Your search keyword '"Huijun Ning"' showing total 11 results

1. Ultimate strength of hyper-ellipse flanged-perforated plates under uniaxial compression loading

Author

Wensheng Wang, Huijun Ning, and Xin Shang

Subjects

flanged-perforated, hyper-ellipse, ultimate strength, elasto-plastic buckling, uniaxial compression, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

In order to address the impact of the perforated parameters on the mechanical properties of the plate, the ultimate strength of hyper-ellipse flanged-perforated plates under uniaxial compression stress is numerically investigated in this article. The four edges of the flanged-perforated plate are only supported in the out-of-plane direction while the plate is exposed to uniaxial compressive loads. The impact of the cutout size, flange height, cutout position, rotation angle, and cutout form on the ultimate bearing capacity of the perforated plate with varied thicknesses is investigated and compared through a series of elasto-plastic buckling analyses using the ANSYS software. The structure’s stress and deformation analysis is then used to explain the results of the ultimate strength test. The flange efficiently raises the maximum bearing strength of the structure with cutouts. For the limit strength of thick plate, the cutout size, elliptical shape, cutout rotation angle, and cutout position have considerably more of an impact than they do on the maximum bearing capacity of thin plate. The findings can assist the structural layout of this sort of perforated plate, and the right cutout parameters should be chosen in accordance with the various performance specifications.

Published

2023

2. Epidemic monitoring in real-time based on dynamic grid search and Monte Carlo numerical simulation algorithm

Author

Xin Chen, Huijun Ning, Liuwang Guo, Dongming Diao, Xinru Zhou, and Xiaoliang Zhang

Subjects

Dynamic grid search, Monte Carlo, Epidemic monitoring plan, Real-time, Electronic computers. Computer science, QA75.5-76.95

Abstract

Building upon the foundational principles of the grid search algorithm and Monte Carlo numerical simulation, this article introduces an innovative epidemic monitoring and prevention plan. The plan offers the capability to accurately identify the sources of infectious diseases and predict the final scale and duration of the epidemic. The proposed plan is implemented in schools and society, utilizing computer simulation analysis. Through this analysis, the plan enables precise localization of infection sources for various demographic groups, with an error rate of less than 3%. Additionally, the plan allows for the estimation of the epidemic cycle duration, which typically spans around 14 days. Notably, higher population density enhances fault tolerance and prediction accuracy, resulting in smaller errors and more reliable simulation outcomes. Overall, this study provides highly valuable theoretical guidance for effective epidemic prevention and control efforts.

Published

2023

3. Influence of flanged-cutout on the buckling behaviors of square plate under uniaxial compression

Author

Wensheng Wang, Huijun Ning, Haojie Wei, Qun Mei, and Longtao Xu

Subjects

Physics, QC1-999

Abstract

Cutouts are commonly found in aerospace, ships, and marine structures, which have a great influence on mechanical properties such as stress concentration, natural frequency, and structural load-bearing performance of the structure. In this study, buckling behaviors of a square plate with a circular flanged cutout at the center are explored numerically, aiming to address the influence of different cutout parameters on the elastic and elasto-plastic buckling behaviors of the perforated plate. The flanged-perforated plate is subjected to uniaxial compressive loads, and the four edges are simply supported in the out-of-plane direction. The influence of various cutout parameters on the elastic and elasto-plastic buckling behaviors of the perforated plate is examined through a series of buckling analysis. In addition, structural weight reduction of the uniaxial compressed perforated square plates is carried out under the constraint of the elastic buckling stress of the plate structure. The findings indicate that different cutout parameters have a significant impact on the buckling performance of the plate. Perforated plates with flanging exhibit higher buckling strength than those without flanging, and variations in plate geometric parameters (such as the plate slenderness ratio and cutout radius ratio) are associated with increases in elastic buckling stress and elasto-plastic ultimate strength. The results of this paper can provide references for the design of flanged-cutouts in engineering.

