Composite structures such as CFRP offer significant weight reduction over the conventional aluminum alloys for aircraft. Weight reduction improves fuel efficiency of the aircraft by approximately 20% which results in cost savings and simultaneously reduces the operational environmental footprint. However, the new aluminum-lithium alloys offer significant improvements and are viable alternatives to CFRP. Aluminum lithium alloy 2195 with Friction Stir Welding is introduced as a successful alternative to CFRP primary structures. A "thick skin" monocoque design with integral stringers as crack stoppers is discussed. An old Macchi 205 WWII fighter plane has been redesigned both in CFRP and 2195-FSW for comparison. The final designs are comparable in weight, but 2195-FSW is more competitive based on mass production costs, reparability, and environmental impact. Macchi 205 airplane is used due to in-depth experience with the original aircraft geometry and loads. Knowledge gained here can be directly transferred to larger structures, from corporate jets to large transport category airplanes

Pezzuti, E., Donnici, G. (2014). Structural composites for aircraft design. JOURNAL OF ENGINEERING AND APPLIED SCIENCES, 9(10), 1889-1898.

Structural composites for aircraft design

PEZZUTI, EUGENIO;
2014-10-01

Abstract

Composite structures such as CFRP offer significant weight reduction over the conventional aluminum alloys for aircraft. Weight reduction improves fuel efficiency of the aircraft by approximately 20% which results in cost savings and simultaneously reduces the operational environmental footprint. However, the new aluminum-lithium alloys offer significant improvements and are viable alternatives to CFRP. Aluminum lithium alloy 2195 with Friction Stir Welding is introduced as a successful alternative to CFRP primary structures. A "thick skin" monocoque design with integral stringers as crack stoppers is discussed. An old Macchi 205 WWII fighter plane has been redesigned both in CFRP and 2195-FSW for comparison. The final designs are comparable in weight, but 2195-FSW is more competitive based on mass production costs, reparability, and environmental impact. Macchi 205 airplane is used due to in-depth experience with the original aircraft geometry and loads. Knowledge gained here can be directly transferred to larger structures, from corporate jets to large transport category airplanes
ott-2014
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore ING-IND/15 - DISEGNO E METODI DELL'INGEGNERIA INDUSTRIALE
English
aircraft structures; composite material; aluminum alloys; CFRP, 2195-FSW
http://www.arpnjournals.com/jeas/research_papers/rp_2014/jeas_1014_1269.pdf
Pezzuti, E., Donnici, G. (2014). Structural composites for aircraft design. JOURNAL OF ENGINEERING AND APPLIED SCIENCES, 9(10), 1889-1898.
Pezzuti, E; Donnici, G
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/100987
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