DE1798053A1 - Electrical resistance strain measuring element and process for its production - Google Patents

Description

DR. O. DITTMANN ♦ K.L.SCHIFF ♦ DR.A.v.FüNER

_r 8 MUNICH 90

DR. O. DlHMANN. K. L SCHIFF DR. A. v. FONER ^Π READY ANQER 15

S MWENCHEN 90 · KRflTER ANQER 15

TEUTON MTJW

iuoLij.es, mc., DA-O 6 7 (A-684)

Automation Industries. Inc.,

'THIGH-ABU.! NAVIQATOIIMUENCHEN

August 14, 1968 KLS / Hö

Electrical resistance strain measuring element and method of making it

Abstract of the invention

Electrical resistance strain measuring unit or Strain gauges with a metal foil arranged on a flexible insulating material. A paper pad is on the insulating material attached and can absorb a binder.

State of the art

Resistance type strain or tension meter and methods of making the same are general

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known. Basically, a resistance-strain measuring element comprises a strain- or stress-sensitive conductor, the is attached to a surface such as paper or plastic. The pad serves as a carrier for handling and for isolation of the conductor against the metal surface on which it is to be glued.

Strain gauges or tension gauges are generally made from very thin rolled sheet material made from alloys or compounds of known types which are subject to changes in conductivity with changes in length or voltage are. Tension meters used up to now usually required special binders in order to attach them to samples to enable the point of use. If the strain gauges have an epoxy backing, a special binder can be used or special binders may be necessary to glue the knife to the specimen. Furthermore, when using such documents or deposits are given special treatment the surfaces of the test pieces are generally required. In addition, the measuring elements must be tied or clamped on Test piece required during installation.

For some types of paper backing, miter knife types the measuring element is completely covered by the paper and the paper is generally covered with a special Type of binder impregnated in the factory to hold the measuring element in place during shipping. That The binder impregnating the paper is generally carried out by a binder at the point of use, as is known "Duco * from DuPont or another nitrocellulose type cement activated. While this type of sensing element is relatively satisfactory, that for attachment and the time required for drying is generally relatively long "

Most of the strain gauges currently in use require the binder used at the point of use a comparatively long time to dry completely and to allow the examination to be carried out. Farther such binders, even if they appear to be completely dry, can actually not be dry yet, so that there is conductivity between the measuring element and the test piece.

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BATH

Required for paper measuring strips used up to now the final stages of manufacture mostly individual treatment. The individual required by the thinness of the film Treatment increases the cost of manufacturing the sensing element.

Objects and Features of the Invention

The objects of the invention are to provide an improved resistance-type strain measuring unit which is easy to use Can be installed on the spot that does not require any additional material for installation, and that is relatively can be manufactured cheaply; further goals and procedures ren for the production of such units.

According to the invention, a new type of

Resistance-strain measuring unit and a method of manufacturing the same created. A metal foil is applied to paper with an insulating material such as epoxy. The paper deposit is suitable for receiving the binding agent, the latter being applied in the factory or at the point of use can be. The method of manufacturing the measuring unit allows the units to be used without individual treatment to produce in the final stages.

109837/0600 owonal inspccteo

Other objects, features, and advantages of the invention will be apparent or suggested to those skilled in the art are derived from the following description of an exemplary embodiment and its representation in the accompanying drawing as well as from the claims.

Description of a preferred embodiment W.

In the drawing is:

1 shows a plan view of a resistance-type strain measuring unit according to the invention j

Fig. 2 "is a cross-sectional view of the unit along the line 2-2 of Figs

Fig. 3 is a block diagram showing the manufacture; A unit according to the invention in consideration of the main L · processes illustrated.

The illustrated in Figs. 1 and 2 Dehnurrjsraesser IQ comprises a metal foil 12 in the form of a grid strip. Connections 14 and 16 are on the outer grid strips appropriate. Lead wires 18 and 20 can be used for the Connection of the measuring unit with various usage switching

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to be seen. The attachment of the lead wires does not need, but can, during the manufacturing process take place.

