2020
DOI: 10.1002/app.49639
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A comparative experimental study of the hygroscopic and mechanical behaviors of electrospun nanofiber membranes and solution‐cast films of polybenzimidazole

Abstract: This article reports a comparative experimental study of the hygroscopic and mechanical behaviors of electrospun polybenzimidazole (PBI) nanofiber membranes and solution-cast PBI films. Aselectrospun nonwoven PBI nanofiber mats (with the nanofiber diameter of ~250 nm) were heat-pressed under controlled temperature, pressure and duration for the study; lab-made solution-cast PBI films and commercially available PBI films (the PBI Performance Product Inc., Charlotte, NC ) were used as the control samples. Thermo… Show more

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Cited by 14 publications
(11 citation statements)
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“…Thus, the nominal/effective areal size of the microtensile test specimens was 10 mm × 50 mm. During a uniaxial tensile test, a displacement control method with the constant loading rate of 2 mm/min was maintained and at least three specimens were tested in each case of the SPI-OS film specimens. …”
Section: Methodsmentioning
confidence: 99%
“…Thus, the nominal/effective areal size of the microtensile test specimens was 10 mm × 50 mm. During a uniaxial tensile test, a displacement control method with the constant loading rate of 2 mm/min was maintained and at least three specimens were tested in each case of the SPI-OS film specimens. …”
Section: Methodsmentioning
confidence: 99%
“…The stress response of PBI at temperatures below 130 °C is dominated by its hygroscopicity (Figure S6). PBI has a high affinity for moisture owing to the hydrogen bonds formed between water and nitrogen and N–H groups in PBI frameworks and can absorb as much as 15 wt % of water at equilibrium. As the temperature increases during the heating process, the evaporation of water results in the shrinkage of the PBI film, which gives rise to tensile stress in the film when constrained by the underlying substrate. At temperatures above 130 °C, the absorbed water has completely evaporated, and the observed stress behavior stems solely from the intrinsic thermal expansion behavior of PBI.…”
Section: Resultsmentioning
confidence: 99%
“…Nanofibrous membranes submitted to heat‐press treatment have shown a great enhancement of mechanical properties, allowing tailoring pore size and pore distribution as well as the fusion and overlapping of interconnected spots, which in turn can enhance the mechanical strength and structural integrity. [ 115–117 ] As presented by Lee and collaborators, [ 113 ] a slight temperature change can result in improved elongation at break and tensile strength, as shown in Figure a. Setting the nanofibrous membrane between two flat metal plates in hydraulic hot‐press can perform the hot‐press treatment.…”
Section: Post‐modification Methods For Micro/nanofibermentioning
confidence: 98%