studied parameters, analyze the data statistically and develop prediction models. It was discovered that the flow is favored by the synergistic effect of high-volume SMF with low calcination temperature oMK with high calcination temperature. On the other hand, early strength development is favored by high-volume MK with high calcination temperature or moderate-volume SMF with moderate calcination temperature. This study will help promote valorization of solid waste materialsminimize energy consumption, preserve natural resources, lower carbon footprints in the concrete sector and possibly attain reasonable technical advantages.

KW - Compressive Strength

KW - Flow

KW - Material Design

KW - Modelling

KW - Statistical Analysis

KW - Supplementary Cementitious Materials

UR - https://www.scopus.com/pages/publications/105003144563

U2 - 10.21741/9781644903414-67

DO - 10.21741/9781644903414-67

M3 - Conference contribution

AN - SCOPUS:105003144563

SN - 9781644903414

T3 - Materials Research Proceedings

SP - 617

EP - 625

BT - Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions

A2 - Ayadat, Tahar

PB - Association of American Publishers

T2 - 1st International Conference on Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions, 2024

Y2 - 3 November 2024 through 5 November 2024

ER -

Nasir M, Alammari AA, Alkulaibi AK, Busaleh MA, Ibrahim M, Islam ABMS et al. Early-age properties of silicomanganese fume and metakaolin-based cement mortar designed using RSM. In Ayadat T, editor, Civil and Environmental Engineering for Resilient, Smart and Sustainable Solutions. Association of American Publishers. 2025. p. 617-625. (Materials Research Proceedings). doi: 10.21741/9781644903414-67

Early-age properties of silicomanganese fume and metakaolin-based cement mortar designed using RSM

Abstract

Publication series

Conference

UN SDGs

Keywords

Access to Document

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