Title Optimiranje otpornosti na koroziju visokočiste aluminijeve oksidne keramike Title (english) Optimization of corrosion resistance of high purity alumna ceramics Author Ivana Ropuš316641400 Mentor Lidija Ćurković (mentor)Committee member Darko Landek (predsjednik povjerenstva)Committee member Lidija Ćurković (član povjerenstva)Committee member Stanislav Kurajica (član povjerenstva)Granter University of Zagreb Defense date and country 2021-06-07, Croatia Scientific / art field, TECHNICAL SCIENCES Universal decimal classificationUDC ) 620 - Materials testing. Power stations. Economics of energy 666 - Glass industry. Ceramics. Cement and concrete Abstract U radu su oblikovani sirovci visokočiste aluminijeve oksidne (Al2O3) keramike hladnim
izostatičkim prešanjem. Ispitan je utjecaj konvencionalnog sinteriranja (električna peć) i
nekonvencionalnog sinteriranja (hibridna mikrovalna peć) na mikrostrukturu, gustoću,
mehanička svojstva (tvrdoća, žilavost, indeks krhkosti) i otpornost na koroziju Al2O3 keramike.
Otpornost na koroziju Al2O3 keramike sinterirane konvencionalnim (EP-Al2O3) i
nekonvencionalnim (MP-Al2O3) postupcima određena je izlaganjem različitim
koncentracijama nitratne kiseline (0,5 mol dm-3, 1,25 mol dm-3 i 2 mol dm-3) te različitim
temperaturama (25, 40 i 55 °C) do 240 sati. Potom su određene masene koncentracije iona Al3+,
Ca2+, Fe3+, Mg2+, Na+ i Si4+ eluiranih iz Al2O3 keramike atomskom emisijskom spektrometrijom
uz induktivno spregnutu plazmu.
Otpornost na koroziju Al2O3 keramike procijenjena je na temelju (i) mjerenja masenih
koncentracija eluiranih iona, (ii) analize stupnjeva otapanja iona, (iii) određivanja konstanti
brzina korozije, (iv) određivanja energija aktivacije i (v) postignutih mikrostruktura u dva
postupka sinteriranja.
Za procjenu parametara otpornosti na koroziju u promatranom eksperimentalnom prostoru
odabranog sustava „ispitni uzorak - korozivni medij“ korištena je metoda odzivnih površina.
Izlaganje Al2O3 keramike korozivnom mediju provedeno je prema Box-Behnken planu pokusa.
Potom je provedena analiza varijance EP-Al2O3 i MP-Al2O3 keramike kako bi se odredila
značajnost pojedinih članova modela te su određene regresijske funkcije. Postupkom
eksperimentalne optimizacije određeni su uvjeti postizanja maksimalne otpornosti na koroziju
konvencionalno i nekonvencionalno sinterirane Al2O3 keramike.
Visokočista EP-Al2O3 keramika, s većim kristalnim zrnima i porama te manjom relativnom
poroznošću, pokazuje bolju otpornost na koroziju pri višim koncentracijama HNO3, dok je MPAl2O3
keramika, koja sadrži sitnija zrna i pore te višu relativnu poroznost, kemijski postojanija
pri nižim koncentracijama HNO3.
Kiseli korozivni medij nije bitno utjecao na tvrdoću ispitivane Al2O3 keramike.
Dobivenim rezultatima potvrđena je hipoteza o mogućnosti proizvodnje visokočiste Al2O3
keramike konvencionalnim i nekonvencionalnim postupcima sinteriranja s povoljnom
mikrostrukturom za primjenu u kiselom korozivnom mediju.
Abstract (english) In this thesis, high purity alumina (Al2O3) ceramic green bodies were compacted by cold
isostatic pressing (CIP). Impact of conventional (electric kiln) and nonconventional (hybrid
microwave kiln) sintering on microstructure, density, mechanical properties (hardness, fracture
toughness, brittleness index) and corrosion resistance of alumina ceramics was investigated.
Corrosion resistance of alumina ceramics sintered by conventional (EP-Al2O3) and nonconventional
methods (MP-Al2O3) was determined by its exposure to different concentrations
of nitric acid (0,5 mol dm-3, 1,25 mol dm-3 and 2 mol dm-3) and different temperatures (25, 40
and 55 °C) up to 240 h. Afterwards, mass concentrations of Al3+, Ca2+, Fe3+, Mg2+, Na+ and Si4+
ions eluted from Al2O3 ceramics were determined by inductively coupled plasma atomic
emission spectrometry (ICP-AES).
Corrosion resistance of Al2O3 ceramics was evaluated by (i) measurements of mass
concentrations of eluted ions, (ii) analysis of degrees of dissolution of ions, (iii) determination
of corrosion rate constants, (iv) determination of activation energies of the corrosion processes
and (v) analysis of microstructures obtained by means of two sintering methods.
Response surface methodology was used for optimization of parameters within experimental
“sample-corrosive media” area. Exposure of Al2O3 ceramics to corrosive media was conducted
according to Box-Behnken design. Afterwards, analysis of variance of EP-Al2O3 and MP-Al2O3
ceramics was carried out to define the significance of each factor of the model and to determine
regression functions. Optimization was used to determine the parameters to achieve maximal
corrosion resistance of conventionally and non-conventionally sintered Al2O3 ceramics.
High purity EP-Al2O3 ceramics, containing bigger grains and pores, as well as lower relative
porosity, showed higher corrosion resistance at higher concentrations of nitric acid, while
MP-Al2O3 ceramics, containing smaller grains and pores, as well as higher relative porosity,
showed higher chemical resistance at lower HNO3 concentrations.
Acid corrosive media did not affect significantly the hardness of examined Al2O3 ceramics.
Obtained results confirmed hypothesis of this research that is possible to produce high purity
alumina ceramics by conventional and non-conventional sintering methods with favourable
microstructure for application in acid corrosive media.
Keywords
aluminijev oksid (Al2O3)
konvencionalno sinteriranje
hibridno mikrovalno sinteriranje
mikrostruktura
mehanička svojstva
korozija keramike
metoda odzivnih površina
Keywords (english)
alumina (Al2O3)
conventional sintering
hybrid microwave sintering
microstructure
mechanical properties
corrosion of ceramics
response surface methodology
Language croatian URN:NBN urn:nbn:hr:235:692743 Study programme Title: Mechanical Engineering and Naval Architecture Type of resource Text File origin Born digital Access conditions Open access Terms of use Created on 2021-07-14 09:25:45
