Szczegóły publikacji

Opis bibliograficzny

Evaluation of cracking risk of 80MnSi8-6 nanobainitic steel during hot forging in the range of lower temperature limits / Paulina LISIECKA-GRACA, Łukasz LISIECKI, Krystian ZYGUŁA, Marek WOJTASZEK // Materials Science Poland ; ISSN 2083-1331. — Tytuł poprz.: Materials Science (Poland) ; ISSN: 0137-1339. — 2024 — t. 42 z. 1, s. 171-185. — Bibliogr. s. 183-185, Abstr. — Publikacja dostępna online od: 2024-05-29

Autorzy (4)

Słowa kluczowe

finite element methodnano bainitic steelsmulti-stage forgingmicrostructureDICdamage criteriaFEM modellingFEMdigital image correlation

Dane bibliometryczne

ID BaDAP153903
Data dodania do BaDAP2024-06-26
Tekst źródłowyURL
DOI10.2478/msp-2024-0011
Rok publikacji2024
Typ publikacjiartykuł w czasopiśmie
Otwarty dostęptak
Creative Commons
Czasopismo/seriaMaterials Science Poland

Abstract

Nanobainitic steels exhibit an exceptional combination of high strength, good plasticity, impact toughness, and wear resistance. They are suitable for the production of large mass components through the open-die forging process. Subsequently, the forgings are air-cooled. An obstacle of this method is the extended time required for the large forgings to undergo a bainitic transformation, making the industrial implementation of this process economically unjustifiable. Nevertheless, nanobainitic steels also allow for the open-die forging of small batches of structural elements with high property requirements. A technological limitation lies in the necessity of performing a series of operations, leading to a prolonged processing time dependent on the shape of the product and the degree of deformation. Therefore, inter-operational reheating is often necessary, incurring costs and time consumption. This is particularly relevant to forgings with a mass ranging from a few to several dozen kilograms, which, due to their low thermal capacity, rapidly dissipate heat to the surroundings and tools. Designing an economical process with a limited number of reheating cycles requires advanced knowledge of material behavior under thermo-mechanical deformation parameters, including boundary conditions where a significant decrease in plasticity occurs and the risk of crack initiation. To obtain this information, a comprehensive analysis of the influence of thermo-mechanical parameters applied during the deformation of nanobainitic steel at relatively low temperatures on the flow characteristics and crack formation was conducted. To achieve this goal, the Digital Image Correlation method, the finite element method modeling considering damage criteria, and the macrostructural evaluation of deformed specimens were employed.

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