RU2008614C1 - Method for attachment of resistance strain gage on equipment - Google Patents

Abstract

FIELD: strain measurement technology. SUBSTANCE: prior to mounting resistance strain gage equipment surface to receive it is covered with adhesive tape, its adhesive layer is pressed to equipment surface and held so for 3-5 s at the same time heating it to 80-120 C by means of iron, for example; then tape base is removed, resistance strain gage is applied to adhesive layer that has remained on surface, covered with other length of adhesive tape and compressed over surface by rubber roller. Resistance strain gage is rigidly fixed to equipment at high loading frequencies (explosion) over entire base when viscoelastic material of adhesive layer behaves as solid body and obeys Hooke's law. EFFECT: improved reliability of fixation. 2 cl, 2 dwg

Description

 The invention relates to the measurement of deformations, and in particular to methods of fixing strain gages on parts, and can be used when testing objects under explosive loading.

 A known method of fixing the strain gauge on the object [1], which consists in the fact that the strain gauge is pressed to the surface of the object using a special clamp (clamp), preliminarily laying between the strain gauge and the clamp elastic rubber gasket. With this fastening of the strain gauge, adhesion to the surface of the object is due to friction due to the force of normal pressure created by the clamp.

 However, the use of clamps cannot ensure the reliability of fixing the strain gauge and the reliability of the measurement results under the conditions of explosive loads, since the clamp during explosive loading of the object is an oscillating mass that can exert uncontrolled dynamic effects on the strain gauge or object, for example, change the pressing force or shift the strain gauge, change loads themselves, etc.

 A known method of fixing the strain gauges [2], in which for fixing use adhesive tape with dimensions larger than the size of the strain gauge. The tape is applied to the strain gauge and the test object and squeezed along the surface and ends of the strain gauge.

 The disadvantages of this method are the high reliability of fixing the strain gage and the accuracy of the measurement of deformations, since it is possible to unevenly distribute the normal pressure created by the tape over the area of the strain gage. In addition, there is a non-identical pressing of the strain gauges, since the adhesion of the strain gauge to the object is mainly due to the frictional force from normal pressure, as well as a slight adhesion of the ends of the strain gauge along the contour with the surface of the object along the sticky layer of the tape.

 The aim of the invention is to increase the reliability of fixing the strain gauge on the object.

This object is achieved in that before placing strain gauges on the surface of another object previously applied adhesive tape, pressed with its adhesive side for 3-5 with the object and simultaneously heated to 80-120 ^{° C,} after which the base tape is removed. In this case, an iron is used as a heat source for heating the adhesive tape.

 The indicated values of temperature and time of pressing the tape to the object are optimal for transferring part of the adhesive layer from the base of the tape to the object.

 In FIG. 1 shows the first stage of fixing - transferring part of the adhesive layer from the base of the tape to the object; in FIG. 2 - actually fixing the strain gauge on the object.

 The method is as follows.

The surface of the object is cleaned of paint, rust, scale and other contaminants with abrasive agents. Then degrease, for example, with acetone and dehydrate with alcohol. Next, on the surface of the object 1, the tape 2 is applied with an adhesive layer 3 (FIG. 1) is pressed with its adhesive side to the object 1 and simultaneously heated to 80-120 ^{° C,} keeping in this position for 3-5 seconds.

 The adhesive tape is heated using an electric iron with a temperature regulator, which is set to a position corresponding to the lower temperature limit. After exposure for the specified time, the base of the tape 2 is removed, and only the part of the adhesive layer 3 transferred onto it remains on the surface of the object 1.

 At the second stage of the fixing process (Fig. 2), the strain gauge 4 is applied to the sticky layer 3, cover it with another piece of sticky tape 5, facing with its sticky layer to the object 1 and the strain gauge 4, and squeezed on the object and the strain gauge on their surface, for example, rubber roller.

 With such a fastening of the strain gauge, its adhesion to the surface of the object occurs both through the transferred adhesive layer 3, and due to the normal pressure created by the tension of the adhesive tape 5 during compression along the contour of the strain gauge.

 At high loading frequencies (explosion), the viscoelastic materials of the tape 5 and the adhesive layer 3 behave like a solid, as a result of which the strain gauge 4 is rigidly bonded to the object 1 throughout the base. (56) 1. Sergeev S.N. Portable load cell. - Factory Laboratory, 1962, N 1, p. 115.

 2. Copyright certificate of the USSR N 643743, cl. G 01 B 7/18, 1977.

Claims (2)

1. METHOD FOR ATTACHING THE TENSOR RESISTOR TO THE OBJECT, which consists in placing the strain gauge on the object, applying an adhesive tape with dimensions larger than the strain gauge on the strain gauge and the object, and pressing the tape along their surfaces and ends of the strain gauge, in order to increase reliable fastening, before placing strain gauges on the surface of the object overlap each tape is pressed with its adhesive side for 3 - 5 with the property and simultaneously heated to 80 - 120 ^o C, after which the base tape ud yayut.  2. The method according to p. 1, characterized in that the heating of the adhesive tape is carried out using an iron.

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