Listar por autor "512756bb737cdd011212e1c09a1cbbfb"
Mostrando ítems 1-5 de 5
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Characterization of friction coefficient at near solidus forming (NSF) conditions using T-shape compression test
Sajjad, Muhammad; Agirre, Julen; Plata, Gorka; Mendiguren, Joseba (Elsevier, 2024)Amidst the escalating demand for sustainable manufacturing practices aimed at mitigating global emissions and waste, industries are actively seeking novel forming solutions to address these pressing global challenges. Near ... -
Characterization of the heat transfer coefficient at near solidus forming condition using columnar pressing test
Sajjad, Muhammad; Agirre, Julen; Plata, Gorka; Mendiguren, Joseba (Springer Nature, 2024)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 ... -
Digital twin development for the sensitivity analysis of near solidus forming process
Sajjad, Muhammad; Plata, Gorka; Mendiguren, Joseba (Materials Research Forum LLC, 2023)Near Solidus Forming (NSF) process, performed at semi-solid material state is gaining popularity due to its good physical properties, low manufacturing cost and material waste. Although the process possesses many advantages ... -
The influence of the adiabatic heating coefficient on the near solidus forming process
Sajjad, Muhammad; Agirre, Julen; Plata, Gorka; Lozares Abasolo, Jokin; Mendiguren, Joseba (Springer Nature, 2025)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 ... -
Sensitivity Analysis of Near Solidus Forming (NSF) Process with Digital Twin Using Taguchi Approach
Sajjad, Muhammad; Trinidad Naranjo, Javier; Plata, Gorka; Lozares Abasolo, Jokin; Mendiguren, Joseba (Springer Nature, 2025)Forging at near solidus material state takes advantage of the high ductility of the material at the semi solid or soft-solid state while keeping most of the mechanical properties of a forged part. The technology is at ...
