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Vpliv mikrostrukturnih značilnosti na korozijske lastnosti aluminijevih zlitin utrjenih s kvazikristali : diplomsko delo
ID Drevenšek, Tim (Author), ID Markoli, Boštjan (Mentor) More about this mentor... This link opens in a new window, ID Bajt Leban, Mirjam (Comentor)

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Abstract
V diplomski nalogi je obravnavan vpliv mikrostrukturnih značilnosti na korozijske lastnosti aluminijevih zlitin, utrjenih s kvazikristali. Preiskovana je bila kvazikristalna zlitina Al-Mn-Cu-Mg-Si-Ti (z oznako QC). Kot referenca je bila uporabljena zlitina AlSi9Cu3 (s standardno oznako DIN226). Zlitini sta bili uliti v jekleno kokilo z nadzorovano ohlajevalno hitrostjo. Po pripravi vzorcev je bila opravljena karakterizacija mikrostrukture. Pri kvazikristalni zlitini je v mikrostrukturi prevladovala primarna faza s 5-števno simetrijo, ki predstavlja kvazikristalno fazo. Na zlitinah so bile opravljene meritve potenciala odprtega kroga, linearne polarizacije, impedančne spektroskopije in potenciodinamske polarizacije. Po 1 uri je zlitina QC dosegla potencial odprtega kroga -571,3±37,3 mV, zlitina DIN226 pa -544,8±22,6 mV. Pri meritvah linearne polarizacije je bila v zlitini QC gostota korozijskega toka 111,2±7,0 nA/cm2, pri zlitini DIN226 pa 92,9±31,8 nA/cm2. Meritve impedančne spektroskopije so pokazale vrednost impedance zlitine QC 247,8±15,6 kohm/cm2 in vrednost impedance zlitine DIN226 290,2±66 kohm/cm2. Pri meritvah potenciodinamske polarizacije je bila, s pomočjo Taflove ekstrapolacije, izmerjena vrednost gostote korozijskega toka za zlitino QC 145,1±18,0 nA/cm2 in za zlitino DIN226 145,8±28,2 nA/cm2. Zaradi neponovljivosti rezultatov so bile izračunane standardne deviacije. Z upoštevanjem le-teh je prišlo do sklepa, da ima kvazikristalna zlitina primerljivo dobre korozijske lastnosti kot komercialno zelo uspešna zlitina - AlSi9Cu3. Pri zlitini QC je korozija napadla predvsem fazo ?Al, v okolici delcev intermetalne spojine Al2Cu, in ne kvazikristalne faze, kar kaže na dobro korozijsko odpornost kvazikristalne faze. Za obe zlitini je bilo sicer značilno interkristalno napredovanje korozije.

Language:Slovenian
Keywords:kvazikristali, korozija, aluminijeve zlitine, mikrostruktura, elektrokemijske meritve
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:NTF - Faculty of Natural Sciences and Engineering
Place of publishing:Ljubljana
Publisher:T. Drevenšek
Year:2024
Number of pages:XII, 42 f.
PID:20.500.12556/RUL-161029 This link opens in a new window
UDC:669
COBISS.SI-ID:212067587 This link opens in a new window
Publication date in RUL:06.09.2024
Views:186
Downloads:69
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Secondary language

Language:English
Title:Influence of microstructural characteristics on the corrosion properties of aluminium alloys hardened with quasicrystals : diploma work
Abstract:
The influence of microstructural features on the corrosion properties of aluminium alloys hardened with quasicrystals is discussed in this Diploma work. The quasicrystalline alloy Al-Mn-Cu-Mg-Si-Ti (designated QC) was investigated. AlSi9Cu3 (DIN226 standard designation) was used as a reference. The two alloys were cast in a steel die with controlled cooling rate. After the preparation of the samples, the microstructure characterisation was carried out. In the quasicrystalline alloy, the microstructure was dominated by a primary phase with 5-fold symmetry, representing the quasicrystalline phase. Open-circuit potential, linear polarisation, impedance spectroscopy and potentiodynamic polarisation measurements were performed on the alloys. After 1 h, the QC alloy reached an open-circuit potential of -571,3±37,3 mV and the DIN226 alloy -544,8±22,6 mV. In the linear polarisation measurements, the corrosion current density was 111.2±7.0 nA/cm2 for alloy QC and 92.9±31.8 nA/cm2 for alloy DIN226. Impedance spectroscopy measurements showed an impedance value of 247,8±15,6 kohm/cm2 for alloy QC and 290,2±66 kohm/cm2 for alloy DIN226. The potentiodynamic polarisation measurements, using Tafel extrapolation, gave a corrosion current density value for the QC alloy of 145,1±18,0 nA/cm2 and for the DIN226 alloy of 145,8±28,2 nA/cm2. Due to the non-repeatability of the results, standard deviations were calculated. Taking these into account, it was concluded that the quasicrystalline alloy has comparably good corrosion properties to the commercially very successful AlSi9Cu3 alloy. In the case of the QC alloy, corrosion attacked mainly the αAl phase, in the vicinity of the Al2Cu intermetallic compound particles and not the quasicrystalline phase, indicating good corrosion resistance of the quasicrystalline phase. Both alloys were characterised by intergranular corrosion progression.

Keywords:quasicrystals, corrosion, aluminium alloys, microstructure, electrochemical measurements

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