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5 results on '"Zhifei, Long"'

1. Study on the Improved Severity Coefficient Model of Dam Break Consequence Assessment

Author

Weiwei Sun, Zhifei Long, and Qian Cai

Subjects
Dam failure, Statistics, Social impact, Dam break, Piecewise, Range (statistics), General Earth and Planetary Sciences, Environmental impact assessment, Risk assessment, General Environmental Science, Mathematics, Weighting
Abstract

The assessment of the dam failure consequences is fundamental to the dam risk assessment, and the linear weight sum method is generally used. The comprehensive evaluation of dam failure consequences involves many evaluation factors, the dimensions of each factor are inconsistent. The key is to determine the coefficient of the severity degree of dam failure consequences. Based on the traditional methods, a new severity degree coefficient model of the loss of life, economic losses, environmental impact, and social impact is established after taking the current laws and regulations, the range of the severity of the impact, the establishment of normalized function, the introduction of piecewise function and other factors into comprehensive consideration, and use analysis hierarchy process to obtain weight. Apply the improved linear weighting method to the level assessment and rank of the dam failure consequences of Changlong reservoir, Xialan reservoir, Shibikeng reservoir, Longshan reservoir and Lingtan reservoir in Jiangxi Province, and then determine the grade and rank of dam failure consequences according to the calculation results, analyze the corresponding results accurately combined with expertise. The evaluation results and analysis show that if dam failure occurs, the consequences of the five dams are all very serious, it belongs to extraordinarily serious accidents. The severity degree coefficient of dam failure consequences model can reflect the severity degree of dam failure consequences more objectively and reasonably, and it has clear concept, simple calculation, and intuitive process.

Published
2021

3. GEOMETRICALLY NONLINEAR STABILITY ANALYSIS OF SHELLS USING GENERALIZED CONFORMING SHALLOW SHELL ELEMENT

Author

Jianheng Sun, Yuqiu Long, Chunsheng Zhang, and Zhifei Long

Subjects
Engineering, business.industry, Applied Mathematics, Mechanical Engineering, Numerical analysis, Mathematical analysis, Degrees of freedom (statistics), Shell (structure), Aerospace Engineering, Ocean Engineering, Building and Construction, Structural engineering, Rigid body, Stability (probability), Finite element method, Nonlinear system, Convergence (routing), business, Civil and Structural Engineering
Abstract

A generalized conforming finite element theory was presented to satisfy the C1 continuity condition for plate and shell element. The effectiveness of the theory in the linear analysis has been proved. This paper discusses the membrane locking phenomenon of shallow shell element based on the satisfaction of the requirement of rigid body motion, and a technique is developed to eliminate the membrane locking phenomenon. Accordingly a geometrically nonlinear generalized conforming rectangular shallow shell element with tangential degrees of freedom of midpoints of sides is formulated. Nonlinear numerical analysis of shell stability shows that the element exhibits high precision and fast convergence characteristics.

Published
2001

4. A Generalized Conforming Quadrilateral Membrane Element Less Sensitive to Geometric Distortion

Author

Yuqiu Long, Yin Xu, and Zhifei Long

Subjects
Physics, Quadrilateral, business.industry, 0211 other engineering and technologies, 020101 civil engineering, Geometry, 02 engineering and technology, Building and Construction, Structural engineering, Geometric distortion, 0201 civil engineering, Membrane, 021105 building & construction, Element (category theory), business, Civil and Structural Engineering
Abstract

Many finite element models have very acceptable performance when the computing meshes are regular. However, as the level of mesh distortion is increasing, the accuracy of the solutions deteriorates rapidly. Therefore, how to formulate an element that is less sensitive to geometric distortion is an important question for study for a long period. In this paper, a simple quadrilateral membrane element with rotational degrees-of-freedom is developed with the approach of the generalized conforming element proposed by Long Yuqiu (1989). The new element exhibits excellent feature, that is, less sensitive to geometric distortion. A general method to formulate high precision finite element less sensitive to geometric distortion is provided in this paper.

Published
1998

5. The Generalized Conforming Element (GCE) — Theory and Applications

Author

Yin Xu, Zhifei Long, and Yuqiu Long

Subjects
business.industry, Computer science, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Building and Construction, Structural engineering, Potential energy, Finite element method, 0201 civil engineering, Method of mean weighted residuals, 021105 building & construction, Compatibility (mechanics), Energy method, Applied mathematics, Thick plate, Polygon mesh, business, Civil and Structural Engineering
Abstract

The concept of generalized conforming elements and their applications to membrane, plate and shell problems are introduced in this paper. The generalized conforming element method proposed by the first author in 1987 provides a simple and efficient means to deal with structural problems, especially the C1continuous problems.In the first part of this paper, the theoretical basis of GCE is presented. GCE is a limiting-conforming element which is non-conforming in coarse meshes but tends to be conforming in the limiting case of refined meshes. It is formulated based on the modified potential energy principle and the concept of generalized compatibility conditions. It is a new way to construct the finite elements — combined application of the energy method and the weighted residual method.In the second part of this paper, various models of GCE are illustrated. A series of generalized conforming elements with excellent performance have been constructed, that is, thin and thick plate bending GCE, membrane GCE with drilling freedoms and thin shell GCE.

Published
1997

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