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Fatigue Life Prediction Methodology of Hot Work Tool Steel Dies for High-Pressure Die Casting Based on Thermal Stress Analysis

Joeun Choi, Jongrak Choi, Kwangpyo Lee, Nahmkeon Hur, Naksoo Kim

2022Metals11 citationsDOIOpen Access PDF

Abstract

High-pressure die casting (HPDC) can produce precise geometries in a highly productive manner. In this paper, the failure location and cycles were identified by analyzing the fatigue behavior of the die subjected to repeated thermal stress. An energy-based semi-empirical fatigue life prediction model was developed to handle the complex stress history. The proposed model utilizing mean stress, amplitudes of stress, and strain was calculated by one-way coupling numerical analysis of computational fluid dynamics (CFD) and finite element analysis (FEA). CFD temperature results of the die differed from the measured results by 2.19%. The maximum stress distribution obtained from FEA was consistent with the actual fracture location, demonstrating the reliability of the analytical model with a 2.27% average deviation between the experimental and simulation results. Furthermore, the model showed an excellent correlation coefficient of R2 = 97.6%, and its accuracy was verified by comparing the calculated fatigue life to the actual die breakage results with an error of 20.6%. As a result, the proposed model is practical and can be adopted to estimate the fatigue life of hot work tool steels for various stress and temperature conditions.

Topics & Concepts

Die (integrated circuit)Die castingFinite element methodStress (linguistics)BreakageStructural engineeringWork (physics)Coupling (piping)CastingReliability (semiconductor)Computational fluid dynamicsMaterials scienceEngineeringMechanical engineeringMetallurgyComposite materialPhilosophyAerospace engineeringPhysicsLinguisticsPower (physics)Quantum mechanicsMetal Alloys Wear and PropertiesMetallurgy and Material FormingMicrostructure and Mechanical Properties of Steels