44,946 research outputs found
On utilization of elliptical rings in assessing cracking tendency of concrete
A new experimental method by utilizing elliptical rings to replace circular rings recommended by ASTM and AASHTO was explored for assessing cracking potential of concrete and other cement-based materials under restrained condition. A series of thin and thick elliptical concrete rings were tested alongside circular ones until cracking. Cracking age, position, and propagation were carefully examined. It is found that thin elliptical rings with appropriate geometry can initiate cracks quicker than circular ones, which is desirable for accelerating the ring test. However, thick elliptical rings seem not to exhibit a desirable geometry effect of accelerating ring test compared with circular ones. There were multiple visible cracks that occurred in an elliptical ring and some cracks were initiated but did not propagate through the ring wall. In comparison, there was only one crack in the circular rings. Finally, the features of multiple cracks in restrained elliptical rings were examined and their impact on interpreting elliptical ring test results was elaborated. © 2014 4th International Conference on the Durability of Concrete Structures
A fracture mechanics-based method for prediction of cracking of circular and elliptical concrete rings under restrained shrinkage
A new experimental method, utilizing elliptical ring specimens, is developed for assessing the likelihood of cracking and cracking age of concrete subject to restrained shrinkage. To investigate the mechanism of this new ring test, a fracture mechanics-based numerical approach is proposed to predict crack initiation in restrained concrete rings by using the R-curve method. It has been found that numerical results accord well with experimental results in terms of cracking ages for both circular and elliptical concrete rings, indicating that the proposed fracture mechanics-based numerical approach is reliable for analyzing cracking in concrete ring specimens subject to restrained condition.UK Engineering and Physical Sciences Research Council under the grant of EP/I031952/1, and the National Natural Science Foundation of China under the grant of NSFC 51121005/5110902
Quantum transport through double-dot Aharonov-Bohm interferometry in Coulomb blockade regime
Transport through two quantum dots laterally embedded in Aharonov-Bohm
interferometry with infinite intradot and arbitrary interdot Coulomb repulsion
is analyzed in the weak coupling and Coulomb blockade regime. By employing the
modified quantum rate equations and the slave-boson approach, we establish a
general dc current formula at temperatures higher than the Kondo temperature
for the case that the spin degenerate levels of two dots are close to each
other. We examine two simple examples for identical dots - no doubly occupied
states and no empty state. In the former, completely destructive coherent
transport and phase locking appear at magnetic flux and
respectively; in the latter, partially coherent transport exhibits an
oscillation with magnetic flux having a period of .Comment: 8 pages, 3 figure
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