Your search keyword '"Hu, Jiaju"' showing total 5 results

1. Analysis of the seismic dynamic response and failure mode of the Layue landslide.

Author

Xu, Ming, Yu, Xiaoyue, Pan, Yuhua, Liu, Xianshan, Zhao, Yuanping, and Hu, Jiaju

Subjects

FAILURE mode & effects analysis, SEISMIC response, LANDSLIDES, SHAKING table tests, GROUND motion, SEISMIC waves, NATURAL disaster warning systems

Abstract

Shear failure of bedding slopes along weak zones is the main failure mechanism of the Layue landslide. To investigate the seismic dynamic response and destabilization failure mode of rock slopes with laminated fracture structures, a two-dimensional shaking table test with different ground motion inputs was performed, taking into consideration a variety of factors, such as the input seismic wave type and amplitude. The results show that the ground shaking characteristics and geological structure of the slope are the decisive factors in determining the seismic dynamic stability and failure mode of the slope. The horizontal dynamic response of the slope has an obvious elevation amplification effect and topographic effect, and the elevation has less influence on the vertical dynamic response of the slope. The ground motion amplification effect is related to the mechanical strength of the structural surface, the waveform of seismic waves, and the spectral characteristics. The sine wave has a more significant influence on the amplification effect of the slope than the natural wave. The slope cracks are initiated and propagate at the weakest part depending on the dominant structural surface and trace to the joint surface to form creep sections and locking sections. The strength parameter of the joint surface weakens under the action of geological agents, which results in two failure modes of the slope: the forward failure mode and the backward failure mode. The former refers to the potential slip belt lap through from the trailing edge to the front edge, where the sliding mass is cut out from the high position. The latter refers to the potential slip belt lap through the front edge to the trailing edge, and the sliding mass breaks down and is destroyed. Through a unique adaptive device, the seismic anchor cable can coordinate the deformation of the anchor cable with the rock-soil body, which can reduce the risk of a slope earthquake disaster. [ABSTRACT FROM AUTHOR]

Published

2023

2. Tyrosine sulphation of CXCR4 induces the migration of fibroblast in OSF.

Author

He, Caiyun, Wang, Weiming, Wan, Wendong, Liang, Jie, Hu, Jiaju, Yuan, Yongxiang, Jiang, Canhua, and Li, Ning

Subjects

BIOCHEMISTRY, FIBROBLASTS, SEQUENCE analysis, EPIDERMAL growth factor receptors, ORAL diseases, FIBROSIS, CELL receptors, RNA, CELL motility, MOLECULAR biology, CELLULAR signal transduction, GENE expression, RESEARCH funding, ORAL mucosa, CHEMOKINES, TYROSINE

Abstract

Oral submucous fibrosis (OSF) caused by areca nut chewing is a prevalent fibrotic disease in Asia‐Pacific countries. Arecoline‐induced migration of fibroblasts (FBs) plays a vital role in the development of OSF. However, the specific molecular mechanisms involved remain unclear. Many studies have shown that tyrosine sulphation of chemokines can influence cell migration. Herein, we demonstrated that arecoline stimulates tyrosine sulphation of the chemokine receptor 4 (CXCR4) through the tyrosylprotein sulphotransferase‐1 (TPST‐1) to enhance the migration ability of FBs. Moreover, by RNA‐Seq analysis, we found that the most significantly altered pathway was the EGFR pathway after the arecoline stimulation for FBs. After the knockdown of arecoline‐induced EGFR expression, the tyrosine sulphation of CXCR4 was significantly decreased by the inhibition of TPST‐1 induction. Finally, in human OSF specimens, TPST‐1 expression was directly correlated with the expression of CXCR4. These data indicate that the arecoline‐induced tyrosine sulphation of CXCR4, which is regulated by TPST‐1, might be a potential mechanism that contributes to FB migration in OSF. [ABSTRACT FROM AUTHOR]

Published

2023

3. Verification and Analysis of the Problem-Dependent Multigroup Macroscopic Cross-Sections for Shielding Calculations.

Author

Zhao, Xu, Shi, Shengchun, Xu, Wen, Hu, Jiaju, Wu, Jun, and Zhang, Bin

Subjects

MACROSCOPIC cross sections, NEUTRON transport theory, NEUTRON flux, REQUIREMENTS engineering, IRON, REFERENCE values

