Characterization of the heat transfer coefficient at near solidus forming condition using columnar pressing test

Sajjad, Muhammad; Agirre, Julen; Plata, Gorka; Lozares, Jokin; Mendiguren, Joseba

doi:10.1007/s00170-024-14531-6

Int J Adv Manuf Technol

2024

DOI: 10.1007/s00170-024-14531-6

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Characterization of the heat transfer coefficient at near solidus forming condition using columnar pressing test

Muhammad Sajjad,

Julen Agirre,

Gorka Plata

et al.

Abstract: This study addresses the significant gap in the literature regarding the heat transfer coefficient (HTC) under near-solidus forming (NSF) conditions, where materials are shaped close to their solidus state, presenting complex behaviour compared to traditional hot forming processes. Despite the pivotal role of heat transfer in developing a reliable material model for the digital twin (DT), limited data exist particularly regarding HTC characterization at NSF. Additionally, testing methodologies suitable for the… Show more

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The influence of the adiabatic heating coefficient on the near solidus forming process

Sajjad,

Agirre,

Plata

et al. 2024

Int J Mater Form

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The Near Solidus Forming (NSF) process represents a critical method for shaping metallic components under extreme temperature conditions. When metals deform plastically, significant amounts of heat can be generated, which is due to the conversion of plastic deformation energy in the material often known is adiabatic heating. In this study, the influence of the adiabatic heating coefficient (AHC) on temperature distribution and plastic strain during NSF process is investigated. For this purpose, three industrial benchmarks previously fabricated using NSF techniques are selected to serve as representative cases for analysis. To conduct the analysis, sensitivity studies is performed at two key temperatures: 1360 °C and 1370 °C. These temperatures are chosen to capture the range of operating conditions typically encountered in industrial NSF applications. The simulation tool FORGE NXT® is utilized to investigate the potential effect of AHC on equivalent plastic strain (EPS). The range of potential AHC values considered is between 85% and 100%, as determined from a comprehensive literature survey. The study suggests that the AHC has a minimal effect on the deformation behaviour of 42CrMo4 steel at NSF condition for the studied benchmarks. The findings of this study provide the inside to the importance of AHC in the developing of a reliable Digital Twin (DT) for industrial NSF application.

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The influence of the adiabatic heating coefficient on the near solidus forming process

Sajjad,

Agirre,

Plata

et al. 2024

Int J Mater Form

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Characterization of the heat transfer coefficient at near solidus forming condition using columnar pressing test

Cited by 1 publication

References 22 publications

The influence of the adiabatic heating coefficient on the near solidus forming process

The influence of the adiabatic heating coefficient on the near solidus forming process

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