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Назив: A new artificial neural network model for predicting fatigue limit and fracture toughness values of some stainless steels
Аутори: Todic, Aleksandar
T. Djordjevic, Milan
Arsić, Dušan
Nikolic, Ruzica
Ivkovic, Djordje
Датум издавања: 2024
Сажетак: Besides the modern non-metallic materials, which can successfully replace metallic materials in certain fields, steel materials are still largely present in technical practice. That trend will remain for many years to come. That is why there is a need to develop new types of steel, that possess better properties, in addition to the existing ones. The Cr-Mo steels, with a high vanadium content, belong to a group of the newer steels, with relatively high values of hardness and toughness. The X180CrMo12-1 steel, with varying percentages of vanadium, within the limits of 0.5-3 %, was used for the tests in this work. Vanadium, as a carbide-forming alloying element, creates a carbide network of the M7C3 type around the metal substrate, and finely dispersed carbides of the V6C5 type within the metal substrate. For the conducted research, modern equipment was used for analysis of the chemical composition, monitoring of the shape of metal grains and carbide network, tests of resistance to friction and wear, as well as for electrochemical characterization. In the conducted research, the objective was to determine the carbide composition, microstructure, and morphology and to evaluate their impact on the material's characteristics. The steel samples were experimentally examined using scanning electron microscopy with energy dispersive spectrometry (SEM-EDS) and Xray diffractometric analysis (XRD). The carbide composition analysis has confirmed that this actually was the M7C3 carbide, as it was earlier assumed.
URI: https://scidar.kg.ac.rs/handle/123456789/21106
Тип: conferenceObject
Налази се у колекцијама:Faculty of Engineering, Kragujevac

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