2023
DOI: 10.3390/molecules28062425
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The Effect of Cooling Rates on Thermal, Crystallization, Mechanical and Barrier Properties of Rotational Molding Polyamide 11 as the Liner Material for High-Capacity High-Pressure Vessels

Abstract: The rapid development of hydrogen fuel cells has been paralleled by increased demand for lightweight type IV hydrogen storage vessels with high hydrogen storage density, which raises the performance requirements of internal plastic liners. An appropriate manufacturing process is important to improve the quality of polymer liners. In this paper, DSC, WAXD, a universal testing machine and a differential pressure gas permeameter were used to investigate the effect of the cooling rate of the rotational molding pol… Show more

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Cited by 5 publications
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“…These changes enhance raster bonding and layer adhesion, as the material has a longer cooling time, promoting better chemical and physical adherence between material deposited in different moments of the print. Longer cooling time promotes the crystallization of the polymeric matrix, increasing mechanical performances (Calignano et al, 2020;Ferreira et al, 2020;Yu et al, 2023). Furthermore, higher chamber temperatures promote low cooling rates and lowtemperature gradients, limiting the warping of the final parts and the formation of voids (Wang et al, 2007;Yu et al, 2020).…”
Section: Methodsmentioning
confidence: 99%
“…These changes enhance raster bonding and layer adhesion, as the material has a longer cooling time, promoting better chemical and physical adherence between material deposited in different moments of the print. Longer cooling time promotes the crystallization of the polymeric matrix, increasing mechanical performances (Calignano et al, 2020;Ferreira et al, 2020;Yu et al, 2023). Furthermore, higher chamber temperatures promote low cooling rates and lowtemperature gradients, limiting the warping of the final parts and the formation of voids (Wang et al, 2007;Yu et al, 2020).…”
Section: Methodsmentioning
confidence: 99%