1. Internal oxidation of silver alloys with tellurium, selenium and sulphurGorazd Kosec, Ladislav Kosec, Ivan Anžel, Vasilij Gontarev, Borut Kosec, Milan Bizjak, 2005, izvirni znanstveni članek Opis: Silver alloys with tellurium, selenium and sulphur fulfil the conditions for the internal oxidation. Microstructure of these alloys consists of matrix (dilute solid solution) and particles of intermetallic compounds. Internal oxidation of ternary alloys is very similar to that of the binary alloys, but there are also distinctions in thermodynamics properties of alloying elements.
At the direct oxidation of the particles of the intermetallic compound the phenomena of the selective oxidation was observed. Concentration of more reactive elements is increasing in the oxidized part of the particles of the intermetallic compound (Te in AgTeSe alloys). Therefore the precipitated oxides formed with diffusional internal oxidation are richer with less reactive alloying element (Se in AgTeSe alloy). In the precipitated oxide particles the concentration of selenium is more than twice higher than of tellurium.
Ključne besede: internal oxidation, silver, alloys, compound, particle
Objavljeno v DKUM: 03.07.2017; Ogledov: 1135; Prenosov: 103
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2. Energija prihodnosti - jedrska fuzijaJelena Vojvodič-Tuma, Matija Tuma, Nenad Gubeljak, Dražan Kozak, Gorazd Kosec, 2005, strokovni članek Opis: Ocenjeno je naraščanje prebivalstva na Zemlji v naslednjih desetletjih, sočasno naraščanje potreb po primarni energiji in napisani so možni nosilci primarne energije. Razložen je princip jedrske fuzije, navedeni so robni pogoji, pri katerih je zlitje jeder sploh mogoče, in opisana je razlika med jedrsko fisijo in fuzijo. V obeh primerih se skupna masa po končani jedrski reakciji zmanjša, del mase se namreč spremeni v energijo. Prikazani so doslej vloženi napori znanstvenikov, skupaj z najnovejšim projektom ITER. Projekt naj bi končno realiziral težko pričakovano samodejno reakcijo zlitja jeder vodika v jedro helija in s tem rešil problem preskrbe človeštva s primarno energijo.
Ključne besede: fisija, fuzija, ITER, naraščanje prebivalstva, oskrba s primarno energijo
Objavljeno v DKUM: 15.03.2017; Ogledov: 1628; Prenosov: 159
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3. Internal oxidation of Cu-C and Ag-C compositesGabrijela Čevnik, Gorazd Kosec, Ladislav Kosec, Rebeka Rudolf, Borut Kosec, Ivan Anžel, 2008, drugi znanstveni članki Opis: The internal oxidation in copper-carbon and silver-carbon composites occurs when they are exposed to air or oxygen at high temperature. Solubility of carbon in copper or in silver is very low. The kinetics of oxidation at high temperature and activation energy were determined and the mechanism of internal oxidation was analysed. The kinetics of internal oxidation was determined for both cases and it is depended from the diffusion of oxygen following parabolic time dependence according to Wagner's theory. The activation energy for Cu-C composite is 70.5 kJ/mol, and for Ag-C composite is 50.1 kJ/mol, what is in both cases close to the activation energy for the volume diffusion of oxygen in copper or in silver. In both cases gas products are formed during the internal oxidation of composites. In the internal oxidation zone pores, bubbles occur. The carbon oxidates directly with the oxygen from solid solution as long there is a contact, which breaks down with the presence of gas products. Then the oxidation occurs over the gas mixture of CO and CO2.Pri visokih temperaturah kompoziti bakra in srebra z ogljikom na zraku ali v kisiku reagirajo po mehanizmu notranje oksidacije. Topnost ogljika v trdnem bakru in trdnem srebru je zelo majhna. Analizirali smo kinetiko oksidacije kompozitov, določili aktivacijsko energijo in mehanizem notranje oksidacije. Kinetika oksidacije je pri obeh skupinah materialov odvisna od difuzije kisika in sledi parabolični odvisnosti od časa v skladu z Wagnerjevo teorijo. Aktivacijska energija procesa je za kompozit Cu-C enaka 70,5 kJ/mol, za kompozit Ag-C pa 50,1 kJ/mol, kar je blizu aktivacijski energiji za volumsko difuzijo kisika v trdnem bakru oziroma srebru. Pri oksidaciji kompozita nastajajo plinski produkti. Oksidacija ogljika poteka neposredno s kisikom iz trdne raztopine, ko pa se zaradi nastanka plinske faze stik prekine, pa preko plinske zmesi CO in CO2.
Ključne besede: internal oxidation, internal oxidation zone, composite, copper, silver, diffusion, kinetics
Objavljeno v DKUM: 31.05.2012; Ogledov: 2105; Prenosov: 40
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