Metal foil 12 is laminated to an insulating sheet 22, which sheet is made of, for example, epoxy material can. A paper backing 24 is attached to the insulated sheet 22. The strain gauge 10 can be on a «test piece 26 be mounted by a binder layer or layer 28.

The binding agent layer 28 may consist of a binding agent which can be rewetted with hater during the manufacturing process can be attached. When using this binder, the side coated with the binder becomes of the measuring element is moistened with water, and the element can be pressed by hand in the desired position with the fingers φ become. After the measuring element has been held for a sufficient length of time, dries the moistened binder and creates a strong bond between the measuring unit and the sample

In some cases it may be desirable to have that Paper-deposited unit of measurement with no binder applied in the factory. In this case, the binder can

109837/0600 BAD ORIQWAL

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are applied in a similar way at the point of use, as it was used for previously used units of measurement. However, paper backing has advantages over certain polymer film materials. For example, the most commonly used for attaching polymer filatype measuring units are binders certain epoxy and cyanoacrylic type monomers. The paper deposit unit can alternatively be applied with Epoxys, cyanoacrylic type binders, Ducozement. Model airplane glue, water-remoistenable binder or any other type of binder adhering to the surface of the structure to be stress analyzed.

Very good seed adhesion when using paper stored measuring elements was achieved - without any surface preparation, such as sandpaper treatment and cleaning the deposit normally required for conventional voltmeters.

It should be noted that the epoxy aminate 22 together with the paper 24 ″ results in a strong insulation between the metal foil 12 and the test piece 26. Consequently little leakage occurs between the film 12 and the specimen 26. This enables the voltmeter 10 to un ~

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to be connected indirectly to the circuit and in proportion a short time after the initial installation. As mentioned earlier, one of the problems was the previously known Knife in that the binder gave a resistance path between the foil and the specimen and that thereby relatively long times were required between the installation and the checking of the installed knives.

One feature of the invention is the method the production of a measuring element as illustrated in FIG. 1. This procedure basically includes the simultaneous multiple production of the paper-backed measuring units by allowing the etching of the metal foil before the individual cutting. This is achieved by providing the insulating and impermeable coating 22 between the Foil and the paper in the manufacture of the tension meter. Fig. 3 illustrates the main ones involved in manufacture steps used in the illustrated unit of measurement.

As can be seen particularly from Figure 3, there are many relatively well known and incidental steps has been omitted from the illustrated manufacturing process. The various steps are illustrated by blocks

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light, with each particular step represented by each block being familiar to those skilled in the art of manufacture of printed circuit boards is well known.

The step of providence and cutting

the film to the appropriate size is reproduced by the block 30. The film is covered with a protective coating one side, this side being the one on which the measurement unit images are subsequently developed. the Application of this protective coating is represented by block 32.

An insulating material such as resin is applied to the unprotected side of the metal foil. This step is represented by block 34. The laminated resin material is allowed to dry, but it is not yet fully hardened. "A sheet of paper is then attached to the laminated resin . The paper backing is printed on it against the laminated resin and heated so that it is attached to it. This script is represented by block 36,

After. the foil with resin .l.uuuiort and p. = ipxe rhi θ nc riegung mounted isb is du ί protective jber- Δ0.Λ on / one side of the film is removed. Dijsur J ^ hrltt int

_A „ _{Λ Λ} SAD OHiGiNAi.

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represented by block 38. A photo resistive coating will be then attached to one side of the metal foil. This step is represented by block 40 - Kin becomes negative then placed over the photoresistive coating of the film and the film is exposed to ultraviolet light in a manner previously known for the production of printed circuits tet. This step is represented by block 42. The exposed sheet is then developed as shown by block 44, and then, as represented by block 46, an etching process subject. All of these steps 40 through 46 are well known to those skilled in the art and are only shown to illustrate the overall invention.

