Letteratura scientifica selezionata sul tema "Stainless steels's etching"
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Articoli di riviste sul tema "Stainless steels's etching":
Fedorov, Aleksandr Sergeevich, Andrey Igorevich Zhitenev, Darya Andreevna Strekalovskaya, Aleksandr Aleksandrovich Kur e Alexey Aleksandrovich Alkhimenko. "Quantitative Description of Duplex Stainless Steels Microstructure Using Selective Etching". Metals 11, n. 11 (31 ottobre 2021): 1750. http://dx.doi.org/10.3390/met11111750.
Irgolič, Tomaž, David Potočnik, Mirko Ficko e Peter Kirbiš. "Microstructural characterization of laser cladded AISI 316 stainless steel on a carbon steel substrate". Advanced Technologies & Materials 44, n. 2 (20 dicembre 2019): 1–5. http://dx.doi.org/10.24867/atm-2019-2-001.
Baghra, Chetan, Aniruddha Kumar, D. B. Sathe, R. B. Bhatt, P. G. Behere e Mohd Afzal. "Laser etching of austenitic stainless steels for micro-structural evaluation". Optics & Laser Technology 69 (giugno 2015): 172–79. http://dx.doi.org/10.1016/j.optlastec.2015.01.002.
David, Charles, Fiona Ruel, Florent Krajcarz, Clément Boissy, Saghi Saedlou e Vincent Vignal. "Effect of Grain Size on the Anodic Dissolution of Lean Duplex UNS S32202 Austenitic-Ferritic Stainless Steel". Corrosion 75, n. 12 (30 settembre 2019): 1450–60. http://dx.doi.org/10.5006/3218.
Fedorov, Aleksandr, Andrey Zhitenev, Darya Strekalovskaya e Aleksandr Kur. "Quantitative Description of the Microstructure of Duplex Stainless Steels Using Selective Etching". Materials Proceedings 3, n. 1 (8 marzo 2021): 4. http://dx.doi.org/10.3390/iec2m-09387.
Tolnai, Ferenc, e Balázs Varbai. "Effect of Heat Treatment on the Microstructure of Duplex Stainless Steel Welds". Acta Materialia Transylvanica 3, n. 2 (1 ottobre 2020): 103–7. http://dx.doi.org/10.33924/amt-2020-02-10.
Nakasa, Keijiro, Akihiro Yamamoto, Rongguang Wang e Tsunetaka Sumomogi. "Formation of Fine Protrusions by Sputter Etching of Martensitic Stainless Steels". Tetsu-to-Hagane 100, n. 5 (2014): 647–55. http://dx.doi.org/10.2355/tetsutohagane.100.647.
Potgieter, J. H., e P. de Visser. "Potentiostatic etching of duplex stainless steels and high chromium white cast irons". Materials Science and Technology 9, n. 4 (aprile 1993): 336–42. http://dx.doi.org/10.1179/mst.1993.9.4.336.
NAKASA, Keijiro, Xu YAN, Masashi YOSHIDA e Tsunetaka SUMOMOGI. "Deformation Characteristics of Fine Protrusions Formed by Sputter-Etching of Stainless Steels". Journal of Solid Mechanics and Materials Engineering 4, n. 7 (2010): 1103–10. http://dx.doi.org/10.1299/jmmp.4.1103.
Villalobos Vera, Doris Ivette, e Ivan Mendoza Bravo. "Effect of annealing temperature on the microstructure of hyperduplex stainless steels". Ingeniería Investigación y Tecnología 20, n. 2 (1 marzo 2019): 1–6. http://dx.doi.org/10.22201/fi.25940732e.2019.20n2.024.
Tesi sul tema "Stainless steels's etching":
Laourine, Feriel. "Texturation de la surface d’aciers inoxydables par plasmas chlorés et compréhension des mécanismes mis en jeu par l’étude de la gravure du fer, du chrome et du nickel massifs". Electronic Thesis or Diss., Université de Lorraine, 2021. http://www.theses.fr/2021LORR0252.
