RU210414U1 - ZONE REINFORCED POLYMER CONCRETE BEAM - Google Patents

Abstract

The utility model relates to the field of industrial and civil engineering and can be used as floor covering beams and other bending elements. Zone-reinforced polymer concrete beam containing longitudinal rod and dispersed reinforcement, characterized in that the beam is made of polymer concrete on a rubber binder, dispersed reinforcement is located in the support zone, equal to 1/3 of the span of the beam. Obtained on the basis of liquid rubbers, the material - rubber concrete (or cauton for short) has favorable physical and mechanical properties, as well as high chemical resistance. The addition of fiber as a reinforcement of the support zone of the beam makes it possible to increase its crack resistance and strength of sections, and also reduces the metal consumption of the structure as a whole and the labor intensity of its manufacture.

Description

The utility model relates to the field of industrial and civil engineering and can be used as roof beams, floors and other bending elements.

Reinforced concrete crossbars are known, in the support areas of which transverse and inclined rod reinforcement is introduced to absorb tensile forces [1].

Closest to the proposed is a reinforced concrete element, including placed in the tensile zone of dispersed-reinforced concrete [2].

However, the disadvantage of these beams is the low chemical resistance, high metal consumption and labor intensity of manufacturing with a low bearing capacity of the supporting zones. What are important properties for structures, in particular beams, operated under the influence of aggressive environments of various nature.

The technical result is aimed at increasing the bearing capacity of structures, chemical resistance, reducing the metal consumption and labor intensity of manufacturing.

The technical result is achieved by the fact that the zone-reinforced polymer concrete beam containing longitudinal rod and dispersed reinforcement, characterized in that the beam is made of polymer concrete on a rubber binder, and the dispersed reinforcement is located in the support zone, equal to 1/3 of the span of the beam.

The figure shows a general view and cross section of the beam and reinforcement zone, where 1 - rubber polymer concrete; 2 - reinforcement zones; 3 - dispersed reinforcement; 4 - longitudinal reinforcement in the tension zone.

The zone-reinforced polymer concrete beam is made of rubber polymer concrete 1, in the reinforcement zone 2, in addition to the longitudinal reinforcement 4, dispersed reinforcement 3 is added in the amount of 0.7-1.3% of the volume of the reinforced part, the length of the reinforcement zone is equal to 1/3 of the span of the beam, thus obtaining construction with zone reinforcement of supporting zones.

The operation of the device is as follows: Under the action of a load on the beam, the reinforcement zone 2 is stretched due to the bending of the beam. When the tensile strength of rubber polymer concrete 1 is reached, dispersed reinforcement 3 is more intensively included in the work, preventing the development of cracks along the height and width of their opening. In this case, the destruction of the beam, i.e. the end of its normal operation under load, is the achievement of reinforcement 4 tensile yield strength. Thus, the introduction of dispersed reinforcement into the support zone increases the bearing capacity of the beam, reduces the metal consumption and labor intensity of manufacturing the structure as a whole.

1. Baikov V.N., Sigalov E.E. Reinforced concrete structures: General course: Proc. For universities. - 5th ed. revised and additional - M.: Stroyizdat, 1991. - 36-53 s, 150-161 s, 413-423 s, 409-413 s.

2. Patent SU 1730395 A1, Е04С 3/20, 30.04.92, bul. No. 16. Ait-Takhar Kamal. Moscow Institute of Railway Engineers.

Claims (1)

Zone-reinforced polymer concrete beam containing longitudinal rod and dispersed reinforcement, characterized in that the beam is made of polymer concrete on a rubber binder, dispersed reinforcement is located in the support zone, equal to 1/3 of the beam span.

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