CN201583213U - Engineering plastic film substrate strain gauge - Google Patents

Abstract

The utility model relates to an engineering plastic film substrate strain gauge which comprises an engineering plastic film substrate; the engineering plastic film substrate is adhered with a metal foil through a bonding layer; a cover layer is arranged on the metal foil; the engineering plastic film substrate is a PPS film or a PEEK film; compared with traditional strain gauge, the engineering plastic film substrate strain gauge has more stable performance, better consistency and wider scope of use temperature, the engineering plastic film substrate is formed by the PPS film and the PEEK film which are laminated together, the PPS film can resist the temperature of 175DEG C and the PEEK film can resist the temperature of 230DEG C; and the engineering plastic film substrate strain gauge can support the manufacturing of standard sensors.

Description

A kind of engineering plastics film substrate strainometer

Technical field

The utility model relates to a kind of strain ga(u)ge, particularly a kind of engineering plastics film substrate strainometer.

Background technology

At present, known foil resistance strain gauge be by the macromolecule resin insulating material as substrate, on the metal foil of compacting by rolling, form sensitive grid with photoetching, lithographic technique then, and form the weldering end in the rear end and make.The main base material kind of using has: epoxies, phenolic, polyesters, acetals, polyimide, sheet metal, interim substrate etc.Existing on the market, what be most widely used is epoxies, phenolic, acetals.The foil resistance strain gauge of this several types substrate can't satisfy accurate LOAD CELLS, standard transducer, the weighing apparatus needs with sensor, force transducer, Industry Control, stress analysis etc.Particularly these foil resistance strain gauges are because substrate or sealant thickness range broad, and the creep consistance, to return zero consistance relatively poor, comparatively responsive to environmental changes such as humidity, temperature, causes that strainometer resistance and zero signal change; This class strain gauge creep performance can vary with temperature simultaneously, is not easy control with conventional compensation method, can only be used for the fixing occasion of temperature range.Therefore substrate and sealant are influenced by environmental change to become the maximum error source of strainometer in measuring.

Summary of the invention

In order to overcome the defective of above-mentioned prior art, the purpose of this utility model is to provide a kind of engineering plastics film substrate strainometer, to humidity, water and other liquid relative insensitivity, the damp and hot variation that environment causes influence relatively is less, has stable creep, zero restoring ability energy.

In order to achieve the above object, the technical solution of the utility model is achieved in that a kind of engineering plastics film substrate strainometer, comprise engineering plastics film substrate 1, engineering plastics film substrate 1 bonds together by adhered layer 2 and metal forming 3, be cap rock 4 on the metal forming 3, engineering plastics film substrate 1 is PPS (polyphenylene sulfide) films or poly (ether ether ketone) film.

Described adhered layer 2 is epoxy resin or phenolic aldehyde-epoxy resin.

When engineering plastics film substrate 1 was PPS (polyphenylene sulfide) films, cap rock 4 was a PPS (polyphenylene sulfide) films.

When engineering plastics film substrate 1 was poly (ether ether ketone) film, cap rock 4 was a poly (ether ether ketone) film.

The utility model is more stable than existing strainometer performance, consistance is better, serviceability temperature scope with broad, engineering plastics film substrate 1 is PPS (polyphenylene sulfide) films or poly (ether ether ketone) film layer, the PPS (polyphenylene sulfide) films heatproof can reach 175 ℃, the poly (ether ether ketone) film heatproof can reach 230 ℃, can be the supporting use of production standard sensor.

Description of drawings

Fig. 1 is a structure side view of the present utility model.

Fig. 2 is the vertical view of Fig. 1.

Embodiment

Below in conjunction with accompanying drawing structural principle of the present utility model and principle of work are described in detail.

With reference to accompanying drawing, a kind of engineering plastics film substrate strainometer, comprise engineering plastics film substrate 1, engineering plastics film substrate 1 bonds together by adhered layer 2 and metal forming 3, it on the metal forming 3 cap rock 4, it is characterized in that engineering plastics film substrate 1 is PPS (polyphenylene sulfide) films or poly (ether ether ketone) film.

Described adhered layer 2 is epoxy resin or phenolic aldehyde-epoxy resin.

When engineering plastics film substrate 1 was PPS (polyphenylene sulfide) films, cap rock 4 was a PPS (polyphenylene sulfide) films.

When engineering plastics film substrate 1 was poly (ether ether ketone) film, cap rock 4 was a poly (ether ether ketone) film.

The thickness of engineering plastics film substrate 1 of the present utility model is 25 μ m, 13 μ m (deviation 1%), tack coat 2 THICKNESS CONTROL are in 2～5 mu m ranges, the thickness range of metal forming 3 is 2.5～5 μ m, about 29.5～35 μ m of whole strainometer thickness or 17.5～23 μ m (not comprising cap rock 4), thickness evenness strengthens greatly, is beneficial to improve strain gauge creep consistance by the gross.Engineering plastics film substrate 1 and cap rock 4 have good pliability, stiffness, spatial stability, higher modulus of shearing, extremely low thermal expansivity, moisture absorption ratio, and excellent chemically-resistant pharmaceutical properties, radiation resistance can be kept out most water and moisture; Heatproof even can reach 130 ℃ helps user's operation and uses.

The beneficial effects of the utility model are: the heat resistance performance is significantly improved; Creep, return zero, stability etc. is better than the in the market strain gauge of existing phenolic, acetals; The by the gross creep of strain gauge, time zero uniformity improve greatly, are beneficial to the making of the control of sensor uniformity and standard transducer; Other indices also all satisfy GB/T13992-92 " strain ga(u)ge " GB A level product requirement.

Claims (4)

1. engineering plastics film substrate strainometer, it is characterized in that, comprise engineering plastics film substrate (1), engineering plastics film substrate (1) bonds together by adhered layer (2) and metal forming (3), be cap rock (4) on the metal forming (3), engineering plastics film substrate (1) is PPS (polyphenylene sulfide) films or poly (ether ether ketone) film.

2. a kind of engineering plastics film substrate strainometer according to claim 1 is characterized in that described adhered layer (2) is epoxy resin or phenolic aldehyde-epoxy resin.

3. a kind of engineering plastics film substrate strainometer according to claim 1 is characterized in that when engineering plastics film substrate (1) was PPS (polyphenylene sulfide) films, cap rock (4) was a PPS (polyphenylene sulfide) films.

4. a kind of engineering plastics film substrate strainometer according to claim 1 is characterized in that when engineering plastics film substrate (1) was poly (ether ether ketone) film, cap rock (4) was a poly (ether ether ketone) film.

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