RU2031207C1 - Deformed bar - Google Patents

Abstract

FIELD: building materials. SUBSTANCE: deformed bar includes longitudinal ribs and projections and depressions located over helical line. Surface of depressions has shape of concave catenoid formed by rotation round longitudinal axis of curve X = C·ch(y/c), where and y are current coordinates of curve, and C is profile constant. EFFECT: higher efficiency. 2 dwg

Description

 The invention relates to the field of building materials, namely to reinforcing elements of reinforced concrete structures.

 Reinforcing bars of a periodic profile are known in which the transverse elements (protrusions) alternate with the depressions of the cylindrical body of the rod [1]. However, the adopted geometry negatively affects the performance, reducing the endurance limit of the reinforcement.

 The closest in technical essence are reinforcing bars, in which the protrusions alternate with hollows in the form of gentle recesses of negative Gaussian curvature, outlined by a circular curve [2].

 The disadvantage of these rods is the large surface of the depressions, adversely affecting corrosion resistance and material consumption.

 The purpose of the invention is to increase corrosion resistance and reduce the material consumption of the reinforcing bar.

This goal is achieved by the fact that the surface of the troughs has the shape of a concave catenoid formed by rotation around the longitudinal axis of the curve x = C ˙ сh (у / C), where x, y are the current coordinates of the curve, C is the profile constant (integration constant). Given the coordinates of the beginning and end of the generatrix, C can be determined using the formula C = t ₁ / 2x, where t ₁ is the distance between the ridges.

 In FIG. 1 shows a reinforcing bar, a General view; figure 2 - reinforcing profile, a longitudinal section.

 The reinforcing bar includes ridges 1 and depressions 2, which are made along the curve X = C ˙ сh (у / С).

 In case of wet atmospheric corrosion, the electrolytic liquid film covering the reinforcing profile will change little in thickness, since the surface provides a film position that is stable for energy reasons. This significantly reduces the likelihood of differential aeration galvanopairs between ridges and depressions. In addition, minimizing the surface of the depressions reduces the consumption of materials for the manufacture of reinforcing bars. This profile also provides a smooth transition from the ridge to the depression, which creates favorable conditions for the involvement of the ridge in the work. The reliability of the anchor rod also increases.

 Since the adhesion of the reinforcement of the periodic profile to concrete is ensured mainly by giving it a certain profile and low adhesion, minimizing the surface of the depressions will not affect the deterioration of the joint work of the reinforcement with concrete.

Performing depressions along the curve x = C ˙ сh (у / С) allows us to maintain the necessary ratio of the concrete cutoff area to the crushing area, which is determined by the formula (F _cf / F _cm ) ≈ (t - b) / h _cf , where t - step of the transverse protrusions, b is the width of the protrusions, h _cf is the average height of the protrusions.

 The geometry of this reinforcing bar provides a profile, crushing concrete at an offset.

Claims (1)

REINFORCED ROD OF THE PERIODIC PROFILE, including longitudinal ribs and protrusions and depressions located along the helical line, characterized in that, in order to increase corrosion resistance and reduce material consumption, the surface of the depressions has the shape of a concave catenoid formed by rotation around the longitudinal axis of the curve

, where x, y are the current coordinates of the curve, and C is the profile constant.

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