Study of Hygrothermal Aging for Basalt Fiber/Epoxy Resin Composites Modified with CeCl3.

With increasing attention being paid to environmental issues, the application of natural fibers in fiber-reinforced composites has attracted more and more attention. Composite materials with basalt fibers (BFs) as reinforcement have excellent properties and are widely used in many fields. Hydrothermal aging crucially influences the durability of basalt fiber/epoxy resin composites (BF/ERCs). In this study, BFs were used as reinforcing materials, whose surfaces were modified with a rare earth modification solution (CeCl3). The density, mechanical performance, and chemical properties of BF/ERCs subjected to hygrothermal aging were analyzed by the weight method, static mechanical performance testing, scanning electron microscopy (SEM), and Fourier transform infrared spectroscopy (FT-IR). The effects of the modification solution with different Ce concentrations on the water absorption, tensile, bending and interlaminar shear strength (ILSS) of BF/ERCs were investigated. The test results showed that the water absorption of BF/ERCs treated with a modification solution that contained Ce 0.5 wt % as the minimum value and the retention rate of the mechanical properties of BF/ERCs reached maximum values after hygrothermal aging.

Seawater immersion exacerbates the pathological changes caused by incisive corneal injury in rabbit eyes.

Background: Seawater immersion complicates injuries suffered during maritime conflicts and eye injury is one of most common injuries on the battlefield. This study aimed to delineate the pathophysiological changes in the cornea after corneal injury combined with seawater immersion. Methods: The left eye of New Zealand White rabbits was injured with firecracker and a 3-mm long whole-layer incision in the center of the cornea parallel to the corneal limbus, followed by seawater immersion. The right eye was used as a control. The histology of the cornea and the inflammatory cytokine/chemokine levels in the aqueous humor were examined on days 1 and 7 after injury. The protein levels of aquaporin 1, 3, and 5 were assessed by immunohistochemical staining 7 days after injury. The expression and activation of nuclear factor κB (NF-κB) were examined by Western blot analysis. Results: Seawater immersion exacerbated penetrating explosive injury caused progressive tissue damage of the cornea and ocular inflammation, with drastic increases in the expression of cytokines/chemokines in the aqueous humor, which was mediated by the upregulation and activation of NF-κB. Furthermore, corneal protein levels of aquaporin 1, 3, and 5 were significantly increased after incisive injury and seawater immersion. Conclusions: These data demonstrated that the combination of incisive injury and seawater immersion is a dangerous situation and effective care strategies should be developed for the management of such maritime injuries.