FRCU - Grupos de Investigación
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Item Wear and corrosion behaviour of short time plasma nitrocarburized AISI 316L(2024-09-02) Dalibón Bähler, Eugenia Laura; Brühl, Sonia Patricia; Jafarpour, Saeed M.; Dalke, Anke; Biermann, HorstAustenitic stainless steels are industrially used in several corrosive settings. To improve surface properties and wear resistance, different treatments can be used such as plasma nitrocarburizing or nitriding [1,2]. In this work, two short time plasma nitrocarburizing (PNC) treatments on 316L austenitic stainless steel were analyzed.Item Laser texturing combined with plasma nitriding as a tool to control the tribological performance of steel components(2018-09-28) Lasagni, Andrés Fabián; Dalibón Bähler, Eugenia Laura; Tabares, Ignacio Javier; Aguilar, Alfredo; Brühl, Sonia PatriciaIn this work the sequential combination of both plasma nitriding and laser patterning is analyzed comparing to individual treatments over the same material.Item DLC multilayers to improve fretting and corrosion resistance over nitrided martensitic stainless steel(2018-09-20) Brühl, Sonia Patricia; Dalibón Bähler, Eugenia Laura; Trava-Airoldi, Vladimir JesúsIn this work, the fretting wear and corrosion behavior of DLC multilayers coatings were studied and compared to the monolayer coating.Item Tribological and corrosion Behavior of Duplex Coated AISI 316L using plasma based ion implantation and deposItion(2020) Vaca, Laura Silvia; Quintana, Juan Pablo; Vega, Daniel; Márquez, Adriana Beatriz; Brühl, Sonia PatriciaThe implementation of a duplex process, which combines plasma nitriding with hard coatings obtained by cathodic arc, on stainless steel substrates has faced adhesion problems that affected the wear and corrosion behavior of the treated surfaces. One variation of the cathodic arc process, which could improve the adhesion, is its combination with plasma ion implantation. This work presents results of the wear and corrosion behavior of duplex TiTiN bilayer coatings obtained by cathodic arc deposition combined with ion implantation (PBII&D) on plasma nitrided AISI 316L stainless steel In order to compare the application of PBII&D in duplex processes against conventional cathodic arc deposition, other two types of samples were obtained; one group of samples was coated using the same experimental device with the substrate at floating potential and the other one with a commercial PVD system. The coatings were characterized by SEM, XRD, and nanoindentation. The adhesion was evaluated by the Scratch Test and Rockwell C indentation. The wear resistance was analyzed by the pin-on-disk test and the corrosion behavior was evaluated by means of anodic polarization tests in NaCl solution, as well as by the Salt pray Fog Test. The PBII&D bilayer coatings showed better adhesion while the commercial PVD TiN coatings presented the smallest wear volume loss, but the delamination inside and around the track evidenced adhesion problems. Corrosion resistance was improved in all coatings benchmarked against nitride substrates, but PBII&D processes offered better protection.Item Corrosion behaviour of a SiOxNy coated and nitrided ph stainles steel(Elsevier, 2015) Dalibón Bähler, Eugenia Laura; Moscatelli, Mauro Nicolás; Simison, Silvia; Escalada, Lisandro; Cabo, Amado; Lasorsa, Carlos; Brühl, Sonia PatriciaPrecipitation hardening stainless steels are used in applications where wear and corrosion resistance are required. To improve the surface properties, thermochemical treatments in combination with hard coatings can be used. In this work, the corrosion behaviour of SiOxNy coatings deposited on nitrided and non-nitrided Corrax® PH stainless steel were evaluated comparing them with the behaviour of samples which were only nitrided (two different conditions of nitrogen percentage in the working gases were used). The microstructure was analyzed. Corrosion behaviour was evaluated by the Salt Spray Fog Test and cyclic potentiodynamic polarization in NaCl solution. Erosion-corrosion tests were conducted. The thickness of the coating was about 1.4 microns, and its hardness was 2300 HV. The film had better erosion and corrosion behaviour when it was deposited on the nitrided steel. This fact demonstrated that the nitrided layer results in a good interface that improves the adhesion and mechanical support.Item Corrosion resistance of AISI 316L stainless steel nitrided by three different plasma assisted techniques(2014-07-21) Manova, Darina; Mändl, Stephan; Brühl, Sonia Patricia; Escalada, Lisandro; Simison, SilviaPlasma assisted surface modification methods have been used to nitride stainless steels in order to enhance hardness and therefore the lifetime of industrial componentes. Nevertheless, the corrosion resistance is not always preserved since it thermochemical diffusion techniques. AISI 316L stainless steel was plsma nitrided using three different techniques: Low Energy Ion Implantation (LEII), Plasma Immersion Implantation (PI3) and conventional DC pulsed plasma nitriding (DCPN). For each method several parameters were tested and some of them were selected to achieve the so called S phase of about e um thickness and no nitrides precipitation. The nitrided layer was characterized with OM and SEM. Hardness was assessed on the surface with Vickers indenter and 25 g load. XRD was performed to characterize the S phase and to detect other phases if present and electrochemical corrosion tests were carried out in 3,5% NaCI solution. Although the S phase thickness in the three groups of samples was comparable, hardness was not and neither was the corrosion resistance. The PI3 samples were the hardest with the best performance in corrosion experiments, resulting in a higher breakdown potential and lower currents.