Translation and analysis of words by ChatGPT artificial intelligence
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plane-strain criterion - translation to russian
![Spherical coordinates (''r'', ''θ'', ''φ'') as commonly used in ''physics'': radial distance ''r'', polar angle ''θ'' ([[theta]]), and azimuthal angle ''φ'' ([[phi]]). The symbol ''ρ'' ([[rho]]) is often used instead of ''r''.](https://commons.wikimedia.org/wiki/Special:FilePath/3D Spherical.svg?width=200 "Spherical coordinates (''r'', ''θ'', ''φ'') as commonly used in ''physics'': radial distance ''r'', polar angle ''θ'' ([[theta]]), and azimuthal angle ''φ'' ([[phi]]). The symbol ''ρ'' ([[rho]]) is often used instead of ''r''.")
строительное дело
критерий (прочности) при плоском напряжённом состоянии
![digital image correlation]] on a material testing coupon showing moving strain structures called [[Lüders band]]s](https://commons.wikimedia.org/wiki/Special:FilePath/Lüdersband measured with digital image correlation (DIC) from LIMESS.gif?width=200 "digital image correlation]] on a material testing coupon showing moving strain structures called [[Lüders band]]s")
['streingeidʒ]
общая лексика
датчик деформаций
тензодатчик
техника
тензометр
строительное дело
тензодатчик, тензометр, тензорезистор
Definition
Wikipedia
In continuum mechanics, the infinitesimal strain theory is a mathematical approach to the description of the deformation of a solid body in which the displacements of the material particles are assumed to be much smaller (indeed, infinitesimally smaller) than any relevant dimension of the body; so that its geometry and the constitutive properties of the material (such as density and stiffness) at each point of space can be assumed to be unchanged by the deformation.
With this assumption, the equations of continuum mechanics are considerably simplified. This approach may also be called small deformation theory, small displacement theory, or small displacement-gradient theory. It is contrasted with the finite strain theory where the opposite assumption is made.
The infinitesimal strain theory is commonly adopted in civil and mechanical engineering for the stress analysis of structures built from relatively stiff elastic materials like concrete and steel, since a common goal in the design of such structures is to minimize their deformation under typical loads. However, this approximation demands caution in the case of thin flexible bodies, such as rods, plates, and shells which are susceptible to significant rotations, thus making the results unreliable.
