LT7180B - CERAMIC TILES AND ALUMINUM COMPOSITE PANEL FOR VENTILATED FACADES - Google Patents

Abstract

The invention relates to the installation of ventilated facades of building walls. The aim is to optimize the weight of the composite finishing tile. The finishing tile (4) consists of a stone tile (1) with a minimum thickness of 7 mm, a hybrid adhesive layer (3) with an average thickness of 0.1 mm, and a glued 0.5 mm thick aluminum sheet (2). The production method includes preparing the surfaces of the stone tile (1) and the aluminum sheet (2) for bonding, covering the stone tile (1) with a hybrid adhesive layer (3) in curved stripes (striped pattern) around the perimeter and in central parallel stripes, gluing the aluminum sheet (2) to the stone tile (1) by pressing it and leaving it to harden after bonding until the hybrid adhesive layer (3) is completely hardened. Composite finishing tiles are used in the decoration of ventilated facades, when they are attached to the frame at a distance from the wall, comply with impact resistance category I, flammability class B, smoke emission s1 and the formation of burning particles d0.

Description

TECHNICAL FIELD

The invention relates to the external decoration of building walls, more specifically, to the installation of ventilated facades.

STATE OF THE ART

The ventilated facade finishing system usually consists of the following components: frame, fasteners, thermal insulation layer and external finishing layer. An air gap is formed between the external finishing layer and the insulation layer, which creates a thermal barrier that reduces energy consumption. In addition, the air gap prevents rainwater from penetrating, air circulation disperses water vapor from the inside to the outside. The external finishing protects the facade from precipitation and mechanical impact.

An important property of modern facades is impact resistance. Different parts of the building require different levels of resistance, so according to European standards, four impact resistance categories are used. For example, category I applies to the lower, easily accessible zones, where the greatest physical impact is expected. In such places, it is necessary to use reinforced finishing tiles or panels. Another very important property is the reaction of materials to fire, which is denoted by the letters A - F. The highest - class A - level (subtypes A1 and A2) means that the material practically does not burn and does not stimulate the rapid spread of flame. The indices s1, s2, s3 indicated next to the letter indicate the amount of smoke: the higher the number, the more intense the smoke during a fire. Meanwhile, d0, d1, d2 characterize the formation of burning (dripping or falling) particles: the lower the value - the fewer such particles.

As with other components of a ventilated facade finishing system, the resistance of the outer finishing layer - panels, siding or ceramic tiles - to various influences must be confirmed by testing according to relevant standards.

Ceramic tiles, widely used for facade decoration, have excellent chemical resistance, strength and abrasion resistance, but they remain mechanically fragile and are therefore sensitive to impacts. To increase their resistance, tiles can be reinforced, for example, with carbon fiber, fiberglass, steel or aluminum sheet.

Patent application CN106223564 (A), published on 2016.12.14, discloses a carbon fiber reinforced ceramic tile with high impact resistance and helps solve the problems related to the insufficient strength and tendency to crack of the ceramic tiles used at that time.

Patent application US2017321428 (A1), published on 2017.11.09, discloses a ventilated facade in which thin ceramic panels are reinforced with a layer of fiberglass, a foam core and a steel or aluminum sheet, bonded with an elastic resin. Such lamination increases the flexibility and impact resistance of the ceramic panel and, at the same time, increases the resistance of the surface to cracking during installation and operation.

Patent application US2010154339 (A1), published on 2010.06.24, discloses a fracture-resistant or crack-resistant ceramic tile for use as a floor or wall covering, wherein the ceramic tile is covered by a sheet of steel or other metal having a coefficient of thermal expansion greater than that of the tile, and is bonded with an adhesive of polyurethane, polyester or epoxy resin. This ceramic tile is intended for use as a floor or wall covering when installed on a flat and stable surface. It is not suitable for use in a ventilated facade when the tile is installed at a distance from the wall.

Taking into account the trend of installing ventilated facades and the changed technical construction regulations of the Republic of Lithuania, UAB “Lemora” has certified a ventilated facade kit supplied to the market, which includes a stone mass tile. This certificate entered into force on 2022.05.04. Stone mass tiles are essentially improved ceramic tiles, which, due to special additives and an improved production process, are characterized by greater durability and are particularly suitable for outdoor conditions.

