Sentence examples for microstructure and gas from inspiring English sources

Dry reforming of methane over novel fibrous NiO/CeO2 nanocatalysts was studied to investigate the influence of catalyst microstructure and gas flow rate on carbon formation.

The microstructure and gas separation properties of the precursor membranes and supported CMS membranes were characterized in terms of the different weight ratios of PI to PEI.

These results confirmed that the microstructure and gas separation performance of CMS membranes can be adjusted by blending two thermally stable polymers.

In this study, the Savonnières limestone as a carbonate mineral was evaluated at micro scales using X-ray micro-computed tomography at high resolutions (3.43 μm and 1.25 μm voxel size) under different effective stress (0 MPa, 20 MPa) to ascertain limestone microstructure and gas permeability and porosity effect.

The effect of laser power on microstructure and gas-sensing properties of SnO2 thick film gas sensors has been investigated.

After gas sensors based on ZnO nanotetrapods (T-ZnO) were processed by sintering at different temperatures from 350 to 850 °C, a strong correlation was interestingly found among the sintering processing, material microstructure and gas-sensing properties.

ZnO nanoparticles, nanoplates and nanoflowers have been successfully synthesized via a facile hydrothermal route, and their microstructures and gas-sensing properties to ethanol were investigated.

Analysis of microstructure, phases, and gas-tightness were carried out for various processing conditions.

The microstructure, mechanical properties and gas permeability of porous supports of Ce0.9Gd0.1O1.95−δ (CGO) were investigated as a function of sintering temperature and volume fraction of pore former for use in planar asymmetric oxygen transport membranes (OTMs).

The effect of variation in composition on miscibility and microstructure, gas permeability and selectivity of blend membranes is investigated.

This paper presents a method to establish a relationship between internal microstructure and the effective gas diffusion coefficient in fibrous materials via a mesoscopic modeling approach and, when possible and based on the analysis, to propose user-friendly formulas as functions of structural parameters for practical engineering applications.