SU1456829A1 - Method of determining reduced modulus of elasticity in bending of multilayer beam - Google Patents

Abstract

The invention relates to a test technique and can be used to determine the reduced modulus of elasticity in bending of a multilayer beam of multi-modular materials. The purpose of the invention is to increase the accuracy of determining the reduced modulus of elasticity. First, tensile compressive specimens of each of the materials that make up the beam are tested and stress-strain relationships are established for them. In the manufacture of multi-beam beams. The strain gauges are placed between its layers. The beam is loaded with a bending moment, measured according to the readings of the strain sensors on the surfaces of each layer, and the dependence of the bending moment relative to the beam deformation is established. From the measured values of the deformations of the beam layers, the value for each 1st layer of the elastic modulus E is determined using the stress-strain dependencies (and the position of the neutral bend line is determined taking into account the dependence of the bending moment relative to the beam deformation). the layers of the ball relative to the neutral surface of the bend, and the reduced modulus of ELR of the elasticity, is determined from the ratio Epr: iEjIj / illj, where K is the number of layers. d

Description

The invention relates to a test. It can be used to determine the reduced modulus of elasticity in bending of a multi-layer beam of multi-modular materials.

The aim of the invention is to increase the accuracy of determining the reduced modulus of elasticity of a multi-layer beam.

The method is carried out as follows.

Bend the specimen in the form of a multilayer beam of multimodular materials and stretch-compress the samples of each of the materials included in the beam.

First, samples of each of the materials that make up the beam are tested for compression and compression, and the stress-strain relationship is established for them.

In the manufacture of a sample in the form of a multilayer beam, strain gauges are placed between its layers.

Yu

The multilayer beam is loaded with a bending moment, measured according to the readings of the strain sensors on the surfaces of each layer, and the dependence of the bending moment relative to the beam deformation is established.

From the measured values of the deformations of the beam layers, the value for each i -ro layer of the elastic modulus E j is determined using the stress-strain dependences, and the position of the neutral surface of the bend relative to the strain of the beam is taken into account.

Then determine the moments of inertia of the I sections of the beam layers relative to

layer beams of different modulus materials, which load the beam with a bending moment, measure

g. deformations, determine the position of the neutral surface of the bend and the moments of inertia of the sections of the beam layers relative to the neutral surface, establish the dependence of the bending 10 moment on the deformation of the beam and with its consideration determine the reduced modulus of elasticity, characterized in that, in order to increase the accuracy of determination, Stress-strain specimens of each of the materials that make up the beam, determine the stress-strain relationship for them, when bending the strain beam

neutral surface bending as well. --d ---- - - iff Linn

the 1st modulus E „of the elasticity is given by a plurality of 2 at the boundaries of each layer,

gos-layer beams are determined from co-determined by them using the indicated

relationship

-B „p - Е, -1; / Г I.,

Claims (1)

where K is the number of layers. The formula was invented for the Method of determining the reduced elastic modulus when bending the multi-dependencies of the elastic moduli value of the materials of the layers, and the reduced elastic modulus of the beam is determined taking into account the elastic moduli values of the materials of the layers. layer beams of different modulus materials, which load the beam with a bending moment, measure deformations, determine the position of the neutral surface of the bend and the moments of inertia of the sections of the beam layers relative to the neutral surface, establish the dependence of the bending moment on the deformation of the beam and with its account determine the reduced modulus of elasticity, characterized in that, in order to improve the accuracy of determination, tensile-compressive samples of each of the materials included in the beam set for them the stress-strain relationship, when bending the strain beam  y --d ---- - - iff Linn measured at the boundaries of each layer, the dependences of the elastic moduli value of the materials of the layers, and the reduced modulus of elasticity of the beam is determined by taking into account the values of the elastic moduli of the materials of the layers.