16 x 10(-8) +/- 0 15 mol s(-1) cm(-2) at 298 K to 1 46 x 10(-8) +

16 x 10(-8) +/- 0.15 mol s(-1) cm(-2) at 298 K to 1.46 x 10(-8) +/- 0.15 mol s(-1) cm(-2) at 353 K for Nafion (R) 112. The flux was found to increase with increasing Delta p across the membrane and decrease with increasing acid concentration. From the flux data we were able to calculate the SO2 permeation, diffusion and

solubility parameters for the various membranes. The measured and calculated values were compared to existing literature values. The lowest SO2 crossover was observed at high temperatures, low differential pressures and Anlotinib molecular weight high H2SO4 concentrations. (c) 2012 Elsevier B.V. All rights reserved.”
“Scale-bridging analysis on deformation behavior of high-nitrogen austenitic Fe-18Cr-10Mn-(0.39 and 0.69) N steels was performed by neutron diffraction, electron backscattered diffraction (EBSD),

and transmission electron microscopy (TEM). Two important modes of deformation were identified depending on the nitrogen content: deformation twinning in the 0.69 N alloy and strain-induced martensitic transformation in the 0.39 N alloy. The phase fraction and deformation faulting probabilities were evaluated based on analyses of peak shift and DAPT asymmetry of neutron diffraction profiles. Semi in situ EBSD measurement was performed to investigate the orientation dependence of deformation microstructure and it showed that the variants of epsilon martensite as well as twin showed strong orientation dependence with respect to tensile axis. TEM observation showed that deformation twin with a 111 smaller than 11 (2) over bar bigger than crystallographic component was predominant in the 0.69 N alloy whereas two types of strain-induced martensites (epsilon and alpha’ martensites) were observed in GDC-0973 chemical structure the 0.39 N alloy. It can be concluded that scale-bridging analysis using neutron diffraction, EBSD, and TEM can yield a comprehensive understanding of the deformation mechanism of nitrogen-alloyed austenitic steels.”
“Background and Purpose-The purpose of this study was to evaluate whether bright vessel appearance on arterial

spin labeling (ASL) MRI can help localize arterial occlusion sites in patients with acute ischemic stroke. Methods-Patients who underwent MRI for suspected acute ischemic stroke, as identified by an area of restricted diffusion, were included. All images were visually analyzed for the presence or absence of (1) arterial occlusion on time-of-flight MR angiography, (2) bright vessel appearance on ASL images, and (3) susceptibility vessel sign. McNemar 2-tailed test was used to compare the sensitivities of ASL and susceptibility-weighted imaging for the detection of arterial occlusion, using MR angiography as the reference standard. Results-ASL bright vessel appearance was significantly more common in the group with occlusion than in the group without occlusion (94% [33 of 35] versus 21% [17 of 82], respectively; P smaller than 0.001).

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