SU885495A1 - Reinforcement bar of recurrent profile - Google Patents

Description

(54) ARMATURE ROD OF A PERIODIC

t

The invention relates to the construction, in particular to reinforcing bars of a periodic profile, intended for reinforcing reinforced concrete structures.

The reinforcing bar of a periodic profile is known, which contains alternating thickening in the form of necks with shoulders, and the flanges | g have a square cross-section 1.

The disadvantage of this reinforcing rod is the reduction of the cross section of the rod at the locations of the necks to 0.6 of the diameter of the rod, which reduces its bearing capacity.

Closest to the invention is a rebar of a periodicichivka profile, containing rounded. Three longitudinal ribs and inclined ribs 23 located between them.

The disadvantage of this rebar is the increased consumption of metal for its manufacture. In addition, during heat treatment of such a rod of 25 n, it is impossible to calcine to a greater depth and to produce more efficient cooling of it, which does not allow one to obtain a rod with high mechanical characteristics. 30 PROFILE

The purpose of the invention is to reduce the consumption of metal for the manufacture of the rod and improve its mechanical properties and cooling conditions during heat treatment.

To achieve the goal in a rebar of a periodic profile containing rounded three longitudinal ribs and inclined ribs located between them, the surfaces between the longitudinal ribs are concave, shaped in arc cross section, the distance from the vertices of which to the center of the cross section is from 0.6 to 0.7 R, where R is the radius of the rounding of the longitudinal edges.

The width of the longitudinal ribs is from 0.6 to 0.8ft, the oblique ribs are arranged in increments of 0.4 to 1.6V and are oriented at an angle of 25 to 35 ° to the longitudinal axis of the rod, and their width and height is 0, ten .

Figure 1 shows the reinforcing rod, the cross-section / on. 2 .2 - node / figure 1; in FIG. 3, a scan of the lateral surface of the rebar.

Claims (2)

The reinforcement bar contains longitudinal ribs 1 and inclined ribs 2 located between them. The surfaces between longitudinal ribs 1 are made concave, forming an arc 3 in cross section, the distance from the top of which to the center of the cross section is a (О, 6-0, 7 ) R, where R is ra, rounding radius of the longitudinal ribs. Such a ratio provides a coefficient of 3-0.35, where K is the ratio of the distance from the center of the cross section of the rod to the nearest open surface of the rod to the diameter of the rod. A smaller value of this coefficient leads to the need to increase the overall dimensions of the profile of the rod, and an increase in this coefficient leads to an increase in the share of the unfilled section of the rod. The width of the longitudinal ribs B (0.60, 8) R. Reducing the width of the longitudinal ribs to values less than 0.6R necessitates an increase in the size of the inclined edges, while reducing the area of the rod, and the size of the inclined edges are limited by the conditions for their production during rolling. Increasing the widths of the longitudinal ribs more leads to a decrease in the proportion of hardened area, as well as the area of inclined ribs, which worsens the adhesion of the reinforcement to the concrete due to the small area of concrete beneath the ribs. The inclined ribs are located between the longitudinal ribs with a pitch t (0.4 1.6) R and oriented at an angle of 25-35 to the longitudinal axis of the rod. This is due to the requirements of maintaining a constant over the entire length of the profile of the calculated cross-sectional area, which is not ensured with a pitch value less than 0.4 Y and deterioration of the working conditions of the reinforcement in concrete (adhesion and endurance under cyclic loading) with the pitch of inclined edges, greater than 1 by. The height and width of the inclined ribs, lR, is due to the conditions for obtaining the infrared, keeping constant along the entire length of the rod of the calculated cross-sectional area, as well as the adhesion conditions to the concrete. The periodic profile of the reinforcing steel can be obtained by rolling it in a two or three-roll gauge of a rolling mill, the rolls of which have the configuration of the inverse configuration of the profile. During the rolling of such a periodic profile, favorable conditions are provided for transporting the metal along the route by reducing the orientation angle of the oblique ribs compared to the existing profiles. In addition, reducing this angle provides better access for the cooler to the surface of the rod in thermal strengthening installations. A small value of the coefficient K provides an intensive heat sink and contributes to an increase in the hardened area of the rod. The proposed periodic profile of the reinforcement refers to the profile M. Snack dim concrete at displacement. The adherence feature of such a periodic profile is caused by the specifics of the operation of concrete cantilevers formed between the inclined ribs of the rod. With a decrease in the angle of the inclined ribs to the longitudinal axis of the rod to 25-35, the conditions for the involvement of concrete in the operation of the structure improve, and its strength increases under cyclic loads. Improving the mechanical properties of the rod by improving the cooling conditions during thermo strengthening allows, while maintaining the size and uniformity compared to the existing profiles of rods, to reduce the metal consumption in the manufacture of reinforced concrete structures. Claim 1. Rebar of periodic profile, containing rounded three longitudinal ribs and inclined ribs located between them, characterized in that, in order to reduce the metal consumption for its manufacture, improve the mechanical properties and cooling conditions during heat treatment, the surfaces between the longitudinal ribs are made concave, forming in the cross section of the arc, the distance from the vertices of which to the center of the cross section is from 0.6 to 0.7 R, where R is the radius of rounding of the longitudinal ribs. 2. The rod according to claim 1, wherein the width of the longitudinal ribs is from 0.6 to 0.8, the oblique edges are arranged in steps of from 0.4 to 1.6. and are oriented at an angle of from 25 to 35 to the longitudinal axis of the rod, and their width and height is 0.1R. Sources of information taken into account in the examination 1. The author's certificate of the USSR 398727, cl. E 04 C 5/03, 1971. 2. The patent of the Federal Republic of Germany 1759968, cl. E 04 C 5/03, published 1972.