Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Influence of cut-out hole on multi-layer Kevlar-29/epoxy composite laminated plates
Highlights ► We investigate variety of orientation angles with cutout holes on Kevlar-29 fibers. ► The Kevlar-29 fibers were subjected to quasi-static compressive and tensile load. ► Hole and fibre angle orientation affected the composite’s strength and stiffness. ► 0°, 90° Orientation angle of fiber is stronger than +45°, −45° orientation angle.
Abstract This paper presented the effect of cutout hole on multi layer of Kevlar-29/epoxy composite laminated plates this effect occurred and fiber orientation angle. An experimental procedure was developed to study the performance of these effects under quasi-static compressive and tensile load using a servo-hydraulic testing machine. The work involved investigation on the variety of orientation angles of Kevlar-29 fiber. The ultimate load of failure for each Kevlar-29/epoxy laminated plates had been determined and specified the optimum angle orientation and the load reduction due to the effect of fiber orientation angle (+45°/−45°) was low in the case for compared (0°/90°) orientation angle of fiber. To simulate this problem the researcher used Explicit Mesh for AUTODYN under ANSYS-12.1 software, where the researcher found that the results obtained via this simulation agreed reasonably well with the experimental results and the maximum difference between the experimental conditions and the simulation was 5.8%.
Influence of cut-out hole on multi-layer Kevlar-29/epoxy composite laminated plates
Highlights ► We investigate variety of orientation angles with cutout holes on Kevlar-29 fibers. ► The Kevlar-29 fibers were subjected to quasi-static compressive and tensile load. ► Hole and fibre angle orientation affected the composite’s strength and stiffness. ► 0°, 90° Orientation angle of fiber is stronger than +45°, −45° orientation angle.
Abstract This paper presented the effect of cutout hole on multi layer of Kevlar-29/epoxy composite laminated plates this effect occurred and fiber orientation angle. An experimental procedure was developed to study the performance of these effects under quasi-static compressive and tensile load using a servo-hydraulic testing machine. The work involved investigation on the variety of orientation angles of Kevlar-29 fiber. The ultimate load of failure for each Kevlar-29/epoxy laminated plates had been determined and specified the optimum angle orientation and the load reduction due to the effect of fiber orientation angle (+45°/−45°) was low in the case for compared (0°/90°) orientation angle of fiber. To simulate this problem the researcher used Explicit Mesh for AUTODYN under ANSYS-12.1 software, where the researcher found that the results obtained via this simulation agreed reasonably well with the experimental results and the maximum difference between the experimental conditions and the simulation was 5.8%.
Influence of cut-out hole on multi-layer Kevlar-29/epoxy composite laminated plates
Abu Talib, A.R. (Autor:in) / Ramadhan, A.A. (Autor:in) / Mohd Rafie, A.S. (Autor:in) / Zahari, R. (Autor:in)
02.06.2012
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Influence of cut-out hole on multi-layer Kevlar-29/epoxy composite laminated plates
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