The structuring at sub-micronic scale of the surface of stainless steels allows to provide them with new functionalities, for example for tribological and optical applications. This thesis is part of the ANR SPOT project which aims to structure the surface of austenitic and martensitic steels on a submicronic scale by dry etching. In this work, we have developed a plasma process with a mixture of chlorine and argon for the etching of stainless steels. The development of this process was carried out based on the study of the etching of the main metals that make up these steels, namely, iron, chromium and nickel. Based on measurements of etching speeds, as well as on plasma diagnostic techniques, we have shown that, in a chlorine and argon plasma, iron is the most etched element, followed by chromium, then nickel. The metallic and the stainless steels etched samples were analyzed by surface characterization techniques, in particular X photoelectron spectrometry (XPS) analyzes. We have also studied the variation of the etching speeds of these metals and steels as a function of the temperature of the substrates. These studies have enabled us to establish the mechanisms involved in the etching of metallic elements. We have shown that in a plasma of chlorine and argon, iron is mainly etched by a chemical mechanism which follows an Arrhenius law. This mechanism would be based on the formation of volatile iron chlorides. In the case of chromium, the etching requires ionic assistance in order to desorb the non-volatile chromium chlorides formed on the surface of the material. Finally, for nickel, we observed that the etching speed decreases when the temperature increases. In this case, observations with a scanning electron microscope made it possible to highlight the formation of swellings rich in chlorine. XPS analyzes of the etched surface of nickel suggest that these swellings are due to the formation of non-volatile nickel chlorides. These chlorides would be at the origin of the decrease in the rate of etching of nickel, the sputtering of which would be blocked by the presence of these chlorides. Understanding these mechanisms led to conclude that, in a chlorinated plasma, the blocking element in the etching of stainless steels is nickel
Souza, Solange de. "Aparências metalográficas e corrosão seletiva de fases de aços inoxidáveis fundidos austenítico e martensítico atacados potenciostaticamente". Universidade de São Paulo, 1997. http://www.teses.usp.br/teses/disponiveis/88/88131/tde-16092016-111802/.
The selective corrosion of phases present in two types of cast stainless steels was analyzed, when submitled to several constant values of potential, starting from the cathodic to the anodic regions of the polarization curve. The cast stainless steels were: austenitic (ACI CF-3M) solubilized and martensitic (ACI CA-6NM) normalized and tempered. The polarization curves were obtained at a scanning rate of 0.16 mV.s-1 in 1M H2S04 and 1M NaCI solution, pH 0.35 and at room temperature. Several potential values were selected, previously located in the cathodic, active, passive and transpassive regions of the polarization curve. The values of the selected potential were maintained fixed for 1800 s. After the potentiostatic etching, the metallographic appearances of the steels were verified, from the cathodic to the anodic region. Through electronic microprobe analysis, the present chemical elements were quantified in the phases of the steels. For betler evaluating the beginning of pitling propagation in the studied steels, liberated ion percentage for the solution was determined, after the imposition of critic pitting potential values predetermined from the polarization curves, through the metallographic appearances obtained after potentiostatic etching of the samples and the current density curves as a function of time.
Atti di convegni sul tema "Stainless steels's etching":
Ioka, Ikuo, Chiaki Kato, Kiyoshi Kiuchi e Junpei Nakayama. "Susceptibility of Intergranular Corrosion for Extra High Purity Austenitic Stainless Steel in Nitric Acid". In 16th International Conference on Nuclear Engineering. ASMEDC, 2008. http://dx.doi.org/10.1115/icone16-48776.
Pua, Lee M., e S. O. Rumbold. "Industrial Microchannel Devices: Where Are We Today?" In ASME 2003 1st International Conference on Microchannels and Minichannels. ASMEDC, 2003. http://dx.doi.org/10.1115/icmm2003-1101.