Numerical Analysis of the Convective Heat Transfer Coefficient Enhancement of a Pyro-Breaker Utilized in Superconducting Fusion Facilities

He, Jun; Wang, Ke; Li, Jiangang

doi:10.3390/en14227565

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Cited by 4 publications

References 16 publications

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A Backup Hybrid DC Circuit Breaker Design and Fast Discharge Units for DEMO Superconducting Magnets

Zhang,

Alberto,

Franke

et al. 2024

2024 IEEE 10th International Power Electronics and Motion Control Conference (IPEMC2024-ECCE Asia)

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A Backup Hybrid DC Circuit Breaker Design and Fast Discharge Units for DEMO Superconducting Magnets

Zhang,

Alberto,

Franke

et al. 2024

2024 IEEE 10th International Power Electronics and Motion Control Conference (IPEMC2024-ECCE Asia)

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Equivalent Fatigue of Crankshaft Structure Based on Residual Stress Field and Itcd Approach

Sun²

2023

High Temp Mat Proc

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The electromagnetic induction quenching approach has been widely applied in the engine industry, especially in relation to parts made of metal materials, such as crankshafts. To this end, the reinforcing effect of this technique has been quantitatively studied. Using this approach, we first performed multi-physics simulations to obtain key information, such as the temperature and residual stress distributions. Then, the fatigue limit load was predicted according to the simulation results and the indirect-defined theory of critical distance (ITCD) model. Finally, the feasibility of this prediction method was verified by standard bending fatigue experiments. The results of the prediction method were accurate and consistent with the experimental results, with wide popularization and application prospects.

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Research of the Quenched Crankshaft Fatigue Property Based on the Multi-physics Coupling Analysis and the Theory of Critical Distance

Chang¹,

Sun²

2022

Manufacturing Technology

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Nowadays the electromagnetic induction quenching approach has been widely applied in the surface treatment process, especially for the parts made by metal materials such as the crankshafts. In this paper, quantitative study was adopted in researching the strengthening effect of this technique. First the multiphysics simulation was achieved to carry out the key information caused by this approach such as the temperature and residual stress distribution property. Then the directly defined critical distance model introduced by Taylor D was combined with the simulation results for the fatigue load prediction. Finally the prediction results were verified according by the standard bending fatigue experiments. The main conclusion of this paper is that the combined critical point method and the Goodmen mean stress model shows the best performance in the prediction. Moreover, the Gerbera mean stress model is the most suitable choice for the critical line method.

show abstract

Numerical Analysis of the Convective Heat Transfer Coefficient Enhancement of a Pyro-Breaker Utilized in Superconducting Fusion Facilities

Cited by 4 publications

References 16 publications

A Backup Hybrid DC Circuit Breaker Design and Fast Discharge Units for DEMO Superconducting Magnets

A Backup Hybrid DC Circuit Breaker Design and Fast Discharge Units for DEMO Superconducting Magnets

Equivalent Fatigue of Crankshaft Structure Based on Residual Stress Field and Itcd Approach

Research of the Quenched Crankshaft Fatigue Property Based on the Multi-physics Coupling Analysis and the Theory of Critical Distance

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