Finite-element simulation of semi-solid metal processing of tool steel encased in carbon steel

Ritter, Eduardo; Stumpf, Felipe Tempel

doi:10.1177/00375497211061088

Cited by 2 publications

(2 citation statements)

References 44 publications

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“…32,33 In addition, the analysis in this paper adopts the idea of combining experiment and simulation, which is also commonly used in the references to verify the rationality of the model. [34][35][36]…”

Section: Introductionmentioning

confidence: 99%

Face-based smoothed finite element method for simulating the sound field of a high-speed train

Huang

Liu

et al. 2023

SIMULATION

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Simulating three-dimensional acoustic problems with traditional finite element models (FEMs) may result in a large dispersion error that is difficult to manage. To control dispersion error caused by “overly stiff” features of FEM, a face-based smoothed FEM (FS-FEM) model was used to analyze the sound field of a high-speed train. Based on the acoustic Galerkin method’s weak form, smooth regions were reconstructed within the original finite element area, and numerical simulations were performed in MATLAB. Modal analysis of a test example revealed that results obtained using FS-FEM are more accurate than those obtained using the traditional FEM. Finally, it was used to calculate the sound field of China Railway High-speed 380B (CRH380B) high-speed trains in time and frequency domains, achieving higher accuracy than the traditional approach. Results were more akin to the realistic solution, which demonstrated the performance of the FS-FEM.

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Section: Introductionmentioning

confidence: 99%

Face-based smoothed finite element method for simulating the sound field of a high-speed train

Huang

Liu

et al. 2023

SIMULATION

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“…Due to some difficulties associated with the semisolid processing of X210Cr12 to steel, Paixão Ritter and Tempel Stumpf [25] applied FEM to simulate the semisolid processing to eliminate the possible errors that may accompany the real processing. The steel samples were simulated under hot compression conditions.…”

Section: Introductionmentioning

confidence: 99%

Microstructural and Mechanical Characterization of Ledeburitic AISI D2 Cold-Work Tool Steel in Semisolid Zones via Direct Partial Remelting Process

Mohammed

Omar

Al-Tamimi³

et al. 2022

JMMP

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The success of the thixoforming process largely depends on the created microstructure, which must be globular in the liquid phase. The solid–liquid structural changes that occur on as-annealed D2 tool steel when it is subjected to the so-called DPRM are described in this work (direct partial remelting method). The paper discusses phase changes and how carbide dissolution affects grain boundary liquation and grain spheroidization. Equiaxed grains with undissolved carbide particles have been found in the microstructural analysis at 1250 °C; however, the carbides gradually disappear as the temperature rises. Additionally, the equiaxed grains were transformed to a globular structure, which improves the shape factor and grain size for the thixoforming process. For AISI D2 thixoforming, which produced grains with a diameter of 50 μm and a shape factor of 1.18, temperatures of 1300 °C and a holding period of 5 min were the optimum parameters. The outcomes also showed that the mechanical properties of the AISI D2 were greatly enhanced after using direct partial remelting, where hardness was increased from 220 Hv to 350 Hv and tensile strength from 791 MPa to 961 MPa.

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Finite-element simulation of semi-solid metal processing of tool steel encased in carbon steel

Cited by 2 publications

References 44 publications

Face-based smoothed finite element method for simulating the sound field of a high-speed train

Face-based smoothed finite element method for simulating the sound field of a high-speed train

Microstructural and Mechanical Characterization of Ledeburitic AISI D2 Cold-Work Tool Steel in Semisolid Zones via Direct Partial Remelting Process

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