DE2212409A1 - CONCRETE RIBBON STEEL - Google Patents

Description

"Reinforcing rebar" The invention relates to rebar, in particular those with a high strength corresponding to grade IVa that with a large number in the longitudinal direction of the! Rod arranged in rows one behind the other and to the longitudinal direction inclined ribs is provided.

Ribbed rebar is used for reinforcement, i.e. for reinforcement of concrete parts. It must be taken into account that the concrete only has a very low elasticity range owns. The breaking point of the concrete is usually below deformation Tensile at 0.02% and for deformation under pressure at 0.2. Often are heavily burdened Concrete parts therefore cracked in the tension zone.

This results in very different loads for each concrete part. In state I, the initial state, the concrete has not cracked and will occur Tensile forces absorbed by the concrete and its reinforcement together. This happens proportionally depending on their modulus of elasticity. In state II the concrete is in the tension zone torn and the tensile forces are absorbed solely by the reinforcement. To that extent it is extremely important that the reinforcement does not corrode. True there the Concrete provides good corrosion protection for its reinforcement, but this only applies as long as how he didn't crack.

On the other hand, paints or the like are anti-corrosive Coatings on the reinforcement are unsuitable because they reduce the necessary adhesion of the concrete on its reinforcement.

While using simple round steel for reinforcement in the case of a corresponding bending load in the tensile zone, few, but gaping Setting cracks shows up when using steels with transverse or inclined A large number of ribs running longitudinally instead of the little gaping cracks fine cracks. The finer cracks are caused by the better bond between the ribbed steel with the concrete and reduce the corrosion considerably by removing the oxygen in the air and give the moisture less opportunity to access the steel ribs.

In this context, they are admittedly permissible with regard to corrosion Crack widths between 0.2 and 0.3 mm have been established, but are understood that this only applies to normal concrete reinforcement and normal loading can and especially in cases of extreme stress, in which, for example, as reinforcement Reinforcing steel bars provided with a high strength corresponding to grade IVa is, the corrosion protection would have to be strengthened. However, it was still able to do so so far cannot be realized.

The invention is therefore based on the object, now a ribbed steel to sheep that provide adequate corrosion protection even in cases of extreme stress owns.

According to the invention, that on the ribbed steel is the one mentioned at the beginning Kind achieved in that the ribs within each row have different angles of inclination own.

This advantageously results in the same number and shape of ribs compared to a reinforcement made of a corresponding conventional rib steel in the concrete an unusually multi-veined and fine-veined crack pattern. This is attributed to that the differently inclined ribs different stress states on the tension side cause in the concrete, which overlap, so that tension nodes arise, of which then in the directions that result from the various states of tension result, cracks run out.

Particularly favorable conditions are set when the angle of inclination of the ribs is between 40 and 800, and the difference in the angles of inclination of two successive ribs is approximately 200. It can also be useful to change the inclination of the ribs non-uniformly. With the advantage of a simpler one However, a uniform change in the inclination of the ribs is also possible. In this sense, each rib in each row is longitudinally one behind the other arranged ribs have the same inclination as the next but one rib. As an angle of inclination about 50 and about 700 have proven to be the cheapest for the ribs.

The different ribs can be used in a single rolling process be rolled on if one roll is provided for each row of ribs, which has the same profile on the circumference in the negative as the row of ribs to be rolled.

An exemplary embodiment of the invention is shown in the drawing.

1 with a rib steel is referred to, for example, a diameter of 8 or 16 or 26 mm and is made of a high-strength steel or through suitable post-treatment, which may include stretching, has reached a high level of strength. In the outer surface of the rebar 1 are two Rows of ribs lying one behind the other are rolled in. The rows of ribs are around 1800 offset from one another on the circumference of the steel ribs 1, i.e. diametrically opposite one another arranged on the steel ribs 1. Each row of ribs is made up of sickle-shaped ones Ribs 2 and 3 together, of which one between each two adjacent ribs 2 Rib 3 is arranged and vice versa. Both the ribs 2 and the ribs 3 extend inclined to the center axis, denoted by 4, of the steel ribs 1. The The angle of inclination of the ribs 2 is denoted by mitst 2 and that of the ribs 3 is denoted by JL 1. At a range from 40 to 800, in which the inclination angles 0ç1 and OC 2 fluctuate can and the influence of the ribs 2 and 3 designed particularly favorable inclination difference of approx. 200, the angle of inclination i1 is approx. 500 and the angle of inclination i 2 is approx. 700.

The ribs 2 and 3 are rolled by an oval pre-profile as Starting material for the steel ribs 1 moved between two rollers, not shown which on the circumference in the negative has the same profile as the rows of ribs, i.e.

the elevations adapted to the spaces between the ribs 2 and 3 and the ribs 2 and 3 have adapted recesses. The rollers press during Rolling process the oval pre-profile so that the material the recesses in the The roller fills and the ribs 2 and 3 are created. At the same time, longitudinal ribs are created 5 in the gap between the two rollers.

The composite of the steel ribs 1 with the concrete by the ribs 2 and 3 causes and is created by the ribs 2 and 3 such a high barrier effect in the concrete, that when the concrete is overloaded, an extremely fine-veined crack pattern in the concrete is caused.

Claims (5)

Patent claims: 1. Reinforced rebar, especially with high strength accordingly of quality IVa with a large number in the longitudinal direction of the rod in rows one behind the other arranged and inclined to the longitudinal direction running ribs, d a d u r c h it is noted that the ribs (2, 3) are different within each row Have an angle of inclination (8ç1 dv2). 2. rebar according to claim 1, d a d ii r c h g ek e n n z e i c h n e t that the angles of inclination ('1' are between 40 and 800 and the Difference between the angles of inclination (α1, α2) of two adjacent ribs (2, 3) is approximately 20. 3. rebar according to claim 2 or 3, d a d u r c h g e k e n n z e i c h n e t that of each row arranged one behind the other in the longitudinal direction Ribs (2, 3) each rib has the same inclination as the next but one rib. 4. rebar according to claim 2 and 3, g e k e n n z e i c h n e t d u r c h Inclination angles (dQ1 CL2) of approx. 50 and approx. 700. 5. Device for producing the ribs according to one or more of claims 1 to 4, g e k e n n z e i c hn e t d u r c h each one roller for each row of ribs that has the same profile on the circumference in the negative as the row of ribs having. Blank page