IJIRCSTJournal International Journal of Innovative Research in Computer Science and Technology I S Volume 10 Issue 6 Civil Engineering English November - December 2022 N N Y 2022 10 31 Computer Sciences Potential of Soil Stabilization Using Ground Granulated Blast-Furnace Slag (GGBS) English Y 10 16 Anees Mumtaz English Y Er. Sakshi Bhatia English N https://doi.org/10.55524/ijircst.2022.10.6.2 Natural delicate soil also known as organic soft soil (OSS) has extensive negative geotechnical properties, for example, high water content, low shear strength, high natural matter, and low bearing limit and thus a critical cutting off high compressibility happens that makes it as one of the most troublesome soils for building structures over its normal state. As a result of these geotechnical issues of natural delicate soil, improvement instrument is so fundamental when the natural delicate soil exists to manage it as a dirt establishment. In this review, the physical and mechanical properties of the natural delicate soil are talked about. This principal objective of this study is to work on the strength of natural delicate soil by adding modern waste as a filler and concrete as a folio. Natural delicate soil are known to have a frail strength and an exceptionally high settlement issue. Notwithstanding, past explores have demonstrated the way that the strength of natural delicate soil could be improved by utilizing soil adjustment strategy. In this review, Soil adjustment has turned into the significant issue in development designing and the explores in regards to the viability of involving modern squanders as a stabilizer are quickly expanding. This concentrate momentarily depicts the reasonableness of the GGBS to be utilized in the nearby development industry in a method for limiting how much waste to be arranged to the climate causing natural contamination. A few structural designing lab tests are led to review the geotechnical properties of GGBS and strength gain when blended in with nearby mud test. An alternate extent of GGBS and soil test restored for 7 days brings about a strength gain. A superior comprehension of the properties of GGBS is acquired from the review and the tests demonstrates a superior strength and better properties of delicate soil test when settled. The impact of GGBS on the physical and geotechnical qualities of the dirt, for example, Atterberg limits, compaction boundaries (most extreme dry thickness (MMD) and ideal dampness content (OMC)) and soil strength (unconfined compressive strength (UCS)) has been researched. GGBS was included different rates (3, 6, 9 and 12%). Improvement levels were demonstrated by UCS testing did on examples following 7 days of relieving. English Compressive Strength, GGBS, Organic Soft Soil, Strength, Stabilization https://ijircst.org/abstract.php?article_id=1046