In this paper, the authors elaborate how numerical techniques developed from the direct method can be used to predict the load-bearing capacity of the aluminum casting beam structure which is presently used in the Chinese high-speed train CRH5A. The numerical method introduced in this paper is formulated based on the Melan's static theorem; thus, it determines the strength of the cast aluminum beam under both monotonic and cyclic loads without following the entire load profile. In addition to constructing the plastic and shakedown limits of the component, the proposed approach is also employed to study how stiffeners' thickness on the key areas influences the feasible load domains. Based on the intensive sensitivity analysis, an optimal thickness has been determined which gives the highest strength-to-weight ratio. To this end, the paper confirms that the direct method is a viable means for designing structures used in the rolling stock.
Laser-induced graphene (LIG) has
recently been attracting attention
as a highly efficient method to process antimicrobial materials with
scalable sizes and tunable properties. In this work, freestanding
graphene papers are systematically investigated to study their process-
and structure-dependent antibacterial activities against both Gram-positive
and Gram-negative species. In addition to microscopy analyses for
qualitative discussion of live and dead cells, a colony counting assay
is applied to precisely quantify the loss of viability of bacteria
treated by various laser-induced graphene papers (LIGPs) with tunable
microstructures. Remarkably, the 1.25 W-processed LIGPs (LIGP-1.25
W) exhibit the highest reduction rate of 92.8% for Escherichia coli (E. coli) and 95.2% for Staphylococcus aureus (S. aureus), compared with LIGPs
processed under 0.75 W (LIGP-0.75 W) and 1.75 W (LIGP-1.75 W). In
addition to proving the combined membrane stress and reactive oxygen
species (ROS)-independent oxidative stress-related mechanisms, the
specific interconnected open-cell network with the highest specific
surface area (171.6 m2/g) is found to be the determinant
with fruitful bacteria trapping sites. Finally, corrosion resistance
test is applied for demonstrating the capability of LIGPs for protecting
the aluminum alloy sheet against immersion invasion of E. coli suspension up to 3 weeks, suggesting their
great potentiality for facilitating advanced environmental protection
activities.
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