Patent LT 7001B, published on 2023.06.26, discloses a composite finishing tile, which includes a stone tile with a thickness of 10 mm and a steel sheet with a thickness of 0.5 mm glued with a polyurethane adhesive with a layer thickness of 0.14 mm. The production method includes preparing the surfaces of the stone tile and the stainless steel sheet for bonding, evenly distributing a 0.140 mm layer of wet polyurethane adhesive on the stone tile and bonding by pressing the steel sheet to the stone tile with the applied polyurethane adhesive. After bonding, the composite tile is stored for 24 hours until the polyurethane adhesive layer has completely hardened, which shrinks to 0.135 mm.

Composite finishing tile according to LT 7001B, when mounted on the ventilated facade of a building at a distance from the wall, withstands the Category I impact resistance and flammability tests required by the Technical Construction Regulation, when the minimum thickness of the stone mass tile is 10 mm. However, the thickness of the stone mass tile also determines the weight of the entire composite finishing tile. Further reduction of the thickness of the stone mass tile reduces the impact resistance of the finishing tile, since the 0.140 mm layer of wet polyurethane adhesive used to bond the stone mass tile and the stainless steel sheet shrinks to 0.135 mm after bonding, resulting in a heterogeneous layer of dry polyurethane adhesive.

The present invention aims to optimize the weight of a composite finishing tile without reducing its impact resistance and ensuring the required level of flammability class.

ESSENCE OF THE INVENTION

The attached definition of the invention determines the limits of legal protection granted by the patent. The composite finishing tile consists of a stone tile with a minimum thickness of 7 mm, a hybrid adhesive layer with an average thickness of 0.1 mm and an aluminum sheet with a thickness of 0.5 mm. The method of manufacturing the finishing tile includes preparing the surfaces of the stone tile and the aluminum sheet for bonding, covering the stone tile with a layer of hybrid adhesive in curved stripes (striped pattern) around the perimeter and in central parallel stripes and bonding the aluminum sheet to the stone tile by pressing it. After bonding, the finishing tile is left to harden until the adhesive layer is completely hardened, the minimum duration of which is 24 hours. at a temperature range of +5°C to +40°C.

The use of hybrid adhesives with a high shear strength of 28 kg/cm and the fact that the stone tiles are covered with a layer of hybrid adhesive in a band pattern around the perimeter and with central parallel stripes ensure a higher adhesion force between the aluminum plate and the stone tile surfaces after the hybrid adhesive layer has hardened. The higher adhesion force increases the impact resistance of the finishing tile and allows to reduce the thickness of the adhesive layer and, at the same time, the consequences of shrinkage of its layer thickness after hardening, which reduces the impact resistance of the finishing tile. The impact resistance of the tile is additionally increased by the impact-resistant aluminum sheet, the density of which is 2700 kg/m. The increase in the impact resistance of the finishing tile allows to reduce the minimum thickness of the stone tile from 10 mm to 7 mm and at the same time reduce the weight of the finishing tile itself. Its weight is additionally reduced by the fact that a lighter aluminum sheet is used instead of a stainless steel sheet.

The use of composite finishing tiles in the decoration of ventilated facades, when the tile is attached to the frame at a distance from the wall, complies with impact resistance category I and flammability class B-s1,d0.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. shows a fragment of a section of a composite finishing tile.

Fig. schematically shows an example of a ventilated facade construction with an external finishing layer - composite finishing tile.

DESCRIPTION OF THE IMPLEMENTATION EXAMPLE

As shown in Figure 1, the composite finishing tile 4 consists of the following layers:

- stoneware tile: Dry-pressed glazed (GL) ceramic tile, manufacturer STAR-GRES Sp. ZO.O, Poland, thickness: 7-10 mm, dimensions (mm): 300x600; 600x600 or 1200x600.

- hybrid adhesive layer: Hybrid adhesive Penosil SRONG FIF 706 manufacturer Wolf Group OU. Average thickness: ~0.1 mm, area weight: < 300 g/m2;; shear strength: 28 kg/cm; temperature resistance from -40 to +80 °C.

- aluminum sheet: Aluminum sheet (1050H24) ASSAN ALUMINYUM TESISLERI, Turkey, thickness: 0.5 mm, density: 2700 kg/m ³ , area weight: ~3.0 kg/m ² .

The ventilated facade structure (Fig. 2) includes the building wall 5, thermal insulation layers 6 and 7 and the composite finishing tile 4 fastening frame, which consists of a thermal insulation spacer 8 used under the bracket, an anchor 9 for fastening the bracket to the base, a rigid type supporting stainless steel bracket 10, stainless steel screws 11 for fastening the profile to the bracket, an L-shaped aluminum profile 12, a sliding type single stainless steel bracket 13 and a T-shaped aluminum profile 14.

