Rheocasting is a semisolid casting process allowing toobtain near-net shapeparts. Through the Rheocasting process, itis possible to achievealuminium castings havinga lowgrade of porosity if compared to traditional die-casting methods, encouraging the production of automotive frame parts. However, casting processes, as commonly known, may cause tensile residual stresses inside the parts. Onthe other hand, compressive stresses inside castings can significantly increase the life of components: residual compressive stresses increase the material's resistance by counteracting crack initiation and propagation. The cracks propagate when the material is under tensile stress, while the Rheocasting technique seems to promote compressive stresses inside the castings.This work aims to analyse an aluminium rheocasted frame component for race cars in both the as-cast and heat-treated conditions. First,the mechanical properties of the components were evaluatedin terms of tensile tests and microhardness.Then, residual stresses were measured at specific points of the casting.Finally, theevolution of the residual stresses inside the component before and after heat treatment led to assessing the effect of the Rheocasting process condition andthe heat treatment, proving the marked advantage of using such a technology.

Characterisation of Residual Stresses of Rheocast Al Alloy / Fracchia, Elisa; Gattelli, Ivano; ACTIS GRANDE, Marco. - ELETTRONICO. - 347:(2023), pp. 31-37. (Intervento presentato al convegno The 17th International Conference on Semi Solid Processing of Alloys & Composites tenutosi a Brescia nel 6-8 september 2023) [10.4028/p-cQ6PQs].

Characterisation of Residual Stresses of Rheocast Al Alloy

Elisa Fracchia;Marco Actis Grande
2023

Abstract

Rheocasting is a semisolid casting process allowing toobtain near-net shapeparts. Through the Rheocasting process, itis possible to achievealuminium castings havinga lowgrade of porosity if compared to traditional die-casting methods, encouraging the production of automotive frame parts. However, casting processes, as commonly known, may cause tensile residual stresses inside the parts. Onthe other hand, compressive stresses inside castings can significantly increase the life of components: residual compressive stresses increase the material's resistance by counteracting crack initiation and propagation. The cracks propagate when the material is under tensile stress, while the Rheocasting technique seems to promote compressive stresses inside the castings.This work aims to analyse an aluminium rheocasted frame component for race cars in both the as-cast and heat-treated conditions. First,the mechanical properties of the components were evaluatedin terms of tensile tests and microhardness.Then, residual stresses were measured at specific points of the casting.Finally, theevolution of the residual stresses inside the component before and after heat treatment led to assessing the effect of the Rheocasting process condition andthe heat treatment, proving the marked advantage of using such a technology.
2023
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2981295