Algorithm for calculating contact boundaries in the interaction of deformable solids

Abstract This paper presents a novel technology for identifying the inflow profile during the oil rim development using chromate desorption systems that makes it possible to solve one of the critical tasks related to long horizontal and multi-bottom-hole wells—optimizing the position of well relative to the contact boundaries to prevent early water breakthroughs and gas outs.

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NUMERICAL SOLUTION OF TWO-DIMENSIONAL PROBLEMS OF THERMOVISCOELASTICITY

NEWS OF THE NATIONAL ACADEMY OF SCIENCES OF THE REPUBLIC OF KAZAKHSTAN ◽

10.32014/2021.2224-5294.9 ◽

2021 ◽

Vol 335 (1) ◽

pp. 60-64

Author(s):

M. Bukenov ◽

Ye. Mukhametov

Keyword(s):

A Priori ◽

Elastic Collision ◽

Qualitative Behavior ◽

Stress Profile ◽

Two Dimensional ◽

A Priori Information ◽

Deformable Solids ◽

Methods Of Calculation ◽

The Difference ◽

Priori Information

This paper considers the numerical implementation of two-dimensional thermoviscoelastic waves. The elastic collision of an aluminum cylinder with a two-layer plate of aluminum and iron is considered. In work [1] the difference schemes and algorithm of their realization are given. The most complete reviews of the main methods of calculation of transients in deformable solids can be found in [2, 3, 4], which also indicates the need and importance of generalized studies on the comparative evaluation of different methods and identification of the areas of their most rational application. In the analysis and physical interpretation of numerical results in this work it is also useful to use a priori information about the qualitative behavior of the solution and all kinds of information about the physics of the phenomena under study. Here is the stage of evolution of contact resistance of collision – plate, stress profile.

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Creation of a sensor to measure strain of highly deformable solids

10.32657/10356/19501 ◽

2009 ◽

Author(s):

Ahmad Serjouei

Keyword(s):

Deformable Solids

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Real-Time Computer Simulation of Three Dimensional Elastostatics Using the Finite Point Method

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.110-116.2740 ◽

2011 ◽

Vol 110-116 ◽

pp. 2740-2745

Author(s):

Kirana Kumara P. ◽

Ashitava Ghosal

Keyword(s):

Real Time ◽

Graphics Processing Unit ◽

Numerical Technique ◽

Three Dimensional ◽

Point Method ◽

Processing Unit ◽

Finite Point ◽

Deformable Solids ◽

Finite Point Method ◽

Linear Elastostatics

Real-time simulation of deformable solids is essential for some applications such as biological organ simulations for surgical simulators. In this work, deformable solids are approximated to be linear elastic, and an easy and straight forward numerical technique, the Finite Point Method (FPM), is used to model three dimensional linear elastostatics. Graphics Processing Unit (GPU) is used to accelerate computations. Results show that the Finite Point Method, together with GPU, can compute three dimensional linear elastostatic responses of solids at rates suitable for real-time graphics, for solids represented by reasonable number of points.

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