RU2456586C1 - Method of determining internal stress - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: adhesive is applied onto prepared surfaces which are joined; the adhesive joint is treated in a magnetic field and during the entire hardening period of the adhesive joint, change in capacitance of a flat capacitor (glued pairs) is continuously measured by a digital device, and the information is then sent to a personal computer.

EFFECT: continuous monitoring of internal stress arising when forming an adhesive joint during treatment with a magnetic field.

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Description

The invention relates to a technology for performing adhesive joints and can be used for gluing various types of wood.

A known method for determining the internal stresses arising in adhesive joints, which is based on the cantilever method for determining the internal stresses arising in the process of gluing wood in a magnetic field (A. Mushroom. Features of determining the residual stresses of polymers on wood [Text] / A.E. Mushroom // Izv. Universities. Construction and Architecture. - 1976. - No. 5. - P.18-22, Pat. 2298574, IPC C09J 5/00. Method for bonding wood materials [Text] / V.M. Popov, A .V. Ivanov, BCMurzin, A.P. Novikov, A.V. Latynin; applicant and patent holder of VGLTA. - 2006117673/04; appl 22.05.2006, published 10.05.2007, Bul №13 - 3)......

Studies have shown that despite the simplicity of this method, it allows one to obtain the final values of the formed internal stresses and does not give a complete picture of the kinetics of the formation of internal stresses during the curing of adhesive joints during processing in a magnetic field.

The technical result achieved by the invention is to continuously monitor the internal stresses that occur during the formation of the adhesive joint during magnetic field processing.

This is achieved by the fact, in a method for determining internal stresses, including the operation of applying glue to pre-prepared surfaces, joining surfaces, treating an adhesive joint in a magnetic field, according to the invention, continuously varying the capacitance of a flat capacitor (bonded pair) with a digital device is continuously fixed with a digital device and transmit information to a personal computer (PC).

The method is illustrated by drawings, in which Fig. 1 shows a diagram of an installation with a working cell for determining the internal stresses of the adhesive layer for the position before it begins to cure, Fig. 2 - diagram of the installation with a working cell for determining the internal stresses of the adhesive layer for the position after it is cured.

In diagrams 1 - the working cell; 2, 3 - plates; 4 - adhesive layer; 5 - a direct current source; 6 - digital device; 7 - measuring complex (PC). The method is as follows. An adhesive layer of normalized thickness is applied to the previously prepared surface of the wooden plate (the adhesive consumption in this case according to GOST is 180 ... 250 g / m ² ). The resulting adhesive pair is cantilevered in a working cell connected to a direct current source, and then placed between the poles of the electromagnet. During the curing of the adhesive layer, deformation (bending) of the free end of the adhesive pair (flat capacitor) occurs. A continuous change in capacitance is recorded by a digital device throughout the entire curing time of the interlayer and is transmitted to a PC. Using a special program according to formula (1), the calculation of internal stresses is carried out depending on the curing time

where f _max is the maximum deviation of the end of the glued pair;

L is the length of the glued pair;

E ₁ - the modulus of elasticity of the material of the plates;

J is the moment of inertia over the cross section of the plates;

h ₁ is the thickness of the larger plate;

h ₂ - the thickness of the adhesive layer;

y _i is the distance from the center of gravity of the glued pair;

S ₂ is the cross-sectional area of the interlayer;

E ₂ - the modulus of normal elasticity of the layer.

After entering calibration data, the PC processes the test data and prints the processing results. The induced value in the form of voltage levels in the binary decimal code 8-4-2-1 and the signals describing the selected measurement limit are transported through two parallel communication devices 15 KS-180-032 to the computer. The measurement frequency is set by software. Reading signals and converting them from binary decimal to binary code is done by the EMOPR and EMPER programs. The converted value of the capacitance is used to calculate the internal stresses in the adhesive layer by the EMOSN program. After the curing time has passed, the data obtained are approximated by the least squares method by the Appus subprogram, after which the NGRAF program builds a graph on which the experimental points are applied and the curve is approximated.

The proposed method for determining internal stresses can be applied to a number of adhesives, for example:

- KF-G GOST 14231-88 (urea-formaldehyde resin of increased viability) is used for the production of plywood, furniture, building and joinery products, etc. The mass fraction of free formaldehyde is 0.5 ÷ 0.9%, the concentration of hydrogen ions is pH 7.5 ÷ 8 , 7, mass fraction of solids 67 ± 2%;

- PVAD DF 50 / 5N GOST 18992-80 (PVA - dispersion polyvinyl acetate homopolymer coarsely dispersed, D - dispersion, F - dibutyl phthalate or diisobutyl phthalate, 50 - minimum solids content of 50%, 5 - plasticizer content in terms of dry residue in percent 5% , Н - low viscosity) is recommended for use in household chemicals, construction and woodworking industries, textile industry, packaging production and more;

- Kleiberite "SUPRATERM 436" (aqueous polyurethane dispersion), density about 1.05 g / cm ³ , pH - 7, used for 3-dimensional gluing of thermoplastic furniture film on MDF boards or other materials with a finely porous structure.

Claims (1)

A method for determining internal stresses, including the operation of applying glue to pre-prepared surfaces, joining surfaces, treating the adhesive joint in a magnetic field, characterized in that during the entire time the adhesive joint is cured, the capacitance of the flat capacitor (bonded pair) is continuously recorded with a digital device and information is transmitted to a personal computer.

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