TH1109B - Crack-resistant coating for structural wall construction - Google Patents

Abstract

The structure of the construction wall is prone to cracks due to the deformation caused by the movement of the foundation. vibration and/or curing after the construction of the structure, frequent cracking is likely to occur. After the structure has been painted effect of cracks This crack will pass through the coating layer of paint. When the new paint The structure of the construction wall is also prone to new cracks and is passed through the coating layer of paint within a short time. This invention revealed a crack-resistant coating layer. for the construction of the wall construction and methods for using such coating layer It consists of (1) a crack absorbing layer which is attached to the frame. build of construction wall Figures consist of a granular part, which is quite round. and is bonded with resin binder and (2) conventional coating layers. The spokes attach to and close. Overlay for absorbing cracks.

Claims (9)

1. Crack-resistant coatings for structures of construction walls that may be cracked, consisting of (1) a crack absorbing layer. The teeth are attached to the structure of the construction wall, which consists of grainy parts that are relatively round. It is bonded with a resin binder and (2) a simple coating layer that is adhered to and covered. Absorb cracks where the resin binder becomes flexible. It is sufficient for rolling between granular sections in order to absorb cracks that occur in the formation of the construction wall and prevent crack transmission to conventional coatings. 2. The compounded surface layer. Against cracking as in claim 1, where the granular part has a diameter from approx. 1 mm to approx 6 mm 3. Surface layer that is compounded to crack as in claim 2, where The aforementioned resin binder Also comprised of Plasticizer 4. The surface bonding layer is compounded to crack as in claim 3 where the granular part is porous glass. Crack as in claim 4, where the crack absorbing layer is approximately 0.3 to 3 centimeters thick 6. The crack resistant coating as in claim 5, where the crack absorbency layer is It has a thickness of 1 to 2 centimeters, and where the grain is the line size. The diameter is from 2 mm to 4 mm. 7. The surface treatment layer is compounded against cracking as in claim 6, where the aforementioned plasticizer is chlorinated paraffin. Compounded to the cracking, as in Claim 7 that the resin binder said. Is it a copolymer of one? More than that of aromatic monomers with vinyl groups being replaced, and one or more of acrylate monomers. 9. A process for coating structures of construction walls that may A rupture occurs The crack-resistant coating consists of (1) the use of the crack absorption layer to the structure of the building wall, the crack absorbing layer, consisting of granular parts that are somewhat round. And the teeth are attached with a resin binder where the resin binder is used in the shape The viscosity of the resin binder has a viscosity of approximately 0.5 to approximately 10 points at 10,000 s -1 and the viscosity Brookfield, at least 600 points at 10 rpm, and (2) applying a normal coating to a crack absorber layer. Where the resin binder is flexible enough for Rolled between granular parts to absorb cracks. Cracks occurring in the structure of the construction wall And prevent Passed the crack to the conventional coating 1 0. The process as in claim 9 where the aforementioned granular part has a diameter from approximately 1 mm to approximately 6 mm 1 1. Process as shown in Claim 10 at the famous resin binder It also includes a plasticizer 1 2. The process as in claim 11, where the granular part is porous glass beads 1 3. The process as in claim 12, where the floor absorbs the cracks. The crack used has a thickness of approximately 0.3 to 3 centimeters 1. 4. The process as in claim 13, which is to absorb cracks. The crack has a thickness of 1 to 2 centimeters and where the grainy part is from 2 mm to 4 mm in diameter. 5. Process as in claim 11, where the solution is The synthesizer has a viscosity of 2 to 6 points at 10,000 s-1 and a Brookfield viscosity of approximately 750 points at 10 rpm 1. 6. The process as in claim 15, where such granular part is porous glass beads 1 7. The method as in the claim 16 that the suction cup is raised. Crack has a thickness of about 0.3 to 3 centimeters 1 8. The process as in claim 17, where such granular part has a diameter from 2 mm to 4 mm 1 9. The process as in claim 18, the floor absorbs the cracks. Crack thickness from 1 to 2 cm. (19 claims, 3 pages, 1 photo)