Mechanics of Solid Deformable Bodies

*Solid State Physics - Metastable, Spintronics Materials and Mechanics of Deformable...*

[102] Soto F, Chrostowski R. Frontiers of medical micro/nanorobotics: In vivo applications and commercialization perspectives toward clinical uses. Frontiers in Bioengineering and Biotechnology. 2018;**6**:170

**162**

**Chapter 11**

**Abstract**

*Natela Zirakashvili*

value problem, harmonic function

relevant curvilinear coordinates are solved. The chapter consists of five paragraphs.

involving parabolic coordinates are solved.

boundary value problems in the parabolic coordinate system.

**1. Introduction**

parabolic curves.

**165**

2D Elastostatic Problems in

In the present chapter, the boundary value problems are considered in a parabolic coordinate system. In terms of parabolic coordinates, the equilibrium equation system and Hooke's law are written, and analytical (exact) solutions of 2D problems of elasticity are constructed in the homogeneous isotropic body bounded by coordinate lines of the parabolic coordinate system. Analytical solutions are obtained using the method of separation of variables. The solution is constructed using its general representation by two harmonic functions. Using the MATLAB software, numerical results and constructed graphs of the some boundary value problems are obtained.

**Keywords:** parabolic coordinates, separation of variables, elasticity, boundary,

In order to solve boundary value and boundary-contact problems in the areas with curvilinear border, it is purposeful to examine such problems in the relevant curvilinear coordinate system. Namely, the problems for the regions bounded by a circle or its parts are considered in the polar coordinate system [1–4], while the problems for the regions bounded by an ellipse or its parts or hyperbola are considered in the elliptic coordinate system [5–13], and the problems for the regions with parabolic boundaries are considered in the parabolic coordinate system [14–16]. The problems for the regions bounded by the circles with different centers and radiuses are considered in the bipolar coordinate system [17–19]. For that purpose, first the governing differential equations are expressed in terms of the relevant curvilinear coordinates. Then a number of important problems involving the

Many problems are very easily cast in terms of parabolic coordinates. To this end, first the governing differential equations discussed in present chapter are expressed in terms of parabolic coordinates; then two concrete (test) problems

The second section, following the Introduction, gives the equilibrium equations and Hooke's law written down in the parabolic coordinate system and the setting of

Section 3 considers the method used to solve internal and external boundary

value problems of elasticity for a homogeneous isotropic body bounded by

Parabolic Coordinates
