SU1716038A1 - Method of tightening fittings - Google Patents

Abstract

The invention is used in the manufacture of prestressed reinforced concrete. SUMMARY OF THE INVENTION — In the method of tensioning an armature, the pulling rod is made of armature material with a cross-sectional area of a smaller armature cross-section area 1.25-1.45 times, electric heating of the armature is performed to temperature Mn +

Description

The invention relates to the production of prestressed iron-1 on and can be used in tensioning thermo-strengthened reinforcement.

The purpose of the invention is to increase the structural strength.

The essence of the invention is as follows.

Electrocontact heating of thermomechanically strengthened reinforcement above the temperature Mn + 50 ° C weakens the reinforcement, which reduces its structural strength. Heating the reinforcement to temperatures below Mn + 25 ° C does not allow the internal stresses to be relieved and the necessary tension of the reinforcement to be carried out, which impairs its operational properties. When cooling the pull rods before fixing the reinforcement, the pull rods, reducing their length, help to further expand the reinforcement, in which they maintain a predetermined temperature, which allows increasing the voltage in the reinforcement and improving its operational properties.

By producing rebar and pull rods of different diameters, thereby creating different electrical resistances during contact heating, which allows to obtain a higher temperature in the traction rods than in the reinforcement, and thus a greater elongation in the rebar-rod system. This leads to the elongation of the reinforcement-tug rod system by a large amount at the same heating temperature, which allows more precise control of the tension process.

If the ratio of the diameters of the reinforcement and the tie rods is 1.25, the magnitude of the stress state is not achieved. The value of this ratio is greater than 1.45 ... leads to great technological difficulties.

Example. Armature made of 20GS steel (0.19% carbon, 1.40% manganese, 1.08% silicon, Mn - 375 ° C) of At-U class with a diameter of 18 mm (cross-section 250 mm) with Oo properties, 2,880 N / mm2, about 1050 N / mm2, O5 12.5% cut off with a length of 6000 mm, connected using a double-OO O 00 00

grip with a rod (which served as an anchor) and subjected to contact electric heating followed by tension to a controlled voltage of 8000 kg / cm. Heating of the fittings without a traction rod was carried out up to 480 ° C, which corresponds to the fittings connected to the traction rod — in the temperature range 300-450 ° C. The length of the pull rod (smooth calibrated tackle from steel grade 50) was selected experimentally. After cooling the reinforcement on the mold, the magnitude of its prestressing was controlled. In parallel, we monitored the change in the mechanical properties of the rebar subjected to electric heating.

The results are presented in the table.

After placing the heated reinforcement and the traction rod in the form, the ends of the system were anchored and the traction rod was initially cooled with a fan.

Claims (1)

followed by anchoring the second end of the valve while still heated. Claims The method of tensioning an armature, including electrothermal heating of the armature and the traction rods, cooling the traction rod, fixing the armature in the heated state and its subsequent cooling, is characterized in that, in order to increase the structural strength, the traction rod is made of material fittings with a cross-sectional area of a smaller cross-sectional area of the reinforcement 1.25-1.45 times, the electrical heating of the fittings is carried out to a temperature of Mn + (25-50) ° C, after which cooling of the rods is performed and the ar are subsequently fixed Aturi, wherein the electrothermal heating armature and the traction rods is carried out after the last compound one another. Control250 250 Sh 217 1.15 50 520 760920 15,5125-At-lV Class Loss strength, given voltage does not reach No elongation required, impossible to fit in Inadmissible overheating and its deformation Achieved prerequisite Same . Also 780950 15,0115At-IV Class Loss strength given predpluzhdeniya not reached ABOUT ABOUT with with 0