Considering that nowadays the interest in the use of bio-composite materials is increasing more and more, this work is focused on the manufacturing of lightweight components based on hemp fibres for future applications, for example as a core for sandwich structures. Three different no-complex processes were used: a conventional hand lay-up, an unconventional infusion process and a hand lay-up process followed by injection moulding. They were used to produce bio-composite structures using an epoxy resin and/or a polyurethane foam as matrix. Depending on the process used for the manufacturing, laminates with different values of density were obtained. A detailed study in terms of both static and dynamic properties was carried out and the different mechanical behaviour for each sample typology was highlighted. The results showed that the process in which both the epoxy resin and the polyurethane foam were used as matrix allowed to obtain laminates with lower density and higher specific mechanical properties.
Lightweight bio-composites based on hemp fibres produced by conventional and unconventional processes / Boccarusso, Luca; Durante, Massimo; Formisano, Antonio; Langella, Antonio; MEMOLA CAPECE MINUTOLO, Fabrizio. - 1892:(2017), pp. 050015-1-050015-6. (Intervento presentato al convegno 20th International ESAFORM Conference on Material Forming tenutosi a Dublin, Ireland nel 26–28 April 2017) [10.1063/1.5008060].
Lightweight bio-composites based on hemp fibres produced by conventional and unconventional processes
BOCCARUSSO, LUCA
;DURANTE, MASSIMO;FORMISANO, ANTONIO;LANGELLA, ANTONIO;MEMOLA CAPECE MINUTOLO, FABRIZIO
2017
Abstract
Considering that nowadays the interest in the use of bio-composite materials is increasing more and more, this work is focused on the manufacturing of lightweight components based on hemp fibres for future applications, for example as a core for sandwich structures. Three different no-complex processes were used: a conventional hand lay-up, an unconventional infusion process and a hand lay-up process followed by injection moulding. They were used to produce bio-composite structures using an epoxy resin and/or a polyurethane foam as matrix. Depending on the process used for the manufacturing, laminates with different values of density were obtained. A detailed study in terms of both static and dynamic properties was carried out and the different mechanical behaviour for each sample typology was highlighted. The results showed that the process in which both the epoxy resin and the polyurethane foam were used as matrix allowed to obtain laminates with lower density and higher specific mechanical properties.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.