A Brief Review on Validation for Heat Treatment Simulation

Arimoto, Kyozo

doi:10.31399/asm.cp.ht2021p0071

Cited by 4 publications

(6 citation statements)

References 16 publications

(24 reference statements)

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“…Although the cross-sectional geometry of the MJS specimens is somewhat different, the model of the JS specimen was used for convenience. The commercial software DEFORM•-HT 11) was used to simulate the quenching experiments. The mechanical and thermal conductivity properties of the MJS-SUS304 specimen model were established from the SUS304 base material data, which were contained in the collection of high-temperature material property data on dissimilar metal welding in reactor pressure vessel.…”

Section: Simulationsmentioning

confidence: 99%

Elucidation of Blade Curving Mechanism in Japanese Sword Quenching Using the Simulated Strains-Based Approach

Yoshii,

Iyota,

Arimoto

2024

Mater. Trans.

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The mechanism of curving that occurs during the quenching process of Japanese swords has not been clearly explained. Experiments on this phenomenon were conducted using Japanese sword type specimens made of the same steel and processes as Japanese swords, and model Japanese sword type specimens made of carbon steel (S55C) and austenitic stainless steel (SUS304) by machining. Applying the simulated strains-based approach to heat treatment simulation results for these experiments found that positive plastic strain and transformation strain on the cutting-edge side are main contributors to curving generation in Japanese sword.

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Section: Simulationsmentioning

confidence: 99%

Elucidation of Blade Curving Mechanism in Japanese Sword Quenching Using the Simulated Strains-Based Approach

Yoshii,

Iyota,

Arimoto

2024

Mater. Trans.

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“…To implement a thermo-fluid-solid coupling model for the quenching cooling process, first, the heat transfer model on the fluid-solid coupling surface should be established. To address [11][12][13][14][15][16][17] www.advancedsciencenews.com l www.steel-research.de steel research int. 2024, 95, 2300295 the issue of large velocity and temperature gradient changes near the wall, the wall function method is often used to calculate the coupling heat transfer at the fluid-solid interface.…”

Section: Fluid-solid Coupling Heat Transfer Modelmentioning

confidence: 99%

“…[9] Thus, the required heat transfer coefficient for different quenching process simulations is also different, which results in the need for an enormous database of heat transfer coefficients to accommodate different quenching processes. [10] In addition, the heat transfer coefficients measured by different researchers [11][12][13][14][15][16][17] have large differences, as shown in Figure 1. Although the trends in the measured heat transfer coefficient for water are similar, the peak values vary greatly, with a maximum relative error of up to 90%.…”

Section: Introductionmentioning

confidence: 99%

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Numerical Simulation and Experimental Research on the Quenching Process of 1045 Steel Based on Thermo–Fluid–Solid Coupling Model

Deng

Huo

2023

steel research int.

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In the numerical simulation research on quenching, the heat transfer coefficient is an important input parameter. However, owing to its complexity and various influencing factors, the measured results are not universal and will significantly increase the simulation complexity and error. This article proposes a new numerical simulation method for quenching processes by extending the simulation domain and introducing the coupled heat exchange between the liquid quenching medium and workpiece, replacing the role of the heat transfer coefficient in the numerical simulation. The method is validated through experimental studies on 1045 steel rod quenched in water, with the maximum relative errors of the simulation results compared to the experimental results being 3.6%, 9%, and 5.1% for hardness, cooling curve, and residual stress, respectively. Furthermore, the article investigates the effect of different flow parameters of quenching media on the quenching effect. Under the studied conditions, the 1045 steel rod has the lowest risk of cracking and the highest hardness value when quenched in water at 50°C. The proposed method improves the universality and convenience of numerical simulation for the quenching process. and can be used to guide the formulation of quenching process parameters when the heat transfer coefficient is unknown.This article is protected by copyright. All rights reserved.

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“…With the development of computer simulation technology, theoretical models and finite element analysis methods have gradually improved, providing new ways to control heat treatment distortion. Some scholars have used numerical simulation to conduct in-depth analysis of carburizing and quenching [5][6][7][8][9][10]. Silva et al simulated the quenching process of an AISI 4140 steel C-ring in oil, covering the analysis of the distortion caused by both thermal contraction and phase transformation [6].…”

Section: Introductionmentioning

confidence: 99%

Predictions and Experiments on the Distortion of the 20Cr2Ni4A C-ring during Carburizing and Quenching Process

Yan

Xue

et al. 2022

Materials

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This paper focuses on the effect of gear steel on distortion due to phase transformation in carburizing and quenching. The carburizing and quenching process of C-rings under suspension was studied by using the finite element method based on the thermo-mechanical theory, considering phase transformation. The phase transformation kinetics parameters, depending on different carbon contents, were measured by Gleeble-3500. The distortion behavior of the carburized C-ring during the cooling stage was analyzed, as well as the carbon concentration distribution and martensite volume fractions. The accuracy of the simulation was also verified by comparing the experimental data with the simulated result of the distortion and microstructure. A reliable basis is provided for predicting the distortion mechanism of gear steels in carburizing and quenching.

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A Brief Review on Validation for Heat Treatment Simulation

Cited by 4 publications

References 16 publications

Elucidation of Blade Curving Mechanism in Japanese Sword Quenching Using the Simulated Strains-Based Approach

Elucidation of Blade Curving Mechanism in Japanese Sword Quenching Using the Simulated Strains-Based Approach

Numerical Simulation and Experimental Research on the Quenching Process of 1045 Steel Based on Thermo–Fluid–Solid Coupling Model

Predictions and Experiments on the Distortion of the 20Cr2Ni4A C-ring during Carburizing and Quenching Process

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