Sustainable manufacturing of ultra-fine aluminium alloy 6101 wires using controlled high levels of mechanical strain and finite element modeling

Abstract: The evolution of grain size and component mechanical behaviour are fundamental aspects to analyse and control when manufacturing processes are considered. In this context, severe plastic deformation (SPD) processes, in which a high shear strain is imposed on the material, are recognized as the main techniques to achieve microstructural changes and material strengthening by the recrystallization, attracting both academic and industrial investigation activities. At the same time, nowadays, sustainable manufactur… Show more

“…AM could also be used to produce parts that improve the sustainability of existing manufacturing systems. Caruso and Filice [48] have designed and produced an innovative part via AM to increase resource efficiency in Aluminum alloy wire manufacturing. The role of the part is to provide an innovative deformation process by increasing the flexibility of the manufacturing process while controlling and adapting the mechanical strain of the wires.…”

A Systematic Literature Review: Industry 4.0 Based Monitoring and Control Systems in Additive Manufacturing

“…AM could also be used to produce parts that improve the sustainability of existing manufacturing systems. Caruso and Filice [48] have designed and produced an innovative part via AM to increase resource efficiency in Aluminum alloy wire manufacturing. The role of the part is to provide an innovative deformation process by increasing the flexibility of the manufacturing process while controlling and adapting the mechanical strain of the wires.…”

A Systematic Literature Review: Industry 4.0 Based Monitoring and Control Systems in Additive Manufacturing

Explainable machine learning for enhancing predictive accuracy of cutting forces in hard turning processes

A modified Johnson-Cook model to determine plastic flow behavior of Fe-30Mn-9Al-0.8 C low-density steel during warm multiaxial forging