Abstract

Multigroup constants are the foundation of neutron and photon transport problems, and the accuracy of multigroup cross-sections has a significant impact on shielding calculation. Challenges have arisen in generating accurate multigroup macroscopic cross-sections for some problems using the widely used cross-section processing code TRANSX 2.15. We developed the multigroup neutron-photon macroscopic cross-section processing module in the shielding transport code ARES. The module is capable of handling the neutron-photon coupled master libraries in MATXS format and providing the problem-dependent multigroup macroscopic cross-sections tailored to each specific shielding physics problem. The self-designed problems with a single nuclide, as well as the iron and OKTAVIAN experiments, are used to verify and analyze the accuracy of neutron and photon macroscopic cross-sections. Results indicate that the macroscopic cross-sections, neutron flux and neutron-photon leakage spectrum obtained by the MGMXS module are consistent with corresponding reference values. As for the JANUS Phase I fixed source shielding benchmark, the relative differences in the reaction rate between the calculation results and experimental data are within 20%. The module provides better problem-dependent multigroup macroscopic cross-sections for neutron and photon shielding calculations that satisfy the accuracy requirements of engineering applications. [ABSTRACT FROM AUTHOR]

Published

2023

4. Photochemical vapor generation for germanium: synergistic effect from cobalt/chloride ions and air-liquid interfaces.

Author

Yu, Ying, Hu, Jiaju, Zhao, Xinyi, Liu, Jiangchuan, and Gao, Ying

Subjects

CHLORIDE ions, INDUCTIVELY coupled plasma mass spectrometry, GERMANIUM, CHLORIDE channels, COBALT, GASES, CHEMICAL preconcentration

Abstract

Photochemical vapor generation (PVG) of germanium (Ge) was first reported in this work. The synergistic effect from cobalt/chloride ions and air-liquid interfaces was found for the PVG of Ge. No obvious signal response was observed from the standard solution of Ge in 10% (v/v) formic acids (FAs) under UV irradiation. The addition of 300 mg L−1 of Co2+ and 30 mmol L−1 of Cl− resulted in enhanced photochemical reduction for Ge, and the introduction of air-liquid interfaces proceeding and succeeding the sample solution caused another 4.6 folds of enhancement in signal response of Ge. Under the selected condition, the limit of detection (LOD, 3σ, n = 11) was obtained to be 0.008 ng mL−1 with inductively coupled plasma mass spectrometry (ICP MS) measurement. A good precision, expressed as a relative standard deviation (RSD, n = 7) of 2.0%, was found from replicated measurements of 2 ng mL−1 of Ge. The generation efficiency was found to be no better than 9 ± 2%. The PVG mechanism of Ge was investigated in this work. The new finding is useful for understanding the principle of PVG, and further exploring the analytical and environmental application of PVG. [ABSTRACT FROM AUTHOR]

Published

2022

5. Verification of CENDL-3.2 Nuclear Data on VENUS-3 Shielding Benchmark by ARES Transport Code.

Author

Hu, Jiaju, Zhang, Bin, Zong, Zhiwei, Liu, Cong, and Chen, Yixue

Subjects

NEUTRON flux, FAST neutrons, DATA libraries, NUCLEAR research

Abstract

The recently released CENDL-3.2 nuclear data library is deemed as an important achievement in the field of nuclear data research in China. To verify the applicability of the library to the shielding calculation of PWR and analyze the influence of multigroup cross-section parameters on the shielding calculation, ARES-MACXS module is used to process the MATXS format multigroup library based on CENDL-3.2 to generate multigroup working cross sections for PWR shielding calculation. VENUS-3 experimental facility has a clear and complete geometry. It is often used to test the ability of the advanced transport calculation method of calculating RPV fast neutron flux and to evaluate the accuracy of cross-section library. Different cross-section parameters are chosen for ARES to calculate VENUS-3 benchmark, and equivalent neutron flux of 58Ni(n,p)58Co, 115In(n,n′)115mIn and 27Al(n,α)24Na detectors is calculated according to the data provided by the benchmark report. The numerical results demonstrate that almost all the relative deviations between the calculated results and the experimental results are within 20%, which satisfies the requirement of shielding calculation. CENDL-3.2 is suitable for PWR shielding calculation. The comparison of various cross-section parameters results indicates that multigroup cross-section parameters have large effects on the transport calculation results. [ABSTRACT FROM AUTHOR]

Published

2021