The investigation for natural fibers composites in terms of performance, durability, and environmental impact for structural applications in marine environments is a relevant challenge in scientific and industrial field. For the sake of comparison, also full flax and glass epoxy composites were investigated. All samples were exposed to salt fog environmental conditions up to 60 aging days. Wettability behavior during time was compared with water uptake evolution to assess water sensitivity of hybrid composite configurations. For the sake of comparison, also full flax and glass epoxy composites were investigated. All samples were exposed to salt fog environmental conditions up to 60 aging days. Wettability behavior during time was compared with water uptake evolution to assess water sensitivity of hybrid composite configurations. Moreover, quasi-static flexural and dynamic mechanical analysis were carried to evaluate as aging conditions, laminate configuration influence the surface and mechanical performances stability of the hybrid composites. The addition of glass fibers on flax laminate allows to enhance both flexural strength by 90%, and modulus by 128%, even if these properties are lower than those of full glass laminates. The results evidenced that the hybridization of flax fibers with glass ones is a practical approach to enhance the aging durability of epoxy/flax composite laminates in marine environmental conditions, obtaining a suitable compromise among environmental impact, mechanical properties, aging resistance, and costs.

Calabrese, L., Fiore, V., Scalici, T., Valenza, A. (2019). Experimental assessment of the improved properties during aging of flax/glass hybrid composite laminates for marine applications. JOURNAL OF APPLIED POLYMER SCIENCE, 136(14) [10.1002/app.47203].

Experimental assessment of the improved properties during aging of flax/glass hybrid composite laminates for marine applications

Fiore, V.;Scalici, T.;Valenza, A.
2019-04-10

Abstract

The investigation for natural fibers composites in terms of performance, durability, and environmental impact for structural applications in marine environments is a relevant challenge in scientific and industrial field. For the sake of comparison, also full flax and glass epoxy composites were investigated. All samples were exposed to salt fog environmental conditions up to 60 aging days. Wettability behavior during time was compared with water uptake evolution to assess water sensitivity of hybrid composite configurations. For the sake of comparison, also full flax and glass epoxy composites were investigated. All samples were exposed to salt fog environmental conditions up to 60 aging days. Wettability behavior during time was compared with water uptake evolution to assess water sensitivity of hybrid composite configurations. Moreover, quasi-static flexural and dynamic mechanical analysis were carried to evaluate as aging conditions, laminate configuration influence the surface and mechanical performances stability of the hybrid composites. The addition of glass fibers on flax laminate allows to enhance both flexural strength by 90%, and modulus by 128%, even if these properties are lower than those of full glass laminates. The results evidenced that the hybridization of flax fibers with glass ones is a practical approach to enhance the aging durability of epoxy/flax composite laminates in marine environmental conditions, obtaining a suitable compromise among environmental impact, mechanical properties, aging resistance, and costs.
10-apr-2019
Calabrese, L., Fiore, V., Scalici, T., Valenza, A. (2019). Experimental assessment of the improved properties during aging of flax/glass hybrid composite laminates for marine applications. JOURNAL OF APPLIED POLYMER SCIENCE, 136(14) [10.1002/app.47203].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/335057
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