PL389257A1 - Heat weldable roofing membrane - Google Patents

Description

1

Heat-sealable felt

The subject of the invention is heat-sealable roofing felt intended for making waterproofing coatings in construction.

One of the most numerous groups of roofing materials whose main task is to protect buildings against the effects of water are asphalt-based materials. This group includes in particular roofing felt. These materials not only due to their traditional and long-term use, proven very good parameters and functional properties, but also due to the availability of raw materials for their production, cannot be replaced in many construction solutions.

Known methods of obtaining roofing paper mainly consist in covering the supporting insert with unmodified asphalts on both sides, applying the bottom layer in the form of a foil and using the top layer in the form of basalt shale. An example of such a method of producing roofing felt is the description of the invention 2, number P - 335145. Another known method of producing roofing felt consists in covering the supporting insert with modified asphalt on both sides, applying the bottom layer in the form of a foil and using the top layer in the form of mineral sprinkles. An example of such a method of obtaining a bituminous mixture is the description of the invention number P - 335003.

The membranes obtained in this way are not sufficiently resistant to temperature, they are characterized by high flow properties at elevated temperatures and do not have favorable low-temperature parameters, allowing for sufficient flexibility at low temperatures. They also have a significant disadvantage related to the limited resistance to fire, which in many cases limits the possibility of their use in construction. This disadvantage is usually eliminated by introducing inorganic fillers, such as mineral aggregates, into the asphalt roofing mass. In addition, the roofing felt coatings on the roofs of buildings are additionally protected with mineral sprinkles. However, all the measures known so far to increase the product's resistance to fire are of limited importance. Other methods of introducing flame retardants into asphalt masses are usually technologically complicated, expensive to apply, and due to the mediocre effects obtained, they are practically not used.

The proposed solution according to the invention allows to improve these parameters, while optimizing the production costs of the product. 3

The essence of the heat-sealable roofing felt according to the invention consists in introducing fly ash into the bituminous coating mass of the felt, which is an energetic waste resulting from the combustion of coal and coke. The combination of the bituminous coating mass with fly ash results in a structurally homogeneous bituminous mixture characterized by optimal physical and chemical properties for the production of roofing felt, such as increased resistance to high temperature, favorable low-temperature parameters ensuring the flexibility of the mixture at low temperatures and preventing its brittleness and tearing at low temperatures. temperatures and increased ignition temperature of the mixture.

The essence of the type of heat-weldable roofing felt according to the invention consists in introducing fly ash into the bituminous coating mass of the roofing felt together with expanding graphite, which in the course of fire on the coating obtained from the combination of both components causes the coating to swell, creating a porous crust that prevents ignition of the covering material. Moreover, the combination of bituminous coating mass with fly ash and expanding graphite results in obtaining a product characterized by increased resistance to fire and thus reduced flammability of the product.

Heat-sealable felt has an insert made of glass veil or glass fabric or polyester non-woven fabric covered on both sides with a bituminous coating mass consisting of industrial asphalt or a mixture of industrial asphalt, road asphalt and thermoplastic elastomer styrene - butadiene - styrene, on which a mineral sprinkle is applied from above, and a polyethylene foil 4 is applied from the bottom. To the bituminous coating mass heated to the temperature of 170 ° C - 210 ° C, fly ash in the amount of 5% to 50% by weight of the entire mixture is added within 20 minutes to 50 minutes and the entire mass is homogenized for 20 - 60 minutes at a temperature from 170 ° C to 210 ° C. In a variant of the heat-sealable roofing felt according to the invention, expanding graphite in an amount of 2% to 30% by weight of the total mass with fly ash in the amount of 5% is added to the coating mass heated to a temperature not exceeding 195 ° C within 20 minutes to 50 minutes. up to 50% by weight of the total mass and the whole mass is homogenized for 20 - 60 minutes at a temperature not exceeding 195 ° C.

Heat-weldable roofing felt with an insert made of glass veil or made of glass fabric or polyester non-woven fabric covered on both sides with a bituminous coating mass consisting of industrial asphalt or a mixture of industrial asphalt, road asphalt and styrene-butadiene-styrene thermoplastic elastomer, on which mineral sprinkle is applied from above, and a polyethylene film is applied from the bottom consists in the fact that the bituminous coating mass heated to the temperature of 170 ° C - 210 ° C is added within 20 minutes to 50 minutes in the amount of 5% to 50% by weight of the entire mixture, and the whole the mass is homogenized for 20 - 60 minutes at a temperature of 170 ° C to 210 ° C.

Heat-weldable roofing felt with an insert of glass veil or glass fabric or polyester non-woven fabric covered on both sides with a bituminous coating mass consisting of industrial asphalt or a mixture of industrial asphalt, road asphalt and thermoplastic elastomer styrene - 5 butadiene - styrene, on which mineral sprinkle is applied from above, and from the bottom, a polyethylene film is applied, which consists in the fact that the bituminous coating mass heated to a temperature not exceeding 195 ° C is added within 20 minutes to 50 minutes of expanding graphite in the amount of 2% to 30% by weight of the total mass along with fly ash in an amount of 5% to 50% by weight of the total mass and the entire mass is homogenized for 20 - 60 minutes at a temperature not exceeding 195 ° C.

Papers with the addition of fly ash, which is energy waste generated in the process of burning coal and coke, are characterized by: - a high degree of compactness - the material has no cavities and bubbles, a high degree of structural homogeneity. increased resistance to high temperature, - increased resistance to low temperature, resistance to aging, long-term lack of changes in the properties of the mixture under the influence of weather conditions, optimal hardness, reduction of production costs, low hygroscopicity.

are an example of taking ecological actions consisting in the management of energy waste.

Claims (2)

1 Claims 1. Heat-weldable roofing felt with an insert of glass veil or glass fabric or polyester non-woven fabric covered on both sides with a bituminous coating mass consisting of industrial asphalt or a mixture of industrial asphalt, road asphalt and thermoplastic elastomer styrene-butadiene-styrene, on which is applied mineral sprinkle on top, and a polyethylene film is applied on the bottom, characterized in that the bituminous coating mass, heated to 170 ° C -210 ° C, is added within 20 minutes to 50 minutes in the amount of 5% to 50% by weight of fly ash of the whole mixture and the whole mass is homogenized for 20 - 60 minutes at a temperature of 170 ° C to 210 ° C. 2. Heat-sealable membrane according to claim 2. The method of claim 1, characterized in that the expanding graphite in an amount of 2 from 2% to 30% by weight of the total mass, together with fly ash in an amount of 5, is added to the bituminous coating mass heated to a temperature not exceeding 195 ° C within 20 minutes to 50 minutes. % to 50% by weight of the total weight and the total weight is homogenized for 20 - 60 minutes at a temperature not exceeding 195 ° C.