2018
DOI: 10.15587/1729-4061.2018.124129
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Simulation of structure formation in the Fe–C–Cr–Ni–Si surfacing materials

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Cited by 7 publications
(4 citation statements)
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“…The temperature of the kinetics maximum of ferrite and pearlite transformations increased to 688 and 620 • C, respectively, while the temperature of the kinetics maximum of "austenite → bainite" transformation decreased to 438 • C. Notably, steel B performed enhanced stability of overcooled austenite at each temperature in the sub-critical range: the minimum incubation period increased by 27 times, 6 times, and 4 times for ferrite/pearlite/bainite transformations, respectively. Herewith, additional alloying increased austenite stability for ferrite/pearlite transformations to a higher extent leading to a more pronounced allocation of the bainite domain [37,38]. One can conclude that steel B had a higher hardenability and a higher propensity for bainite formation as compared with steel A.…”
Section: Austenite Transformation Behavior and Microstructure Charact...mentioning
confidence: 89%
“…The temperature of the kinetics maximum of ferrite and pearlite transformations increased to 688 and 620 • C, respectively, while the temperature of the kinetics maximum of "austenite → bainite" transformation decreased to 438 • C. Notably, steel B performed enhanced stability of overcooled austenite at each temperature in the sub-critical range: the minimum incubation period increased by 27 times, 6 times, and 4 times for ferrite/pearlite/bainite transformations, respectively. Herewith, additional alloying increased austenite stability for ferrite/pearlite transformations to a higher extent leading to a more pronounced allocation of the bainite domain [37,38]. One can conclude that steel B had a higher hardenability and a higher propensity for bainite formation as compared with steel A.…”
Section: Austenite Transformation Behavior and Microstructure Charact...mentioning
confidence: 89%
“…In [14], the authors proposed a new "hybrid" approach, which consists in combining the multi-component alloying principle with adding an increased amount of boron and such a strong carbide-forming element as titanium [15]. This approach aims at the formation of complex carboboride phases with advanced tribological characteristics [16]. The implementation of new ideas should be based on computer modelling, which is now widely used at the preliminary stage of the alloy design [17,18].…”
Section: Introductionmentioning
confidence: 99%
“…The most minimum FeNiCr corrosion can be seen from the least diffusion coefficient of iron. Next, cast irons can be alloyed with strong carbide-forming elements such as Ti, V, Nb, and Mo to increase resistance [14].…”
Section: Introductionmentioning
confidence: 99%