Sentence examples for understand the loading from inspiring English sources

A further study with a broader guest loading range would be appropriate to fully understand the loading effect on the self-diffusion of H2 guest molecules in the Li-LSX zeolite as the H2 storage candidate.

The GeoSHM system, conducted by the University of Nottingham, intends to develop and demonstrate a novel system to tackle the issues in structural deformation monitoring of long bridges and make it possible for the bridge masters to fully understand the loading and response effect of the bridge, and identify unusual deformations under extreme weather conditions.

Second, there was no way to model or understand the loading conditions in all of the potential implant environments, so the optimal methods and applicability of preclinical testing were uncertain.

Furthermore, the torsional behavior of the triangular deck-truss beam was numerically investigated by removing individual primary truss members to clearly understand the load transfer mechanism.

The findings are useful to better understand the load transfer mechanism in CNT-reinforced MMNC and the tuning and optimization of the reinforcing performance through thermal processing.

To further understand the load effect on the friction-induced selective etching of the Si/Si3N4 sample, the scratching tests were performed on a Si/Si3N4 sample under different constant loads.

A 4 degree-of-freedom mechanical model is constructed and corresponding experiments are conducted to better understand the load transfer and dynamic responses of buried structures due to surface impact loading.

However, masonry break-out at the connection between the steel plates and the masonry panel requires further analysis to better understand the load transfer mechanism of the hybrid masonry system.

To fully understand the load-carrying mechanism obtained from the experiments, numerical analyses were performed by equivalently converting the torsion reaction of the hybrid twin-trackway structure to the bending and torsion of its twin triangular deck-truss beams.

The research findings are useful to better understand the load transfer process on the tube-metal interface and the reinforcing mechanism of nanotubes, and ultimately contribute to the optimal design and performance of nanotube-reinforced MMNC.

Stress distribution of complex layered structure was elicited with an applied strain of 1% in order to understand the load sharing of various composite layers in the turtle's carapace.