SU1008631A1 - Device for stress determination in concrete and ferroconcrete structures - Google Patents

Abstract

The DEVICE FOR DETERMINATION OF STRESSES IN CONCRETE AND REINFORCED CONSTRUCTIONS, including a hard plate with disjoint magnetic magnetoelastic sensors, made in the form of annular ferrite elements with winding and metal lids, and protective foils made from a winding, and one of a one-time or 10-day decoration. l and h ayush e e c - by the fact that, in order to increase the accuracy of measurements, the metal covers of magnetoelastic sensors are made in the form of round plates with ground surfaces. t mi. 00 a oo

Description

The invention relates to construction, in particular to the measurement of internal stresses in building materials.

A device is known for determining stresses in concrete and reinforced concrete structures, including a rigid plate with magnetoelastic sensors placed in it, made in the form of ring-shaped sensitive elements made of ferrite and metal caps 10. [1].

However, this device does not provide high accuracy measurements and reliability.

The closest to the proposed j5 is an apparatus for determining stress in the concrete and concrete constructions, comprising a rigid plate having arranged therein disc-shaped magnetoelastic sensors are designed as annular elements and void sen- ^z ferrite to the coil and metallic caps, and protectors of foil, attached to the device by means of adhesive __ gaskets £ 2].

A disadvantage of the known device is the low accuracy of the measurements due to the influence of shear forces.

The purpose of the invention is to increase the accuracy of measurements.

This goal is achieved by the fact that in a device for determining 'stresses in Vetoyai and reinforced concrete structures, including a rigid 35 plate with disc-shaped magnetoelastic sensors placed in the form of ring-shaped sensitive elements made of ferrite with a winding of metal covers, and up to protective films made of foils attached to the device by means of adhesive pads, metal covers of magnetoelastic sensors are made in the form of round plates with polished surfaces.

Figure 1 shows the device, a General view; in FIG. 2 - section aa in figure 1; figure 3 - disk-shaped magnetoelastic sensor, General view; figure 4 is a section bB in Fig.Z.

The device includes magnetoelastic sensors 1 mounted in a metal plate 2, on which protective films of corrosion-resistant foil 3 are glued, by means of adhesive gaskets 4 that seal the connecting wires 5. The disk-shaped magnetoelastic sensor 1 includes a sensitive element made of an annular ferrite core b with winding 7 and metal covers 8 and 9 with polished surfaces. The layer of covers 8 is glued to the sensitive element by means of glue 10, and the layers 9 are folded onto the lubricated layers 8. Around the transducer perimeter there is an elastic compliant hermetic coating 11.

The device operates as follows.

When applying shear and normal forces to the device embedded in the concrete mixture, the covers 9 move freely under the action of shear forces, as a result of which the sensitive element gives accurate indications of normal stresses without taking into account shear forces.

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The use of the invention will improve the accuracy of the control of the stress state in concrete and reinforced concrete structures.

Claims (1)

; DEVICE FOR DETERMINING 'stresses in concrete and reinforced concrete STRUCTURES, including a rigid' 'plate with disc-shaped magnetoelastic sensors placed in it, made in the form of ring sensitive elements made of ferrite with a winding and metal covers, and protective foil films attached to the device by means of adhesive gaskets, because of the fact that, in order to increase the accuracy of measurements, the metal caps of the magnetoelastic sensors are made in the form of round plates with polished surfaces.