Corrosion inhibition of 5052 aluminium alloy by ascorbic acid : diploma thesis
Autor: | Oreb, Katarina |
---|---|
Přispěvatelé: | Gudić, Senka |
Jazyk: | chorvatština |
Rok vydání: | 2019 |
Předmět: |
aluminium
TEHNIČKE ZNANOSTI. Kemijsko inženjerstvo askorbinska kiselina electrochemical impedance spectroscopy (EIS) potentiodynamic polarization method linear polarization method aluminij elektrokemijska impedancijska spektroskopija (EIS) 5052 alloy potenciodinamička polarizacijska metoda electrochemical methods TECHNICAL SCIENCES. Chemical Engineering elektrokemijske metode AlMgCr alloys-corrosion inhibition ascorbic acid AlMgCr legure - inhibicija korozije Freundlichov model legura 5052 Freundlich's model metoda linearne polarizacije |
Popis: | Primjenom polarizacijskih metoda i elektrokemijske impedancijske spektroskopije ispitana je mogućnost inhibicije korozije 5052 aluminijske legure (AlMgCr) pomoću askorbinske kiseline (u granicama od 110 -6 do 110 -2 M) u 0.5 M NaCl otopini pri 20 o C. Određeni su korozijski potencijali, korozijska struja, polarizacijski otpor, otpor prijenosu naboja, kapacitet površinskog sloja i difuzija kroz površinski sloj. Izračunata je pokrivenost površine molekulama inhibitora te djelotvornost inhibicije korozije. Dobiveni rezultati su pokazali da askorbinska kiselina učinkovito usporava koroziju AlMgCr legure u kloridnoj otopini uz djelotvornost od 92 %. Nadalje, ustanovljeno je da askorbinska kiselina pripada miješanom tipu inhibitora s pojačanim utjecajem na anodnu reakciju. Mehanizam adsorpcije ispitivanog inhibitora opisan je Frundlichovom adsorpcijskom izotermom. Dobivena vrijednost za standardnu slobodnu energiju adsorpcije u iznosu ≈ -10 kJ mol -1 ukazuje na fizikalnu adsorpciju askorbinske kiseline na površinu AlMgCr legure u NaCl otopini. The corrosion inhibition performance of the ascorbic acid (in range from 110 -6 to 110 -2 M) on 5052 aluminium alloy (AlMgCr) corrosion in neutral 0.5 M solution at 20 o C was investigated using potentiodynamic and electrochemical impedance spectroscopy measurements. Corrosion potential, corrosion current, polarization resistance, charge transfer resistance, capacity of surface layer, and diffusion through the surface layer were determined. The surface coverage of the inhibitor molecules and inhibition efficiency were calculated. The obtained results show that ascorbic acid effectively inhibited the corrosion reaction of AlMgCr alloy in the chloride solution with an inhibition efficiency of up to 92 %. Furthermore, ascorbic acid was found to function essentially as a mixed type with a higher influence on anodic reaction. The adsorption behaviour of investigated inhibitor can be described by the Frundlich adsorption isotherm. The adsorption free energy closes to -10 kJ mol -1 indicates physical adsorption of the ascorbic acid on AlMgCr aluminium alloy surface in NaCl solution. |
Databáze: | OpenAIRE |
Externí odkaz: |