Published

2023

4. Analysis of flow field in a blast simulator combined-driven by explosive charge and compressed gas

Author

Zhuo Chen, Huiqi Ren, Huijun Ning, Songbai Zhou, Zhilin Long, and Kui Huang

Subjects

combined-driven method, blast simulator, shock wave, numerical simulation, unsteady flow, Science

Abstract

The flow field characteristics of blast simulators with the explosive-driven method and compression-driven method have been extensively investigated; however, limited effort has been made to the flow field in blast simulators combined-driven by explosive charge and compressed gas. In this paper, the finite volume method governed by the Navier–Stokes equation based on an explosive detonation and k-omega SST turbulence equation was used to analyze the flow field characteristics of blast simulators with three kinds of drive methods, namely, explosive-driven method, compression-driven method, and combined-driven method. The results show that the numerical method could simulate the flow field characteristics of the blast simulators with the explosive-driven method and compression-driven method accurately by comparing to the experimental data. Also, the influence of air turbulence on the explosion flow field cannot be neglected in the case of long running time. It is obtained that the combined-driven method could increase the pressure peak value of shock waves and extends positive pressure duration effectively, owing to the interaction of the shock waves generated from the explosive detonation and the rarefaction wave formed by rupturing the diaphragm. The first overpressure peak value, the second overpressure peak value, and the positive pressure duration obtained by the combined-driven method of 5 kg TNT and 0.3 MPa compressed gas were 1.669 times, 2.172 times, and 2.308 times more than those obtained by the explosive-driven method of 5 kg TNT, respectively. The maximum overpressure and positive pressure duration obtained by the combined-driven method of 5 kg TNT and 0.3 MPa compressed gas were 2.56 times and 1.162 times more than those obtained by the compression-driven method of 0.3 MPa compressed gas, respectively. Moreover, various shock wave environments could be simulated by controlling the charge mass of explosive charge and the initial pressure of compressed gas.

Published

2023

5. Effects of percutaneous kyphoplasty combined with zoledronic acid injection on osteoporotic vertebral compression fracture and bone metabolism indices.

Author

Hongchi YI, Tao CHEN, Jiming GAN, Zhuoqian DONG, Dun LIU, Yuanzhi ZHENG, Huijun NING, and Qingzhong WEI

Published

2024

6. Nonlinear curvelet diffusion for noisy image enhancement.

Author

Ying Li 0017, Huijun Ning, Yanning Zhang, and David Dagan Feng

Published

2011

7. RESEARCH ON COVID-19 EPIDEMIC BASED ON ARIMA MODEL

Author

Zhihao, Li, primary, Junpei, Wang, additional, Xiaoliang, Zhang, additional, and Huijun, Ning, additional

Published

2021

8. Effects of percutaneous kyphoplasty combined with zoledronic acid injection on osteoporotic vertebral compression fracture and bone metabolism indices

Author

Huijun Ning, Tao Chen, Dun Liu, Qingzhong Wei, Jiming Gan, Hongchi Yi, Yuanzhi Zheng, and Zhuoqian Dong

Subjects

Bone mineral, medicine.medical_specialty, Cobb angle, business.industry, Visual analogue scale, Vertebral compression fracture, Therapeutic effect, Urology, Kyphosis, medicine.disease, Oswestry Disability Index, Bone remodeling, medicine, Surgery, Neurology (clinical), business

Abstract

BACKGROUND Osteoporotic vertebral compression fracture (OVCF) is usually treated by percutaneous kyphoplasty (PKP) which has limitations. We aimed to evaluate the effects of PKP combined with zoledronic acid (ZOL) injection on OVCF and bone metabolism indices. METHODS A total of 600 OVCF patients admitted from June 2015 to June 2020 were randomly divided into group A (PKP alone), group B (PKP combined with ZOL 1 month later) and group C (PKP concurrently combined with ZOL) (n=200). Before as well as 1 month (before ZOL treatment in group B) and 1 year after PKP, the pain degree, physical function and self-care ability in daily life were assessed, the height and kyphosis Cobb angle of vertebral body with compression fracture and bone mineral densities (BMDs) at different parts were measured, the clinical efficacy, adverse reactions and recurrence of vertebral fractures during 3 years of follow-up were observed, and the serum levels of BAP, BGP, β-CTx and TP1NP were detected. RESULTS Compared with groups A and B, group C had significantly reduced visual analogue scale (VAS) and Oswestry disability index (ODI) scores and raised activity of daily living (ADL) score 1 month after PKP (P

