Your search keyword '"Hua Chai"' showing total 5 results

1. Induced current of high temperature superconducting loops by combination of exciting coil and thermal switch

Author

Jiawen Wang, Yin-Shun Wang, Hua Chai, Ling-Feng Zhu, and Wei Pi

Subjects

Materials science, business.industry, Electromagnetic coil, Condensed Matter::Superconductivity, Thermal, General Physics and Astronomy, Optoelectronics, Current (fluid), business

Abstract

With its commercialization, the second-generation (2G) high temperature superconducting (HTS) RE–Ba–Cu–O (REBCO, RE is rare earth) tape is extensively applied to the superconducting magnets in the high magnetic fields. However, unlike low temperature superconducting (LTS) magnets, the HTS magnet cannot operate in the persistent current mode (PCM) due to the immature superconducting soldering technique. In this paper, an exciting method for two HTS sub-loops, so-called charging and load loops, is proposed by flux pump consisting of exciting coil and controllable thermal switch. Two HTS sub-loops are made of an REBCO tape with two slits. An exciting coil with iron core is located in one sub-loop and is supplied with a triangular waveform current so that magnetic field is generated in another sub-loop. The influence of magnetic flux on induced current in load loop is presented and verified in experiment at 77 K. The relationship between the induced magnetic flux density and the current on the sub-loops having been calibrated, magnetic flux density, and induced current are obtained. The results show that the HTS sub-loops can be excited by a coil with thermal switch and the induced current increases with magnetic flux of exciting coil increasing, which is promising for persistent current operation mode of HTS magnets.

Published

2022

2. A lattice Boltzmann–cellular automaton study on dendrite growth with melt convection in solidification of ternary alloys

Author

Guang Lin, Dongke Sun, Zhen-Hua Chai, and Qian Li

Subjects

Materials science, 0103 physical sciences, Lattice Boltzmann methods, General Physics and Astronomy, Thermodynamics, 02 engineering and technology, Melt convection, 021001 nanoscience & nanotechnology, 0210 nano-technology, Ternary operation, 01 natural sciences, Cellular automaton, 010305 fluids & plasmas

Published

2018

3. A solvable operator motion equation of an excited-atom coupled leaky cavity in single-photon generation

Author

Jin-Hua, Chai, primary and Zheng-Fu, Han, additional

Published

2009

4. Processes of DNA condensation induced by multivalent cations: Approximate annealing experiments and molecular dynamics simulations.

Author

Ai-Hua, Chai, Shi-Yong, Ran, Dong, Zhang, Yang-Wei, Jiang, Guang-Can, Yang, and Lin-Xi, Zhang

Subjects

*DNA, *CONDENSATION, *MULTIVALENT molecules, *CATIONS, *MOLECULAR dynamics

Abstract

The condensation of DNA induced by spermine is studied by atomic force microscopy (AFM) and molecular dynamics (MD) simulation in this paper. In our experiments, an equivalent amount of multivalent cations is added to the DNA solutions in different numbers of steps, and we find that the process of DNA condensation strongly depends on the speed of adding cations. That is, the slower the spermine cations are added, the slower the DNA aggregates. The MD and steered molecular dynamics (SMD) simulation results agree well with the experimental results, and the simulation data also show that the more steps of adding multivalent cations there are, the more compact the condensed DNA structure will be. This investigation can help us to control DNA condensation and understand the complicated structures of DNA—cation complexes. [ABSTRACT FROM AUTHOR]

Published

2013

5. A lattice Boltzmann–cellular automaton study on dendrite growth with melt convection in solidification of ternary alloys.

Author

Dong-Ke Sun, Zhen-Hua Chai, Qian Li, and Guang Lin

Subjects

*BOLTZMANN'S relation, *DENDRITIC crystals, *SOLIDIFICATION, *TERNARY alloys, *MICROSTRUCTURE

Abstract

A lattice Boltzmann (LB)–cellular automaton (CA) model is employed to study the dendrite growth of Al-4.0 wt%Cu–1.0 wt%Mg alloy. The effects of melt convection, solute diffusion, interface curvature, and preferred growth orientation are incorporated into the coupled model by coupling the LB–CA model and the CALPHAD-based phase equilibrium solver, PanEngine. The dendrite growth with single and multiple initial seeds was numerically studied under the conditions of pure diffusion and melt convection. Effects of initial seed number and melt convection strength were characterized by new-defined solidification and concentration entropies. The numerical result shows that the growth behavior of dendrites, the final microstructure, and the micro-segregation are significantly influenced by melt convection during solidification of the ternary alloys. The proposed solidification and concentration entropies are useful characteristics bridging the solidification behavior and the microstructure evolution of alloys. [ABSTRACT FROM AUTHOR]

Published

2018