RU2014101323A - METHOD FOR MEASURING RELATIVE LONGITUDINAL SURFACE DEFORMATION AND EXTENZOMETER FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. Extensometer for measuring the relative longitudinal deformation of a tensile-compressive surface, containing two reference bodies in the form of pointed indenters mounted on a controlled surface, while one indenter is rigidly connected to the device body, the other is mounted for movement relative to the body, and a transmission system for these movements in the form of coordinate measuring means, characterized in that a laser is additionally installed in the device’s body as a light source with an optical system the topic of radiation collimation, a focusing lens whose focus coincides with the surface being monitored, a beam splitter, a lens and a coordinate-sensitive photoelectric converter in the form of a photodiode array with a control unit, while the movable indenter is made with an optical reference element in the form of a spherical mirror, the center of curvature of which is aligned with the tip of the indenter and with a controlled surface, and is rigidly mounted on a pendulum pivotally suspended in the upper part of the housing, between the movable and the fixed An indenter is suspended by means of a flat spring with a frame fixed on it; an electromagnet is suspended in the case; A method for measuring the relative longitudinal deformation of a tensile-compressive surface, which consists in fixing two reference bodies in the form of pointed indenters on a controlled surface, the distance “A” between the sharp edges of two indenters being measured before being installed on the surface, one of the indenters is movable while another

Claims (2)

1. Extensometer for measuring the relative longitudinal deformation of a tensile-compressive surface, containing two reference bodies in the form of pointed indenters mounted on a controlled surface, while one indenter is rigidly connected to the device body, the other is mounted for movement relative to the body, and a transmission system for these movements in the form of coordinate measuring means, characterized in that a laser is additionally installed in the device’s body as a light source with an optical system the topic of radiation collimation, a focusing lens whose focus coincides with the surface being monitored, a beam splitter, a lens and a coordinate-sensitive photoelectric converter in the form of a photodiode array with a control unit, while the movable indenter is made with an optical reference element in the form of a spherical mirror, the center of curvature of which is aligned with the tip of the indenter and with a controlled surface, and is rigidly mounted on a pendulum pivotally suspended in the upper part of the housing, between the movable and the fixed An indenter is suspended by means of a flat spring with a frame fixed on it; an electromagnet is suspended in the housing; 2. A method for measuring the relative longitudinal deformation of a tensile-compressive surface, which consists in fixing two reference bodies in the form of pointed indenters on a controlled surface, the distance “A” between the sharp edges of two indenters being measured before being installed on the surface, one of of indenters — movable, and the other — rigidly connected to the device’s body, apply a predetermined deformation force, measure the relative displacement of the reference bodies with the help of coordinate measuring means, and calculate about relative longitudinal deformation of the surface, characterized in that the movable indenter is performed with an optical reference element in the form of a spherical mirror, the center of curvature of which is combined with the indenter tip, they are rigidly mounted on a pendulum having one degree of freedom in the plane of strain measurement, the pendulum is arrested, the light source is connected, and the light source is connected in the form of a laser, the imaginary focus of the beam of which is also combined with the tip of the moving indenter, while the image of the focal point of the laser beam reflected from a spherical mirror feces, with an optical magnification of "K" focus in the form of a light spot in the position corresponding to the average position of the light spot on a coordinate-sensitive photoelectric converter in the form of a photodiode array, and conditionally zero coordinate "B" of the energy center of the light spot is recorded, and then in a caged state an extensometer is installed with some effort to prevent slipping, with pointed indenters on the deformable surface, the pendulum is opened, then the pendulum is pressed with by a moving indenter and a spherical mirror to the deformable surface by means of an electromagnet suspended on a frame with a flat spring between the movable and fixed indenters, which ensures a given pressing force, then the coordinate of the light-spot energy center “B” is recorded, the deformable beam is loaded, and after loading the energy coordinate is recorded the center of the light spot "G", and the relative longitudinal deformation is calculated by the formula: ε = (G-B) / K (A + (B-B) / K).