Influence of Ground Calcium Carbonate Waste on the Properties of Green Self-Consolidating Concrete Prepared by Low-Quality Bagasse Ash and Rice Husk Ash

Lertwattanaruk, Pusit; Makul, Natt

doi:10.3390/ma14154232

Cited by 8 publications

(1 citation statement)

References 25 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The best composites were obtained using 3% sugarcane bagasse ash, 10% rice husk ash, 5% rice straw ash, and 10% Phragmites ash. In Lertwattanaruk & Makul (2021) [30] study, the introduction of rice husk ash and bagasse ash substituting a portion of cement allowed to get self-compacting concrete mixtures with optimal rheological characteristics and acceptable strength characteristics. The effectiveness of using such complex additives from several types of ash has also been confirmed by research [31][32][33][34].…”

Section: Introductionmentioning

confidence: 99%

Influence of Sunflower Seed Husks Ash on the Structure Formation and Properties of Cement Concrete

Shcherban',

Stel'makh,

Beskopylny

et al. 2024

Civ Eng J

View full text Add to dashboard Cite

The limitation of the application of non-renewable materials is one of the solutions to the problem of the sustainable evolution of civilization in the 21st century. Using additional binders in concrete obtained from plant waste will be economically and environmentally beneficial and will also allow us to move closer to achieving sustainable development goals. This study searches for rational composition components and a methodological approach regarding the technological characteristics to get the highest quality elements and prime concrete properties on the basis of sunflower seed husk ash (SSHA). Experimental concrete specimens were manufactured with partial Portland cement substitution with SSHA amounts ranging from 2% to 16% by weight in increments of 2%. This study focuses on investigating the density and workability of the concrete mixture, along with the compressive strength, concrete density, and water absorption. This article used granulometric, microscopic, and X-ray phase analysis methods. Including SSHA in all considered ranges reduces the slump in concrete mixtures. The optimal SSHA content in concrete is up to 12%. An 8% SSHA content has been found to deliver the most favorable mechanical characteristics of the concrete studied. The compressive strength of the investigated concrete has increased by 14.89%, and water absorption has decreased by 15.78%. Doi: 10.28991/CEJ-2024-010-05-08 Full Text: PDF

show abstract