DE937649C - Process for work hardening concrete reinforcing bars - Google Patents

Description

There are concrete reinforcing steels known that by twisting or stretch twisting of single or double bars of round, prismatic or articulated cross-section a- substantial increase in the only decisive factor in the Stahlbeto.nhau for the load-bearing capacity Experience the yield point and the usual, not cold-hardened round steel (steel grade I). Also have a higher sliding resistance, which is determined by arrangement of ridges, ribs, beards, scars., notches or the like. Can be increased.

The invention which a. Process for work hardening concrete reinforcing bars concerned by twisting assumes that. the amount of increase in the yield strength increases with increasing distance from the center of the stand and the maximum value on one the cross-section delimiting circular arc reached and that cross-sectional shapes -des Concrete reinforcement bars, which consist of a core area and to this, in symmetrical Arrangement attached outer partial surfaces exist., Which with increasing distance become broader from the core and drawn approximately through parts of a. around. the core Circle are limited, offer favorable VoT exposure for work hardening, especially if the free contour lines of the core area are on a concentric Lie in a circle.

The invention is based on the knowledge that it is not indifferent is how such concrete rebars are work hardened and that the desired Only then can an increase in the yield point be achieved; when a certain relationship between the respective cross-sectional shape of the rod and the performance of the work hardening is adhered to.

Accordingly, the method according to the invention consists in that the Concrete reinforcing steel with predominance of the sum of the cross-sections of the outer parts of the cross-section only twisted in relation to the core cross-section, if necessary Twisted stretching, when the core cross-section predominates over the sum of the cross-sections the outer parts, on the other hand, are twisted under straight lines. With this adjustment the implementation of the twist on the cross-sectional shape of the rod is about the following.

If the sum of the outer partial areas of the cross-section is greater than the core cross-section, these influence the behavior of the rod when twisted stronger, in the sense of a shortening, like a soilch, e when twisting Istegstahl, twisted bead steel, etc. occurs, in which partial areas of the cross-section are separated from the core area on the outside. This shortening can lead to an increase the work hardening are counteracted in a known manner in that the Ends of the rod are kept at an unchangeable distance when twisted, whereby, counteracting the shortening, a stretching of the fibers of the core most remote partial areas of the cross-section is achieved, which, within moderate limits applied, is useful.

If, on the other hand, the core cross-section is greater than the sum of the outer partial areas. of the cross-section, the distance area is decisive for the behavior of the rod. when twisting, and in this case occurs similarly to the gate steel. renewal of the staff. This would lead to buckling in the case of firmly clamped rod ends, Why-such rods in a well-known way when twisting are useful to one of them End: are clamped, on the other hand freely movable with the other in the longitudinal direction stay like that. that they can lengthen without creating harmful tensions.

In the decorative drawing are examples of bar cross-sections. shown, partly including the associated views of the bars before and after the twisting are reproduced. In the cross-sections according to FIGS. Z, 2, 3, 4, 5, 6, 7 and 8 are always the cross-sectional parts lying on the outside of the core area larger than the core area, why. just twist them, possibly stretch them will. In the latter case, the ends of the rod become the same when twisted Kept distance; whereby the hindrance to the otherwise occurring shortening acts as a tensile force in the longitudinal direction. For bars with cross-sections according to FIGS. g to r z, the core area is greater than the sum of the outer partial areas. When held straight, they are twisted by applying a tensile force in the longitudinal direction get abandoned. This tensile force can act on one end of the rod Tension spring or by a tension member loaded with a hanging weight. .

If the core area corresponds approximately to the sum of the partial areas, practically both types of twist come into consideration. Then those who are elected in the given case causes the greatest increase in the yield strength.

Claims (1)

PATENT CLAIM: VeTfahrem for IC, old hardening of concrete reinforcing steel, its cross-section from a core area and preferably symmetrically on this Arrangement attached partial areas consists, which with increasing distance, from the core area become broader and approximately through parts of a circle drawn around the center, s-es are limited, gekennzeivhnet that the steel when the sum of the Cross-sections of the outer part twisted against the surface of the core part., If necessary Twisted stretching, when the core cross-section predominates over the sum of the cross-sections the outer parts, on the other hand, are twisted while holding straight.