SU1622122A1 - Method of producing steel-fiber boards - Google Patents

Abstract

The invention relates to the building materials industry and can be used to make building plates reinforced with steel fibers in a given direction. The goal is to increase strength. The concrete mixture is stuck in a steel form with side walls. Then, steel fibers with a diameter of 0.5 mm and a length of 40-100 mm, the percentage of reinforcement 3-10%, fall asleep. On both sides of the slab, two consonant (N-S) magnetic fields are perpendicular to the direction of the chosen fiber orientation. Libra orient perpendicular to the plane of the plate. To eliminate the friction between the ends of the fiber and the solution, both magnetic fields are vibrated in the horizon plane. Then the vibration is stopped. The upper magnetic field is shifted parallel to the plane of the plate in the desired direction of orientation of the fibers. Then reduce the impact of the upper magnetic field with its removal from the plane of the plate up the inclined. lines, and to prevent the lower magnetic field from predominating, this field is shifted vertically downwards. Libra stack parallel to one another in a horizontal plane. 1 tab. with SS (L

Description

The invention relates to the building materials industry and can be applied to the manufacture of high strength slabs in a selected direction, reinforced with steel fibers.

The aim of the invention is to increase the strength.

An example. A thin layer of concrete is poured over the steel form with side walls. The shape is a magnetic conductor that improves orientation efficiency. Then steel fibers with a diameter of 0.5 mm and a length of 40-100 mm are poured into the mold. Percent

reinforcement 3-10. There are two consonant (N-S) magnetic fields on both sides of the slab perpendicular to the chosen direction of orientation “O fibers” (perpendicular to the plane of the slab); at first, the fibers orient perpendicular to the plane of the slab. As a result of the occurrence of magnetic potentials at each Libra, they are uniformly located on the area of the plate. To eliminate the effect of friction between the end of the fibers and the solution, they vibrate both magnetic fields in the horizon plane. Then the vibration is stopped. Next, the upper magnetic

the field is shifted parallel to the plane of the slab in the desired direction of orientation of the fibers. The fibers tilt.

To prevent the bases from shifting, the fibers weaken (reduce) the effect of the upper magnetic field as it moves away from the plane of the plate upwards along an inclined line, and to prevent the influence of the lower magnetic Q field, this field is shifted vertically downwards. Magnetic fields are adjusted depending on the length of the fibers and their friction on the concrete mix. The fibers are laid parallel to each other in the js horizontal plane. The operations are then repeated until the desired plate thickness is obtained.

The test results are presented in table.20

Claims (1)

Invention Formula The method of preparing steel fiber-reinforced concrete slabs by layering the concrete mix and steel fibers with their orientation by the influence of a magnetic field with a change in the magnetic induction vector during the compaction process in each layer, characterized in that, in order to increase the strength, the fibers are first oriented perpendicular to the plane the effect of vibration of consonant magnetic fields coaxially with permanent magnets mounted on the top and bottom of the product, and then, in parallel, by displacement of the upper magnet in the horizontal loskosti and removing it along the inclined plane. Experience Bending strength, kgf / cm2, per day, when conducting the experiment according to the method Famous 1st I 28th 109 99 115 102 104  125 115 134 120 121 Proposed 1st I 28th 315 305 320 324 299