Production method

The process of manufacturing a composite finishing tile includes cleaning the surfaces to be bonded of a stone mass tile 1 with a thickness of 7-10 mm and an aluminum sheet 2 with a thickness of 0.5 mm and a density of 2700 kg/m. The prepared stone mass surface is coated with an average 0.1 mm thick layer of hybrid adhesive 3 in curved stripes (striped pattern) around the perimeter and central parallel stripes. Hybrid adhesives with a shear strength of 28 kg/cm and temperature resistance from -40 to +80 °C are used for bonding. The aluminum sheet 2 is bonded by pressing it to the stone mass tile 1 coated with hybrid adhesive. After bonding the composite tile 4, it is left to harden for at least 24 hours until the adhesive layer 3 is completely hardened at an ambient temperature range of +5°C to +40°C.

The glued composite finishing tiles 4 are attached to the ventilated facade frame and to the building wall 5 (Figure 2).

Tests performed and results

First, 4 tests were performed on the composite finishing tile attached to the ventilated facade frame to determine the flammability class. The letters of the flammability class from A to F indicate the behavior of the material during a fire. The highest level of class A (subtypes A1 and A2) means that the material practically does not burn and does not stimulate the rapid spread of flame. The indices s1, s2, s3 indicated next to the letter indicate the amount of smoke released: the higher the number, the more smoke the material releases during a fire. Meanwhile, the indices d0, d1, d2 characterize the formation of burning particles: the lower the number, the fewer particles are released.

According to LST EN 13501-1:2019, the flammability class was determined - B-s1,d0, where: B is the flammability class, which indicates that the material does not support combustion to a significant extent; the index s1 indicates the minimum amount of smoke emitted; the index d0 indicates the minimum amount of burning particles.

This was followed by testing for weather resistance, which included heating-raining and freezing-thawing cycles.

According to EAD 040914-00-0404 D.1.3, 80 cycles were performed, including heating to 70°C, spraying with water and natural drying steps.

The purpose of the frost resistance test is to assess whether the composite finishing tile with an aluminum sheet withstands the requirement of 100 freezing cycles (freezing and thawing) set by LST EN 772-22:2019. After completing 100 freezing cycles, a visual inspection of the test surface of the sample was performed to identify damage. No damage to the tiles and no delamination of the aluminum sheet was detected.

The impact resistance of the facade cladding surface is ensured by the facade structure (stiffness of the frame components, distance between the fastening supports of the cladding elements) and the impact resistance of the composite ceramic tiles used. The impact resistance of the external surface of the facade cladding was determined and evaluated by performing an impact resistance test according to ISO 7892 under the following test conditions:

- performing a solid body impact test, subjecting the structure to an impact energy of 10 J;

- performing a soft body impact test, subjecting the structure to an impact energy of 400 J.

The results of the impact resistance tests were evaluated according to STR 2.04.01:2018. During the tests, impact resistance category I according to STR 2.04.01:2018 was confirmed.

Conclusion: The composite finishing tile according to this invention, when used in the decoration of ventilated facades and attached to the frame at a distance from the wall, complies with the I impact resistance category and the B-s1, dO flammability class.

Claims (5)

1. A composite finishing tile consisting of a stone tile, an adhesive layer and a glued 0.5 mm thick metal sheet, characterized in that the minimum thickness of the stone tile (1) is 7 mm, the adhesive layer consists of a high shear resistance hybrid adhesive layer (3), the average thickness of which is 0.1 mm, and the metal sheet is an impact-resistant aluminum sheet (2). 2. Composite finishing tile according to claim 1, characterized in that the minimum shear strength of the hybrid adhesive is 28 kg/cm and the density of the aluminum sheet (2) is 2700 kg/m ³ . 3. A method of manufacturing a composite finishing tile according to claim 1 and 2, according to which the surface of the stone mass tile (1) and the aluminum sheet (2) is prepared for bonding, the stone mass tile (1) is coated with a layer of hybrid adhesive (3) in curved stripes (striped pattern) around the perimeter and in central parallel stripes, the aluminum sheet (2) is glued to the stone mass tile (1) by pressing it and after bonding it is left to harden until the hybrid adhesive layer (3) is completely hardened. 4. A method for producing a composite finishing tile according to claim 3, characterized in that the minimum curing time of the glued finishing tile (4) is 24 hours at an ambient temperature range from +5°C to +40°C. 5. The use of a composite finishing tile according to claim 1 and 2 in the decoration of ventilated facades, when the tile is attached to the frame at a distance from the wall (5), corresponds to the I impact resistance category and the B-s1,d0 flammability class. where B indicates that the flammability corresponds to class B, s1 indicates the amount of smoke released, d0 - the formation of burning particles.