Enhancement of the rheological properties of bentonite mud using natural polymers

Rufai, Muhammed; Oduola, Koyejo

doi:10.30574/gjeta.2021.7.1.0051

Global J. Eng. Tech. Adv.

2021

DOI: 10.30574/gjeta.2021.7.1.0051

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Enhancement of the rheological properties of bentonite mud using natural polymers

Muhammed Rufai¹,

Koyejo Oduola²

Abstract: This research work focuses on finding more effective polymers that can improve the rheological properties of bentonite mud. Various mud samples were formulated with natural polymers obtained from corn starch, cassava starch, purple potato starch, yellow potato starch and saw dust consisting of different masses which were not treated or purified by any chemical method before and after preparation along with the control mud. Rheology tests were carried out to determine the plastic viscosity, apparent viscosity, … Show more

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Cited by 4 publications

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Preparation and Properties of Geopolymer Matrix Composites Containing Waste Olivine Sands from a Metallurgical Process

Furlani

Rondinella

Aneggi

et al. 2022

J. Sustain. Metall.

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Several geopolymer-based materials were produced and characterized by mixing metakaolin, a commercial sodium silicate solution, a sodium hydroxide solution, and a loose waste olivine sand deriving from a metallurgical process devoted to the production of a high manganese steel. Olivine sand was added either in the as-received form or after a thermal treatment at 900 °C. Hardened materials containing different amounts of olivine sand were characterized and their behavior was compared to that of a blank geopolymeric matrix. Materials were examined by X-ray diffraction, Fourier Transform Infrared Radiation, and optical and scanning electron microscope investigation; mechanical compressive strength was discussed taking into account water absorption and microstructure. It has been observed that all compositions containing the as-received olivine sands badly perform, whereas those prepared using thermally treated olivine have higher compressive strength than the reference blank composition. In particular, samples with composition containing 100 g of metakaolin and 75 g of olivine displayed the best overall behavior. Graphical Abstract

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Preparation and Properties of Geopolymer Matrix Composites Containing Waste Olivine Sands from a Metallurgical Process

Furlani

Rondinella

Aneggi

et al. 2022

J. Sustain. Metall.

View full text Add to dashboard Cite

show abstract

*Synthesis, characterization, and mechanistic study of a new highly-stable comb-like polymeric surfactant in enhanced oil recovery

Soleimani,

Abdalisousan,

KhaksarManshad

et al. 2024

Geoenergy Science and Engineering

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A review on 3D printing with clay and sawdust/natural fibers: Printability, rheology, properties, and applications

Gyawali,

Haghnazar,

Akula

et al. 2024

Results in Engineering

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Enhancement of the rheological properties of bentonite mud using natural polymers

Cited by 4 publications

References 4 publications

Preparation and Properties of Geopolymer Matrix Composites Containing Waste Olivine Sands from a Metallurgical Process

Preparation and Properties of Geopolymer Matrix Composites Containing Waste Olivine Sands from a Metallurgical Process

*Synthesis, characterization, and mechanistic study of a new highly-stable comb-like polymeric surfactant in enhanced oil recovery

A review on 3D printing with clay and sawdust/natural fibers: Printability, rheology, properties, and applications

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