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Title:Optimizacija postopkov končne obdelave v proizvodnji pigmenta TiO2 : magistrsko delo
Authors:ID Kugler, Jaka (Author)
ID Škerget, Mojca (Mentor) More about this mentor... New window
ID Veronovski, Nika (Comentor)
Files:.pdf MAG_Kugler_Jaka_2021.pdf (4,04 MB)
MD5: 4B483FAE36B78F0845CD1B74AB55501C
PID: 20.500.12556/dkum/d5fd86e0-76dd-4be1-843d-9352327ed2d8
 
Language:Slovenian
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FKKT - Faculty of Chemistry and Chemical Engineering
Abstract:Magistrsko delo prikazuje raziskavo o optimizaciji postopkov končne obdelave pigmenta titanovega dioksida. Osredotočili smo se predvsem na optimizacijo postopkov omakanja ter na anorganske in organske površinske obdelave pigmenta za uporabo v tiskarskih barvah. TiO2 pigmenti so običajno veliki nekje med 150 in 300 nm, vendar zlahka aglomerirajo v vodnih medijih, kar pa je odvisno od pH suspenzije delcev TiO2 in uporabe površinsko aktivnih sredstev. Da bi dosegli najboljše lastnosti tiskarskih barv je potrebno delce ločiti drug od drugega. V ta namen je treba v nadzorovanih pogojih izvajati postopke omakanja in površinske obdelave. Z laboratorijskim delom smo ugotovili, da zniževanje pH suspenzije kalcinata poveča tvorbo aglomeratov delcev TiO2. Preučili smo tudi vpliv različnih površinsko aktivnih sredstev, ki izboljšajo disperzibilnost v postopku omakanja. Anorganska površinska obdelava je bila izvedena z Al2O3, katerega vir sta bila prekurzorja NaAlO2 in Al2(SO4)3. Preučili smo vpliv kontroliranih in nekontroliranih pogojev na anorgansko površinsko obdelavo in kakšne so razlike, če uporabljamo samo natrijev aluminat ali natrijev aluminat in aluminijev sulfat skupaj. Organsko površinsko obdelavo smo izvedli z različnimi površinsko aktivnimi snovmi. Uspešnost površinske obdelave in morfologijo delcev TiO2 smo določili s pomočjo presevne in vrstične mikroskopije. S pomočjo aparature za merjenje zeta potenciala smo določali spremembe elektrokemičnih lastnosti delcev TiO2. Spremljali pa smo tudi velikost in porazdelitev delcev pigmenta. Optične lastnosti pigmentov TiO2 smo določali z metodami določevanja efektivnosti sipanja svetlobe, opacitete, podtona in sijaja v tiskarskih barvah. Kontrolirana anorganska površinska obdelava (pH in temperatura) z aluminijem zmanjša porazdelitev velikosti delcev TiO2 in izboljša sposobnost dispergiranja delcev TiO2 v vodi. Pri procesu organske površinske obdelave pa smo z določenimi modifikatorji izboljšali površinsko napetost pigmenta TiO2, disperzibilnost pigmenta v vodi in optične lastnosti pigmenta v tiskarskih barvah.
Keywords:titanov dioksid, pigment, površinska obdelava, tiskarske barve, SEM analiza, efektivnost sipanja svetlobe
Place of publishing:Maribor
Place of performance:Maribor
Publisher:[J. Kugler]
Year of publishing:2021
Number of pages:X, 64 str.
PID:20.500.12556/DKUM-80442 New window
UDC:667.622:661.882(043.2)
COBISS.SI-ID:80866307 New window
Publication date in DKUM:06.10.2021
Views:1204
Downloads:195
Metadata:XML DC-XML DC-RDF
Categories:KTFMB - FKKT
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Licences

License:CC BY 4.0, Creative Commons Attribution 4.0 International
Link:http://creativecommons.org/licenses/by/4.0/
Description:This is the standard Creative Commons license that gives others maximum freedom to do what they want with the work as long as they credit the author.
Licensing start date:13.09.2021

Secondary language

Language:English
Title:Optimization of finishing processes in TiO2 pigment production
Abstract:The master's thesis presents research on the optimization of titanium dioxide pigment finishing processes. The main focus is on the optimization of wetting processes and on processes of inorganic and organic surface treatments of pigments for the use in printing inks. The size of TiO2 pigments is usually somewhere between 150 and 300 nm, but the particles readily agglomerate in aqueous media, depending on the pH of the suspension and the use of surfactants. In order to achieve the best printing inks, it is necessary to prevent agglomeration. To this end, wetting and surface treatment operations must be carried out under controlled conditions. In the research we found out that lowering the pH of the calcinate suspension increases the formation of agglomerates of TiO2 particles. Furthermore the influence of various surfactants that improve the dispersibility in the wetting process was also examined. Inorganic surface treatment was performed with Al2O3, the source of which were the precursors NaAlO2 and Al2(SO4)3. It has been observed, what is the influence of controlled and uncontrolled process conditions on inorganic surface treatment and what are the differences obtained if only sodium aluminate or both, sodium aluminate and aluminium sulphate are used. Organic surface treatment was performed with various surfactants. The efficiency of surface treatment and morphology of TiO2 particles were determined by transmission and scanning microscopy. Changes in the electrochemical properties of TiO2 particles were determined using the apparatus for measuring the zeta potential. The size and size distribution of the pigment particles were also monitored. The optical properties of TiO2 pigments were determined by using methods for determining the light scattering efficiency, opacity, undertone and gloss in printing inks. Controlled inorganic surface treatment (pH and temperature) with aluminium reduces the size distribution of TiO2 particles and improves the ability to disperse TiO2 particles in water. In the process of organic surface treatment, we improved the surface tension of the pigment TiO2, the dispersibility of the pigment in water and the optical properties of the pigment in printing inks by using certain modifiers.
Keywords:titanium dioxide, pigment, surface treatment, printing inks, SEM analysis, light scattering efficiency


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