Soil Stabilization Using Industrial Waste (GGBS, Red Mud and Marble Dust)

Q: How many days will it take for my paper to be published?

The review time for papers is not fixed. However, if the paper is accepted and the author completes the processing charges formalities, the paper will be published within a few working days.

Q: I would like to receive a hard copy of the journal materials. Are there any additional charges?

You can log in to the author portal and pay 500 INR to receive the hard copy materials.

Q: Do IJIRT provide DOI for published papers?

Yes, we provide a DOI (Digital Object Identifier) upon request. Authors can contact us at editor@ijirt.org after publication to obtain the DOI for their paper.

Q: Do we provide Published Journal Print copy?

No, we do not provide Published Journal Print copy.

Q: Why am I not able to register to IPN?

There might be three potential reasons: 1) You did not verify your mobile number before clicking on the register button. Please click on the Verify sign immediately after entering your mobile number and complete OTP verification. 2) You are an international author. The IPN is enabled only for Indian Authors. 3) You did not tick the Terms & Conditions checkbox. Please make sure to select it before clicking on the register button.

Q: Where can I get a sample publication certificate?

Please login to Author Home, where you will find the sample copy of the publication certificate and confirmation letter.

Q: I made the processing charges payment and the amount is deducted from my bank account, but it is not updated in my Author Home. What should I do?

Please wait for one working day. We will check at our end and update the status. If it is still not updated after one working day, please email your Razorpay Payment ID along with the payment proof snapshot to editor@ijirt.org.

Q: Where can I sign the Copyright and Undertaking Declaration?

To publish your paper in IJIRT, copyright and undertaking is mandatory. You can digitally sign both by logging into Author Home and checking the right-side section.

Q: How many pages are allowed?

There is no page limit. However, to enhance quality and reader experience, we recommend keeping the paper up to 30 pages (single or double column) without extra charges.

Q: How many authors per paper are allowed?

Up to 13 authors are allowed without extra charges.

Prof. Daule Anil D.; Sahil Suresh Kale; Karan Pramod Kotkar; Vaibhav Dnyaneshwar Tagad; Sayali Nandkumar Kadam

Soil Stabilization Using Industrial Waste (GGBS, Red Mud and Marble Dust)

Authors: Prof. Daule Anil D., Sahil Suresh Kale, Karan Pramod Kotkar, Vaibhav Dnyaneshwar Tagad, Sayali Nandkumar Kadam

Unique Paper ID: 205544
Volume: 13
Issue: 1
PageNo: 6889-6892

Keywords: Soil Stabilization GGBS Red Mud Marble Dust Industrial Waste CBR UCS Sustainable Construction.

Abstract:
Soil stabilization is an important geotechnical engineering technique used to improve the engineering properties of weak soils for construction purposes. Rapid urbanization and infrastructure development have increased the demand for stable foundation materials, while the availability of suitable natural soils has decreased. Simultaneously, industries generate large quantities of waste materials such as Ground Granulated Blast Furnace Slag (GGBS), Red Mud, and Marble Dust, which create environmental disposal challenges. This study investigates the utilization of these industrial by-products as sustainable stabilizing agents for clayey soil. Laboratory investigations were carried out on natural clayey soil mixed with different proportions of GGBS, Red Mud, and Marble Dust. The engineering properties of soil were evaluated through Atterberg Limit Tests, Standard Proctor Compaction Tests, Unconfined Compressive Strength (UCS) Tests, and California Bearing Ratio (CBR) Tests. The results indicated significant improvements in soil behavior. The optimum combination of 15% GGBS, 10% Red Mud, and 15% Marble Dust produced maximum improvement in strength and bearing capacity. UCS increased from 110kN/m² to 275kN/m², while CBR increased from 4.8% to 13.5%. The study demonstrates that industrial waste materials can successfully replace conventional stabilizers, reduce construction costs and environmental impacts while promote sustainable development.

Download article

email to a friend

Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{205544,
        author = {Prof. Daule Anil D. and Sahil Suresh Kale and Karan Pramod Kotkar and Vaibhav Dnyaneshwar Tagad and Sayali Nandkumar Kadam},
        title = {Soil Stabilization Using Industrial Waste (GGBS, Red Mud and Marble Dust)},
        journal = {International Journal of Innovative Research in Technology},
        year = {2026},
        volume = {13},
        number = {1},
        pages = {6889-6892},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=205544},
        abstract = {Soil stabilization is an important geotechnical engineering technique used to improve the engineering properties of weak soils for construction purposes. Rapid urbanization and infrastructure development have increased the demand for stable foundation materials, while the availability of suitable natural soils has decreased. Simultaneously, industries generate large quantities of waste materials such as Ground Granulated Blast Furnace Slag (GGBS), Red Mud, and Marble Dust, which create environmental disposal challenges. This study investigates the utilization of these industrial by-products as sustainable stabilizing agents for clayey soil. Laboratory investigations were carried out on natural clayey soil mixed with different proportions of GGBS, Red Mud, and Marble Dust. The engineering properties of soil were evaluated through Atterberg Limit Tests, Standard Proctor Compaction Tests, Unconfined Compressive Strength (UCS) Tests, and California Bearing Ratio (CBR) Tests. The results indicated significant improvements in soil behavior. The optimum combination of 15% GGBS, 10% Red Mud, and 15% Marble Dust produced maximum improvement in strength and bearing capacity. UCS increased from 110kN/m² to 275kN/m², while CBR increased from 4.8% to 13.5%. The study demonstrates that industrial waste materials can successfully replace conventional stabilizers, reduce construction costs and environmental impacts while promote sustainable development.},
        keywords = {Soil Stabilization, GGBS, Red Mud, Marble Dust, Industrial Waste, CBR, UCS, Sustainable Construction.},
        month = {June},
        }

Download .bib

Cite This Article

D., P. D. A., & Kale, S. S., & Kotkar, K. P., & Tagad, V. D., & Kadam, S. N. (2026). Soil Stabilization Using Industrial Waste (GGBS, Red Mud and Marble Dust). International Journal of Innovative Research in Technology (IJIRT), 13(1), 6889–6892.

18 Jun, 2026

Experimental Investigation on Recycled Concrete Aggregate with Bituminous Mixture

17 Jun, 2026

TREATMENT OF DAIRY WASTEWATER USING MIXED ADSORBENTS

17 Jun, 2026

EVOLUTION OF SEISMIC RESPONSE OF RCC BUILDINGS WITH AND WITHOUT INFILL WALLS

26 May, 2026

Performance Evaluation of Stone Mastic Asphalt (SMA) For Heavy Traffic Roads in Indian Conditions

16 May, 2026

Variable Acceleration Modelling in Electric Vehicles

09 May, 2026

Experimental Investigation on Biaxial Load Capacity of CFST Columns with and without Shear Connectors

08 May, 2026

Load Distribution Analysis in Modern Bridge Structures

06 May, 2026

Smart Analysis of Beam Support Reactions Using AI Tools

02 Jun, 2025

GEO TEXTILE MATERIAL USED IN ROAD CONSTRUCTION

14 May, 2025

Enhancing Concrete Durability against Wastewater-Induced Corrosion

Impact Factor
8.412 (Year 2026)

An UGC-Compliant International Research Journal

Join Our IPN

IJIRT Partner Network

Submit your research paper and those of your network (friends, colleagues, or peers) through your IPN account, and receive 800 INR for each paper that gets published.

Join Now