DE2160435B2 - Concrete reinforcement bar pre-hardened from round steel in the cold forming process - Google Patents

Description

The invention relates to a concrete reinforcement bar pre-hardened from round steel in the cold forming process, whose ribs arranged in several rows are preferably at an angle of 45 ° to the Rod axis lie and its core has been pre-deformed before attaching the ribs so that his Cross-section deviates from the round shape.

When producing such a concrete reinforcing bar, it is known, see DE-OS 16 09 605, the Creation of areas with an enlarged radius of curvature while maintaining the radius of curvature of the round rod cross-section between these areas with a width of 10% to 30% of the rod diameter to undertake; the ribs are cold-rolled without pressure on their heads, the radius of curvature being in the areas enlarged in the radius of curvature has a dimension at which the rib ends are free of constraints in the Areas enlarged in the radius of curvature gradually taper off.

In addition, concrete reinforcing bars produced by the cold forming process are widely known. Most of time the bars are pre-consolidated by a drawing process (drawing die or rolling process) and then in provided a rolling process with ribs of various kinds. Known rods have ribs in the various angular positions both in the axial direction as well as deviating up to 90 ° to this.

The object of the invention is to manufacture a concrete rebar of the type mentioned so that the When deforming below the recrystallization temperature, the material is as uniform as possible throughout Has solidification and improved adhesiveness.

The problem posed is solved in that the ribs are approximately the same over their entire length Apex width and a cross-sectional area approximately in the form of an axial section through a short truncated cone without a noticeable transition at both ends in the longitudinal direction of the ribs into the core of the rod, and that the greatest rib height is the seventh to

to the thirtieth part of the rod diameter, and that the rib flanks in the entire course with a Fillet into the rod core, the radius of which is no more than half the nominal rod diameter.

The measures according to the invention result in considerable advantages in terms of the overall effect. As a result of approximately the same apex width, the rib flank lies largely in one plane, so that the sliding resistance is favored. In addition, the material flows less at the end of the rib. Due to the slope of the flank the flow process during rolling is kept within limits and embrittlement is prevented. aside from that the result is a lower notch sensitivity. Finally, there is no need due to the smooth transition the two ends in the longitudinal direction of the transverse ribs a jump in cross section or one for the structure formation very harmful point (notch), which adversely affects the strength properties, in particular durability could affect. And finally, the rib height achieved in this way is essential for good adhesion

ω decisive (related rib area). Too big one However, the height of the ribs is also detrimental to the strength properties that can be achieved after deformation. The greatest rib height should therefore not exceed a seventh part of the diameter. A falling below the thirtieth part of the diameter results in insufficient adhesion in the concrete.

In the embodiment of the invention it is proposed that the fillets on the rib flanks and on the To have the rod core connected tangentially. Through this

* ° a jump in cross-section (notch) is avoided, which promotes the uniformity of the solidification.

A further feature provides that the foot width of the rib is 20% larger than its apex width, whereby the degree of rod consolidation is favored, which is responsible for the size of the sliding resistance in the concrete is crucial.

An embodiment of a concrete reinforcing bar according to the invention is based on the drawing in Description explained. It shows

1 shows the arrangement of a rib on the concrete reinforcing bar,

F i g. 2 the rod according to FIG. 1 in cross section, with three ribs intended as a projection (onto a plane behind) similar to a spherical triangle, and

2a shows a round starting material with three flat areas.
As shown, a rib 10 or 10a is shown on the concrete reinforcing bar 9, which is approximately constant in width and flows seamlessly into the bar material at the point 11. As shown, there is hardly any or only a very small shoulder (transition zone) at point 11 (see the arrow).

1 sheet of drawings

Claims (3)

Patent claims: 1. Concrete reinforcement bar pre-hardened in the cold forming process from round steel, the ribs of which are arranged in several rows preferably at an angle of 45 ° to the bar axis and whose core has been pre-deformed before the ribs are attached so that its cross-section deviates from the round shape, characterized in that that the ribs (10, XOa) have the same apex width over their entire length and a cross-sectional area roughly in the form of an axial section through a short truncated cone, without any noticeable transition at both ends in the longitudinal direction of the ribs, that the greatest rib height is the seventh to thirtieth Part of the nominal rod diameter and that the rib flanks merge into the rod core with a fillet, the radius of which corresponds at most to half the nominal rod diameter. 2. Concrete reinforcing bar according to claim 1, characterized characterized in that the Ausrungdung tangential to the rib flanks and to the rod core connect. 3. Concrete reinforcing bar according to claim 1 or 2, characterized in that the foot width of the rib (10, 10a) is 20% greater than its apex width.