In some cases, as mentioned, it may be desirable to deposit the measuring elements without any binding material to send. In this case, the etching process 46 represents the last step of the process, and of course various inspection and adjustment techniques that must be followed have gone unnoticed. In cases where if you want to see the measuring units with a dry binding agent backing, the foil is an additional one Subjected to step by which the binder 28 is applied to the paper 24 (Fig. 2), a step which is carried out by block 18 is reproduced.

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As mentioned, various minor steps have been omitted for the sake of clarity; e.g. it is Apparently that the slide in moving through various steps generally requires a preliminary deposit, as out Phenol, or glass ,.-The slide would also need to be one side or the other depending on the surgery being performed carried out, have exposed. All of this generally requires that the film be on suitable backing elements is fastened with tape,

An improved part of the method according to the invention relates to the application of a protective device: the overlay on the film, in order to protect one side of the film during the various working steps of applying the tape and the paper backing. After these operations, the protective coating is removed.

It has been determined that if the printed aging techniques are done prior to lamination the foil or the attachment of the paper backing? on the same, the resulting product has small holes in the Has film or in the measuring element images. One of the features of the invention resides in the fact that the paper

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is protected by the epoxy layer during the etching process and in use where the film may be subjected to various cleaning and solvent treatments. It is this Feature that enables mass production of the measuring elements in question.

It should be noted that the inventive Measuring element is always accessible, which makes it possible to attach the lead wires to the connections at the point of use. With some previously known measuring units, the lead wires had to be attached in the factory.

It has been found that several different types of binders are applied to the paper such as solvent activated or pressure sensitive types. Ss revealed, however, that availability from Yasser with its nontoxic benefits, non-flammability and non-pollution properties, a water-wettable binder makes an ideal choice for measuring elements of the specified type.

Removing an installed measuring element is relatively easy by simply soaking it in Water or application of water.

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ORlCHNAL INSPECTED

The laminating resin should preferably be coatable on the film, should not be prior to lamination be sticky and should not generate any by-products during chemical conversion processes.

Expectations

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Claims (1)

Expectations 1. Electrical resistance strain measuring element with a Metal foil and a flexible insulating material, characterized by a binder coating the back of the element, this cover usually being is dry after its application but can be reactivated by applying a solvent to it. 2. Measuring element according to claim 1, characterized in that the flexible insulating material is not is porous and that a paper backing is attached to the insulating material, the paper backing for inclusion of the binder is suitable. 3. Me s eel ement according to claim 1 or 2, characterized g e k e η η ζ β i chnet that the insulating material has a material that adhere to the metal foil and it with the latter can connect permanently. 4. Measuring element according to claim 2 or 3, characterized in that g β k e η η indicates that the insulating material has a material »that adhere to the paper backing and the latter can connect permanently. BAD ORIOiNAL 109837/0600 Measuring element according to one of Claims 2 to 4, characterized in that the paper backing is permanent is coated with a binder. 6. Measuring element according to claim 5, characterized in that it is marked that the binder is normally dry after application and reactivated by the application of a solvent can be. 7. measuring element according to claim 6, characterized in that that the solvent contains water. 8. Measuring element according to one of claims 1 to 7, characterized marked that the insulating material is an epoxy resin material includes. 9 «Method for producing a measuring element according to claim 8, characterized in that the epoxy material is polymerized in place between the metal foil and the paper backing and that thereby the two are permanent be adhesively connected. 109837/0600 orichnal inspected 10. Process for the production of electrical resistance extensometer meters, marked by the scIu it te: Application of a protective coating on a first Side of a thin metal foil Attaching a flexible, non-porous insulating material on the other, second side of the film « Attachment and permanent connection of a paper hir.iior] eguii q on the cover of I soli ermateri al j Removal of the protective coating j Applying a photoresist material on the first 3eiie of the FoIiej Pay for and develop the first side of the photo using a negative that has an image corresponding to the resistor to be produced; and Etching of the unexposed part of the foil. BATH 10981? / OfUH)