Preprint Article Version 1 Preserved in Portico This version is not peer-reviewed

Modeling of Closure of Metallurgical Discontinuities in the Process of Forging Zirconium Alloy

Version 1 : Received: 22 June 2023 / Approved: 26 June 2023 / Online: 27 June 2023 (12:31:16 CEST)

A peer-reviewed article of this Preprint also exists.

Banaszek, G.; Ozhmegov, K.; Kawałek, A.; Sawicki, S.; Naizabekov, A.A.A. Modeling of Closure of Metallurgical Discontinuities in the Process of Forging Zirconium Alloy. Materials 2023, 16, 5431. Banaszek, G.; Ozhmegov, K.; Kawałek, A.; Sawicki, S.; Naizabekov, A.A.A. Modeling of Closure of Metallurgical Discontinuities in the Process of Forging Zirconium Alloy. Materials 2023, 16, 5431.

Abstract

The article presents the results of testing the conditions of closing foundry voids during the hot forging operation of an ingot made of zirconium with 1% Nb alloy and use of the physical and numerical modelling, which is a continuation of research presented in a previous thematically related article published in the journal Materials. The study of the impact of forging operation parameters on the rheology zirconium with 1% Nb alloy was carried out on the Gleeble 3800 device. Using the commercial FORGE®NxT 2.1 program, a numerical analysis of the influence of thermo-mechanical parameters of the hot elongation operation in trapezoidal flat and rhombic trapezoidal anvils on the closure offoundry voids was performed. The analysis of the obtained test results was used to formulate recommendations on the technology of hot forging and the geometry of anvils, which ensure the closure foundry voids during the operation of hot forging

Keywords

closure foundry voids; zirconium ally; Forge; numerical modelling; forging process

Subject

Chemistry and Materials Science, Metals, Alloys and Metallurgy

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