SU1472280A1 - Method of producing lightweight panels - Google Patents

Abstract

The invention relates to the production of panels from lightweight concrete and can be used in the construction industry. The purpose of the invention is to increase the durability of the panels. Dividing partitions are installed on the form pallet, after which a layer of light concrete mix is placed on the bottom of the core and frame and compacts it. Then, bulk heat insulating material is laid into the core, and light-weight concrete is placed into the frame and re-compaction is carried out. After that, the dividing walls are removed, the top layer of the light concrete mix is laid and finally consolidated. The frost resistance of the panels is more than 100 cycles.

Description

The invention relates to the manufacture of lightweight concrete panels and can be used in the construction industry.

The purpose of the invention is the new durability of nan.-1.

When molding lightweight concrete panels with a core of thermal insulating material, dividing partitions are installed on the form noddon. After that, a layer of light concrete mix is placed at the bottom of the core and frame and is compacted. Then, a bulk heat insulating material is placed in the core, and a light concrete mix is placed in the frame. Repeated compaction. The dividing walls are removed, the top layer of light concrete mix is laid and finally compacted.

Example I. In the form with the size of ХХХХ Х0.35 m along the walls of the sides and the hollow cores, vertical partition walls are installed at a distance of 5-8 cm. They place reinforcement

frames. Then, a layer of expanded clay-concrete mix with a thickness of 5-6 cm with an average density of 1400 kg / m is laid and compacted to the bottom of the core and frames with a vibration. After that, loose aggregate is supplied to the core (expanded clay fr. 5-10, mixed with fr. 20-40 with an average density of 430 kg / m), and claydite-concrete mixture is placed in the frame. By means of vibration (on a vibrating plate with horizontal vibrations), the materials are compacted, after which the partition walls are removed. Subsequently, the top layer of expanded clay-concrete mixture is laid and re-compaction is carried out by vibration.

Example 2. The sequence of operations in the manufacture of plastics does not change, but before laying, the expanded clay of the heat insulating layer is treated with cement milk in a gravity mixer. The cement consumption is 80 kg / m.

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Thus, in the panels obtained, the average of the bodies and the insulating core, 22 cm thick, is protected by a dense and durable shell. Moreover, the thickness of the front and side fusion layers is 5-6 cm, and the inner one - 8 cm.

Molded products are subjected to heat treatment in the steam chamber. After steaming, the average density of the structures made in the first method is 830 kg / m, and in the second - 890 kg / m. Monolayer panels formed on the same expanded clay, have an average density of 1270 kg / m.

Expanded clay panels, including the face layer, has a compressive strength of 15.0 MPa, and frost resistance - more than 100 cycles. Therefore, the durability of these panels, especially in harsh climatic conditions, is several times higher than the panels (prototype), the front frame of which is made of expanded clay concrete, and the core is made of aerated concrete having a compressive strength of 2.5-3.0 MPa, and frost resistance of 23- 35 cycles.

Compared with monolayer claydite concrete panels, the proposed method allows saving up to 30% of cement and up to 20% of reinforcing steel.

Claims (1)

Invention Formula A method of manufacturing lightweight panels with a core of thermal insulating material, including the installation of dividing walls on the mold tray, laying the heat insulating material in the core, and the concrete mix in the frame, sealing and removing partitions, in order to increase the durability of the panels after the installation of partitions on the bottom of the core and frame lay a layer of light concrete mix, compact it, then put loose heat insulating material into the core, and light mix concrete, t water re-seal, then removed by separation walls, the top layer of light concrete is placed and finally the mixture is compacted.