Petrică-Andrei Linul scite author profile

Unreinforced and reinforced semi-rigid polyurethane (PU) foams were prepared and their compressive behavior was investigated. Aluminum microfibers (AMs) were added to the formulations to investigate their effect on mechanical properties and crush performances of closed-cell semi-rigid PU foams. Physical and mechanical properties of foams, including foam density, quasi-elastic gradient, compressive strength, densification strain, and energy absorption capability, were determined. The quasi-static compression tests were carried out at room temperature on cubic samples with a loading speed of 10 mm/min. Experimental results showed that the elastic properties and compressive strengths of reinforced semi-rigid PU foams were increased by addition of AMs into the foams. This increase in properties (61.81%-compressive strength and 71.29%-energy absorption) was obtained by adding up to 1.5% (of the foam liquid mass) aluminum microfibers. Above this upper limit of 1.5% AMs (e.g., 2% AMs), the compressive behavior changes and the energy absorption increases only by 12.68%; while the strength properties decreases by about 14.58% compared to unreinforced semi-rigid PU foam. The energy absorption performances of AMs reinforced semi-rigid PU foams were also found to be dependent on the percentage of microfiber in the same manner as the elastic and strength properties.

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Mechanical properties of A356 and ZA27 metallic syntactic foams at cryogenic temperature

Fiedler

Al-Sahlani

Linul

et al. 2020

Journal of Alloys and Compounds

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Petrică-Andrei Linul

Cryogenic and high temperature compressive properties of Metal Foam Matrix Composites

Compressive Behavior of Aluminum Microfibers Reinforced Semi-Rigid Polyurethane Foams

Mechanical properties of A356 and ZA27 metallic syntactic foams at cryogenic temperature

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