0000000000673642

AUTHOR

Gaida Maruta Sedmale

showing 6 related works from this author

Comparison of Structure and Properties of Differently Treated Illite Clay and Products

2014

The investigation is focused on modification of the structure 2:1 sheet silicates - illite clay by subjecting them to chemical and microbiological impact. It is shown that alkaline activation of illite clay by sodium hydroxide leads to the slight structural changes mainly characterized by water link changes. The effect of bacteria Ps. fluorescens AM PS11on structure changes of illite is small and is influenced on rheology of treated clay.It is shown that the influence of chemical treatment on porosity, bulk density and increase of compressive strength of sintered ceramic samples is notable.

inorganic chemicalsMaterials scienceChemical treatmentMineralogyengineering.materialcomplex mixturesBulk densitychemistry.chemical_compoundCompressive strengthRheologychemistryChemical engineeringSodium hydroxidevisual_artIllitevisual_art.visual_art_mediumengineeringsense organsCeramicPorosityclay chemical biological impact ceramicMaterials Science and Applied Chemistry
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Comparative study of illite clay and illite-based geopolymer products

2011

Quaternary (Q-clay) clayey deposits are one of the dominating parts of mineral raw materials of the sedimentary cover at present area of Latvia. These clays can be characterised by illite content up to 75-80 %. Two ways for use of illite clays were studied: conventional and geopolymers method. Purpose of the second mentioned method was showing the influence of alkali (KOH) on the transformation of Q-clay/illite structure. Obtained products were investigated by IR–spectroscopy, DTA and XRD, pore size distribution was determined as well. Some ceramic properties and compressive strength were determined and compared. IR-spectrum showed the effect of alkali on the transformation of Q-clay/illite…

Materials scienceCoordination numberAnalytical chemistryMineralogyengineering.materialAlkali metalBulk densityGeopolymerCompressive strengthvisual_artIllitevisual_art.visual_art_mediumengineeringCeramicAbsorption (chemistry)IOP Conference Series: Materials Science and Engineering
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Application of differently treated illite and illite clay samples for the development of ceramics

2017

Abstract This study represents the results of investigations on the possible geopolymer formation of an alkali, mechanically and thermally (including hydrothermally) activated 2:1 layer silicate, namely, illite and illite clay, for low-temperature ceramic products. The main starting materials were Quaternary illite clay samples taken from the Apriki–Laza pit in Latvia. For the investigations, an intermediate composition of illite clay and separated illite were used. The following research methods for the treated illite and illite clay were used: the phase transition was analysed by differential thermal analysis, while the phase compositions, microstructures and structures were analysed by X…

MineralogySintering020101 civil engineeringGeology02 engineering and technologyAluminium silicateengineering.material021001 nanoscience & nanotechnologySilicate0201 civil engineeringGeopolymerchemistry.chemical_compoundchemistryChemical engineeringGeochemistry and PetrologyDifferential thermal analysisvisual_artIlliteengineeringvisual_art.visual_art_mediumCeramic0210 nano-technologyClay mineralsGeologyApplied Clay Science
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Suitability of Illite Based Clays of Latvia for Chemical and Thermal Activation

2014

Materials has been synthesized in the temperature range from 600-800 0C from illite based clays of Latvia under activation of KOH and NaOH solutions (4-6 M). Compressive strength and apparent porosity were measured. The effect of the concentration of KOH and NaOH solutions on the material mechanical properties was investigated by means of infrared spectroscopy (IR). Compressive strength data of the materials showed that via such activation building materials with good quality can be obtained.

Compressive strengthMaterials scienceIlliteThermalengineeringInfrared spectroscopyMineralogyillite based clays chemical activation thermal activation compressive strengthengineering.materialComposite materialAtmospheric temperature rangePorosityMaterial Science and Applied Chemistry
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Influence of Bacteria <i>Pseudomonas fluorescens</i> on the Properties of Latvian Clay

2014

Wide varieties of bacteria are able to produce extracellular polymeric substances (EPS) which are mostly composed of polysaccharides. It is suggested that EPS substances can alter certain clay soil properties due to their ability to adhere to the surface of mineral particles. Most common used microorganisms by the researchers for this purpose are of either genus Bacillus or genus Pseudomonas. In this study growth of bacteria P. fluorescens AM PS11 culture in locally obtained clay is studied for the purpose of establishing their influence on rheological properties of clay. An attempt to evaluate it has been made using FT-IR and XRD. Change in plasticity of clay using Atterberg limits method …

chemistry.chemical_classificationMaterials sciencebiologyMechanical EngineeringMicroorganismPseudomonas fluorescensAtterberg limitsGenus PseudomonasPolysaccharidebiology.organism_classificationcomplex mixturesExtracellular polymeric substanceRheologychemistryMechanics of MaterialsGeneral Materials ScienceFood scienceBacteriaKey Engineering Materials
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Effect of sintering process and additives on the properties of cordierite based ceramics

2013

It is possible to obtain cordierite ceramics with high temperature synthesis using both synthetic and raw natural materials. This paper discusses the possibilities to obtain cordierite ceramics, replacing part of required oxides with raw materials from various Latvian deposits of dolomite and clay. The obtained raw cordierite powders were ground in two modes (3 and 12 hours) and fired at 1200 °C. Ceramic samples were characterized by hydrostatic weighting method; crystalline phase composition was studied by XRD. Obtained samples were evaluated by their mechanical (compressive) strength and linear coefficient of thermal expansion (CTE). Thermal shock resistance was tested using water quenchi…

QuenchingThermal shockMaterials scienceMetallurgySinteringYoung's modulusCordieriteengineering.materialThermal expansionsymbols.namesakeCompressive strengthvisual_artsymbolsengineeringvisual_art.visual_art_mediumCeramicIOP Conference Series: Materials Science and Engineering
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