Effects of ZnS:Mn concentrated vinyl ester matrices under flexural loading on the triboluminescent yield
Abstract
This paper investigates the feasibility of using zinc sulfide manganese (ZnS:Mn) concentrated vinyl ester resin as a photon emitter for damage monitoring of polymer composites under flexural loading. Unreinforced vinyl ester resins doped with optical emitting materials (ZnS:Mn phosphors) in ratios of 550% by weight were cast, and subjected to flexural loading using standard 3-point bend tests. The intent of this work was to observe the transient response of triboluminescence (TL) throughout the failure cycle. Results indicate TL crystals emit light at various intensities corresponding to crystal concentration and imminent matrix fracture. Consequently, concentrated samples showed nearly 50% reductions of mechanical moduli. Scanning electron microscopy (SEM) revealed particulate inclusions with shearing bands and semblance of particle to resin adhesion. Despite significant parasitic effect to mechanical properties, the triboluminescent properties occur at yielding and point of matrix fracture. © 2012 Elsevier B.V.
Publication Title
Journal of Luminescence
Recommended Citation
Dickens, T., Breaux, J., Olawale, D., Sullivan, W., & Okoli, O. (2012). Effects of ZnS:Mn concentrated vinyl ester matrices under flexural loading on the triboluminescent yield. Journal of Luminescence, 132 (7), 1714-1719. https://doi.org/10.1016/j.jlumin.2012.01.056