Jūratė Čėsnienė scite author profile

Jūratė Čėsnienė

5Publications

50Citation Statements Received

67Citation Statements Given

How they've been cited

128

How they cite others

120

Affiliations

Lithuanian Energy Institute

Publications

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A Review of the Possible Applications of Nanotechnology in Refractory Concrete

Antonovič

Pundienė

Stonys

et al. 2010

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This article reviews the manufacturing nanotechnologies of modern refractory concretes and some other cementitious materials. The main part of the article focuses on the results obtained by the authors who analyzed the application of nanotechnology for manufacturing refractory concretes and examined the influence of nanostructure formation in the binding material on the properties of refractory concretes. In one case, investigations were carried out using two‐component (sodium silicate solution mixed with dicalcium silicate) and three‐component (sodium silicate solution mixed with dicalcium silicate plus calcium aluminate cement) binding materials, whereas in other case, multi‐component material, middle cement refractory concrete with mullite aggregates, microsilica and additives of single and hybrid deflocculant (polycarboxylate ether Castament FS20 and sodium tripolyphosphate) were researched. Preliminary investigations showed that the three‐component binding material under development hardens unlike the two‐component material as one of the binding components (combination of sodium silicate solution and dicalcium silicate) hardens very fast and affects the hydration process of the other component, calcium aluminate cement, which has a powerful impact on the whole structure of the already hardened material. The limited amount of water in the hardening structure provides conditions for the formation of the initial nanoclusters and nanolayers of amorphous hydrates. The application of nanotechnology in manufacturing refractory concretes has enabled to increase compressive strength 3 times – from 55 MPa to 165 MPa. Santrauka Straipsnyje apžvelgiamos per pastaraji dešimtmeti sukurtos ugniai atspariu betonu ir kai kuriu kitu cementiniu medžiagu gamybos nanotechnologijos, kurios padeda nagrineti nanostruktūru, susidariusiu kietejant šiu betonu rišamajai medžiagai, itaka fizikinems betonu charakteristikoms. Detaliau apžvelgiami rezultatai, gauti šio straipsnio autoriu, nagrinejusiu nanotechnologiju taikyma ugniai atspariu betonu gamyboje tiriant nanostruktūru susidarymo, kietejant ugniai atspariu betonu rišamajai medžiagai bei ugniai atspariems betonams su mulito užpildu, itaka šiu medžiagu savybems. Autoriu tyrimai atlikti naudojant dvinkomponente (natrio silikato tirpalo ir dikalcio silikato) bei trikomponente (natrio silikato tirpalo, dikalcio silikato ir aliuminatinio cemento) rišamaja medžiaga bei vidutinio cemento kiekio ugniai atsparu betona su SiO2 mikrodulkiu ir hibridinio deflokulianto (natrio tripolifosfatu ir polikarboksilato eteriu) priedu. Preliminarūs tyrimai parode, kad trikomponentis rišiklis kieteja kitaip nei dvikomponentis, nes viena iš rišamuju daliu (natrio silikato tirpalo ir dikalcio silikato kompozicija) kieteja labai greitai ir veikia kito komponento (aliuminatinio cemento) hidratacijos eiga, o tai turi didele itaka visai kietejančiai struktūrai. Ribotas vandens kiekis kietejančioje struktūroje padeda šalia amorfiniu hidratu formuotis nanoklasteriams ir nanosluoksniams. Pritaikius nanotechnologija ugniai atspariu betonu gamyboje, pavyko gerokai padidinti ju termini atsparuma (beveik tris kartus) ir gniuždomaji stipri (nuo 55 MPa iki 165 MPa).

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Cement substitution by organoclay – The role of organoclay type

Kalpokaitė-Dičkuvienė

Lukošiūtė

Čėsnienė

et al. 2015

Cement and Concrete Composites

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Hydration of cement with superabsorbent polymers

Esteves

Lukošiūtė

Čėsnienė

2014

J Therm Anal Calorim

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Expanded Polystyrene Foam Formed from Polystyrene Beads Coated with a Nanocrystalline SiO₂ Film and the Analysis of Its Moisture Adsorption and Resistance to Mechanical Stress

Varnagiris

Donėlienė²,

Tučkutė

et al. 2017

Polymer-Plastics Technology and Engineering

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Utilization of sewage sludge-biomass gasification residue in cement-based materials: effect of pozzolant type

Kalpokaitė-Dičkuvienė

Lukošiūtė

Brinkienė

et al. 2017

Environmental Technology

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In this study, the viability to utilize the residue, obtained from a sewage sludge (SS) and biomass combustion/gasification plant (GR), in cement-based materials was analysed. Two pozzolanic materials were selected to make GR more recyclable: metakaolin (MK) and spent catalyst waste (Z), received from fluidized-bed catalytic cracking process. Functional and environmental properties of standard cement pastes and mortars as well as binary and ternary combinations of GR with MK and Z were assessed. Results showed that enhanced mechanical strength, reduced water absorption and heavy metals release were obtained for compositions when GR was combined with one of the pozzolanic material MK or Z. Microstructural analysis revealed that due to addition of pozzolan the surface of GR particles was covered by a layer of hydration products. In particular, the use of MK led to the formation of more porous layer whereas application of Z tends to the formation of a dense-layered structure on the surface of GR. N sorption results showed that contrary to MK the incorporation of Z into cement composition with GR reduced volume of small capillary pores, and therefore, resulted in lower water absorption and heavy metals release. The obtained results suggest that the application of Z appears to be advantageous pozzolan for the stabilization of SS-biomass gasification residue in cement-based materials.

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