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1.
INHIBICIJSKE LASTNOSTI NEIONSKEGA SURFAKTANTA TRITON-X-100, PRI POVIŠANI TEMPERATURI
Gregor Žerjav, 2009, diplomsko delo

Opis: S klasično potenciodinamsko metodo smo preučevali vpliv neionskega surfaktanta TRITON-X-100 na korozijo feritnega nerjavnega jekla X4Cr13 v 1M H2SO4 pri petih različnih temperaturah. Kritično miceljno koncentracijo uporabljenega surfaktanta smo določili na osnovi merjenja površinske napetosti. Inhibicijsko učinkovitost smo izračunali pri različnih temperaturah in sicer v območju od 25 oC do 45 oC. Na podlagi meritev ugotavljamo, da učinkovitost inhibicije raste z večanjem koncentracije surfaktanta TRITON-X-100, medtem ko z naraščanjem temperature le–ta upada. Adsorpcija surfaktanta TRITON-X-100 sledi Flory-Hugginsovi adsorpcijski izotermi. Z uporabo termodinamskih enačb smo izračunali termodinamske parametre (ΔGads,, ΔHads , ΔSads). Nenazadnje smo izračunali tudi arrheniusov parameter in aktivacijsko energijo. Spreminjanje vrednosti aktivacijske energije v odvisnosti od koncentracije surfaktanta kaže na spremembo mehanizma adsorpcije surfaktanta TRITON-X-100 na površino jekla in sicer iz fizikalne adsorpcije do kemisorpcije.
Ključne besede: neionski surfaktant, inhibitorji korozije, žveplova(IV) kislina, Flory-Hugginsova adsorpcijska izoterma, kritična miceljna koncentracija (CMC), termodinamski parametri
Objavljeno: 09.05.2020; Ogledov: 572; Prenosov: 36
.pdf Celotno besedilo (7,97 MB)

2.
Modified surface of Cu, Zn, Cu10Zn and Cu40Zn with expression of hydrophobic properties for the purpose of corrosion protection
Gregor Žerjav, 2015, doktorska disertacija

Opis: Copper and its alloys are soft and malleable metals and are often used for fabricating structures and monuments open to the atmosphere where they are subject to corrosion attack. There are many ways to protect metal against corrosion: corrosion inhibitors, protective layers, hydrophobic layers. He aim was to develop a simple technological process for forming hydrophobic, protective coatings for protection of Cu, Cu10Zn, Cu40Zn and Zn under conditions of atmospheric corrosion as tested in simulated urban rain. Carboxylic acids form self-assembled hydrophobic layers by adsorption to the positively charged metal surfaces via their carboxylic group. Corrosion inhibitors are often used to protect metals against corrosion in closed system. Most used corrosion inhibitors to protect Cu and its alloys is benzotriazole (BTAH) which showed good results in different environments. 2-mercaptobenzimidazole (2-MBI) is a derivative of BTAH with stronger affinity to adsorb on the Cu surface and showed good corrosion protection results in acidic solutions. Corrosion protection properties of the layers were tested with the use of electrochemical methods: potentiodynamic polarization and electrochemical impedance spectroscopy. The results were complement with immersion test where the weight loss was obtained. The properties of the layers were explored with surface-analytical methods: measurement of the contact angles, X-ray photoelectron spectroscopy, scanning electron microscopy with a chemical analysis and glow discharge optical emission spectroscopy. First the optimal conditions to produce hydrophobic coatings with the use of carboxylic acids were explored. The inhibition efficiency increased with increasing carbon chain length, longer preparation time in ethanol solution and increasing concentration of carboxylic acid. The inhibition of corrosion of Cu, Cu10Zn, Cu40Zn and Zn in simulated urban rain was further studied using the self-assembly of BTAH, 2-MBI and SA in ethanol solution, as individual inhibitors and in combinations. The morphology of layers differed greatly. The results of electrochemical measurements and weight loss immersion test ruled out BTAH as a possible inhibitor, unless combined with stearic acid. In the cases of Cu40Zn and Zn it even promoted corrosion. In contrast, 2-MBI gave good results, and even better in combination with stearic acid. SA layers provided the best long term corrosion protection of all tested inhibitors and exhibited the highest contact angles. 2-MBI provided less protection than SA. Combining organic inhibitor and stearic acid improves the corrosion protection properties of the self-assembled layers compare to individual layers. To make the procedure of layer preparation more appropriate for industrial application the time of immersion was decreased. Layers prepared on Cu with 1 min immersion time showed adequate corrosion protection of Cu in simulated urban rain. We also studied the possibility of combining SA with vitamin E in the layer preparation procedure. The modified layers formed with combination of Vitamin E and SA showed better corrosion inhibition properties for Cu and Cu40Zn in simulated urban rain as individual layers. Combining inhibitor and carboxylic acid together to prepare corrosion protective layers has a positive effect on the corrosion properties of the layers. Layers made combining corrosion inhibitor and carboxylic acid showed better corrosion protection than individual layers. The self-assembling process is a fast process shown by the tests made on the Cu layers with shorter immersion time. The addition of Vitamin E in the preparation of layers with carboxylic acids shows a positive effect on the corrosion properties of layers.
Ključne besede: copper, brass, corrosion, simulated urban rain, inhibitors, carboxylic acid, benzotriazole, 2-mercaptobenzimidazole
Objavljeno: 30.11.2015; Ogledov: 947; Prenosov: 106
.pdf Celotno besedilo (9,58 MB)

3.
Inhibition properties of TRITON-X-100 on ferritic stainless steel in sulphuricacid at increasing temperature
Regina Fuchs-Godec, Gregor Žerjav, 2009, izvirni znanstveni članek

Opis: The inhibiting action of a non-ionic surfactant of the TRITON-X series (TRITON-X-100) on stainless steel type X4Cr13 in 1.0 M H2SO4 solution at five different temperatures was investigated by the potentiodynamic polarisation measurements. The inhibition efficiency has been calculated in the presence and in the absence of the inhibitor. The experimental data suggest that the inhibition efficiency increases with increasing concentration of the TRITON-X-100, and decreases with the increasing temperature. Adsorption of the non-ionic surfactant used here obeys the Flory- Huggins isotherm. The thermodynamic parameters, such as, the heat of adsorption, adsorption entropy, and the adsorption free energy, have been calculated by employing thermodynamic equations. Kinetic parameters, also been evaluated.
Ključne besede: non-ionic surfactants, corrosion inhibitors, sulphuric acid, Flory-Huggins adsorption isotherm
Objavljeno: 31.05.2012; Ogledov: 1407; Prenosov: 64
.pdf Celotno besedilo (332,60 KB)
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