Published

2020

9. APPLICATION OF MESO-MODEL OF CONCRETE LOW-VELOCITY IMPACT IN PAVEMENT

Author

Huijun Ning, Xiaoliang Zhang, Xuekai Feng, and Junpei Wang

Subjects

History, Computer Science Applications, Education

Abstract

Concrete pavement is one of the typical highway structures at home and abroad. Most of the existing research on the performance of concrete pavement is based on the macroscopic angle of view. The complex meso-structure inside is ignored. Due to the incomplete research on concrete pavement structure, it is difficult to reveal the physical mechanism of concrete pavement deformation and damage. In order to understand the failure mechanism of concrete pavement more clearly, this paper started from the microscopic perspective. Firstly, based on the experimental phenomena, a multi-grade aggregate model was randomly placed in the concrete slab, and the interface between the aggregate and mortar was generated at the same time to establish a three-dimensional three-phase mesoscopic bone and the finite element calculation model of the material. Secondly, the damage effect of concrete specimens in homogeneous modeling, meso-modeling and experimental phenomena were compared to verify the accuracy of the selected concrete material parameters and the feasibility of meso-modeling method. Finally, the concrete failure form under three different aggregate contents and the influence of internal aggregate content of the concrete pavement on the mechanical properties of the concrete pavement were analyzed. The calculation results showed that compared with the macroscopic simulation, the mesoscopic model was more consistent with the experimental phenomena of the failure effect of the concrete specimens. And the numerical simulation results with the aggregate content of 46.6% were the most consistent with the experimental results. Comparing the failure modes of concrete specimens with different aggregate contents, it was found that the concrete specimens with an aggregate content of 60.6% have a lighter degree of damage. When the aggregate content was 30.6%, the impact tooth penetrated half of thickness of the concrete specimen, and the aggregate content is 60.6% of the impact teeth penetrated one third of the concrete specimen. Therefore, the higher the aggregate content is, the stronger the ability of the concrete specimens has to resist damage.

Published

2021

10. Semi-analytical method for calculating aeroelastic effect of profiled rod flying at high velocity

Author

Nan-peng Feng, Tan-hui Wu, Hao Wang, Cheng Zhang, and Huijun Ning

Subjects

Variable cross-section beam, Engineering, genetic structures, Aeroelastic deformation, Computational Mechanics, Deformation (meteorology), Computational fluid dynamics, Rod, Detonation process, Profiled rod, business.industry, Mechanical Engineering, Numerical analysis, Metals and Alloys, Structural engineering, Aeroelasticity, Finite element method, Condensed Matter::Soft Condensed Matter, Vibration, Military Science, Ceramics and Composites, sense organs, business, Beam (structure)

Abstract

The key technique of a kinetic energy rod (KER) warhead is to control the flight attitude of rods. The rods are usually designed to different shapes. A new conceptual KER named profiled rod which has large L/D ratio is described in this paper. The elastic dynamic equations of this profiled rod flying at high velocity after detonation are set up on the basis of Euler-Bernoulli beam, and the aeroelastic deformation of profiled rod is calculated by semi-analytical method for calculating the vibration characteristics of variable cross-section beam. In addition, the aeroelastic deformation of the undeformed profiled rod and the aeroelastic deformation of deformed profiled rod which is caused by the detonation of explosive are simulated by computational fluid dynamic and finite element method (CFD/FEM), respectively. A satisfactory agreement of these two methods is obtained by the comparison of two methods. The results show that the semi-analytical method for calculating the vibration characteristics of variable cross-section beam is applied to analyze the aeroelastic deformation of profiled rod flying at high velocity.

Published

2015

11. Nonlinear curvelet diffusion for noisy image enhancement

Author

Huijun Ning, Yanning Zhang, Ying Li, and David Dagan Feng

Subjects

business.industry, Anisotropic diffusion, Noise (signal processing), Noise reduction, Wavelet transform, Pattern recognition, Digital image, Wavelet, Computer Science::Computer Vision and Pattern Recognition, Curvelet, Computer vision, Artificial intelligence, Diffusion (business), business, Mathematics

Abstract

Digital image degradation normally arises during image acquisition and processing, which has a direct influence on the visual quality of the image. This paper proposes a combined method for enhancement of noisy image by using the mirror-extended curvelet transform and nonlinear anisotropic diffusion. First, an improved enhancement function is proposed to nonlinearly shrink and stretch the curvelet coefficients. Then, the enhanced results are further processed by the nonlinear diffusion where only the nonsignificant, i.e., nonthresholded, curvelet coefficients are changed by means of a diffusion process in order to reduce the pseudo-Gibbs artifacts. Experimental results indicate the proposed method has better performances to enhance the shape of edges and important detailed features as well as suppress noise, in comparison to the curvelet-based enhancement method without diffusion and the wavelet-based enhancement methods with/without diffusion.

Published

2011