6,080 research outputs found
Study on the Rheological Properties and Constitutive Model of Shenzhen Mucky Soft Soil
In order to obtain the basic parameters of numerical analysis about the time-space effect of the deformation occurring in Shenzhen deep soft-soil foundation pit, a series of triaxial consolidated-undrained shear rheology tests on the peripheral mucky soft soil of a deep foundation pit support were performed under different confining pressures. The relations between the axial strain of the soil and time, as well as between the pore-water pressure of the soil and time, were achieved, meanwhile on the basis of analyzing the rheological properties of the soil, the relevant rheological models were built. Analysis results were proved that the rheology of Shenzhen mucky soft soil was generally viscous, elastic, and plastic, and had a low yield stress between 90 and 150 kPa. The increase in pore-water pressure made the rheological time effect of the mucky soft soil more remarkable. Thus, the drainage performance in practical engineering should be improved to its maximum possibility extent to decrease the soft-soil rheological deformation. Lastly, a six-component extended Burgers model was employed to fit the test results and the parameters of the model were determined. Findings showed that the extended Burgers model could satisfactorily simulate the various rheological stages of the mucky soft soil. The constitutive model and the determination of its parameters can be served as a foundation for the time-space effect analysis on the deformation of deep soft-soil foundation pits
One-Way Hash Function Based on Delay-Induced Hyperchaos
Peer reviewedPostprin
Three-dimensional manipulation of electron beam phase space for seeding soft x-ray free-electron lasers
In this letter, a simple technique is proposed to induce strong density
modulation into the electron beam with small energy modulation. By using the
combination of a transversely dispersed electron beam and a wave-front tilted
seed laser, three-dimensional manipulation of the electron beam phase space can
be utilized to significantly enhance the micro-bunching of seeded free-electron
laser schemes, which will improve the performance and extend the
short-wavelength range of a single-stage seeded free-electron laser.
Theoretical analysis and numerical simulations demonstrate the capability of
the proposed technique in a soft x-ray free-electron laser.Comment: 8 pages, 4 figure
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