Numerical analysis of stress singularity at singular points of three-dimensional elastic bodies

The aim of this paper is to present an application of high-order numerical analysis methods to a simulation system that models the movement of a cylindrical-shaped object (mine, projectile, etc.) in a marine environment and in general in fluids with important applications in Naval operations. More specifically, an alternative methodology is proposed for the dynamics of the Navy’s three-dimensional mine impact burial prediction model, Impact35/vortex, based on the Dormand–Prince Runge–Kutta fifth-order and the singly diagonally implicit Runge–Kutta fifth-order methods. The main aim is to improve the time efficiency of the system, while keeping the deviation levels of the final results, derived from the standard and the proposed methodology, low.

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Air Ventilation Performance of School Classrooms with Respect to the Installation Positions of Return Duct

Sustainability ◽

10.3390/su13116188 ◽

2021 ◽

Vol 13 (11) ◽

pp. 6188

Author(s):

Sungwan Son ◽

Choon-Man Jang

Keyword(s):

Air Quality ◽

Numerical Analysis ◽

Indoor Air Quality ◽

Indoor Air ◽

Three Dimensional ◽

Cross Infection ◽

School Students ◽

Height Range ◽

Air Ventilation ◽

Ventilation Performance

For students, who spend most of their time in school classrooms, it is important to maintain indoor air quality (IAQ) to ensure a comfortable and healthy life. Recently, the ventilation performance for indoor air quality in elementary schools has emerged as an important social issue due to the increase in the number of days of continuous high concentrations of particulate matter. Three-dimensional numerical analysis has been introduced to evaluate the indoor airflow according to the installation location of return diffusers. Considering the possibility of the cross-infection of infectious diseases between students due to the direction of airflow in the classroom, the airflow angles of the average respiratory height range of elementary school students, between 1.0 and 1.5 m, are analyzed. Throughout the numerical analysis inside the classroom, it is found that the floor return system reduces the indoor horizontal airflow that causes cross-infection among students by 20% compared to the upper return systems. Air ventilation performance is also analyzed in detail using the results of numerical simulation, including streamlines, temperature and the age of air.

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Numerical Analysis of Acoustical Propagation Characteristics in Central Equatorial Pacific Ocean with Ridges of Seabed Used by Three-Dimensional Parabolic Equation Method

Japanese Journal of Applied Physics ◽

10.1143/jjap.39.3212 ◽

2000 ◽

Vol 39 (Part 1, No. 5B) ◽

pp. 3212-3215 ◽

Cited By ~ 4

Author(s):

Takenobu Tsuchiya ◽

Takashi Okuyama ◽

Nobuyuki Endoh ◽

Toshiaki Nakamura ◽

Iwao Nakano

Keyword(s):

Parabolic Equation ◽

Numerical Analysis ◽

Pacific Ocean ◽

Three Dimensional ◽

Equatorial Pacific ◽

Equation Method ◽

Propagation Characteristics ◽

Equatorial Pacific Ocean ◽

Parabolic Equation Method ◽

Central Equatorial Pacific

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Three-dimensional numerical analysis of diffusion current and quantum efficiency of small area Hg1-xCdxTe photodiodes

10.1109/iedm.1981.190029 ◽

1981 ◽

Cited By ~ 1

Author(s):

R.J. Briggs

Keyword(s):

Numerical Analysis ◽

Quantum Efficiency ◽

Small Area ◽

Three Dimensional ◽

Diffusion Current

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Optimization of the Wrist Pin End of an Automobile Engine Connecting Rod With an Interference Fit

Journal of Mechanical Design ◽

10.1115/1.2912622 ◽

1990 ◽

Vol 112 (3) ◽

pp. 406-412 ◽

Cited By ~ 7

Author(s):

Vijay Sarihan ◽

Ji Oh Song

Keyword(s):

Finite Element ◽

Optimum Design ◽

Three Dimensional ◽

Stress Singularity ◽

Design Strategy ◽

Structural Components ◽

Connecting Rod ◽

Fem Model ◽

Automobile Engine ◽

Interference Fit

Current design procedures for complicated three-dimensional structural components with component interactions may not necessarily result in optimum designs. The wrist pin end design of the connecting rod with an interference fit is governed by the stress singularity in the region where the wrist pin breaks contact with the connecting rod. Similar problems occur in a wide variety of structural components which involve interference fits. For a better understanding of the problems associated with obtaining optimum designs for this important class of structural interaction only the design problems associated with the wrist pin end of the rod are addressed in this study. This paper demonstrates a procedure for designing a functional and minimum weight wrist pin end of an automobile engine connecting rod with an interference fit wrist pin. Current procedures for Finite Element Method (FEM) model generation in complicated three-dimensional components are very time consuming especially in the presence of stress singularities. Furthermore the iterative nature of the design process makes the process of developing an optimum design very expensive. This design procedure uses a generic modeler to generate the FEM model based on the values of the design variables. It uses the NASTRAN finite element program for structural analysis. A stress concentration factor approach is used to obtain realistic stresses in the region of the stress singularity. For optimization, the approximate optimization strategy in the COPES/CONMIN program is used to generate an approximate design surface, determine the design sensitivities for constrained function minimization and obtain the optimum design. This proposed design strategy is fully automated and requires only an initial design to generate the optimum design. It does not require analysis code modifications to compute the design sensitivities and requires very few costly NASTRAN analyses. The connecting rod design problem was solved as an eight design variable problem with five constraints. A weight reduction of nearly 27 percent was achieved over an existing design and required only thirteen NASTRAN analyses. It is felt that this design strategy can be effectively used in an engineering environment to generate optimum designs of complicated three-dimensional components.

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