EP1357227A1 - Method of constructing a fuel resistant road surface - Google Patents

Abstract

A process for preparation of a fuel- and/or chemical resistant carriageway surface based on polymer coating of an existing surface, especially an existing carriageway in a gas station area, by cleaning the existing surface, application of a primer, spreading of a fiber layer on the primed surface, impregnation this with not less than 1.0 kg/m2 of a first and then with a second curable plastic composition, and optionally application of a wear or top layer is new. Independent claims are included for: (1) a fuel and/or chemical resistant carriageway coating, especially in a gas station area, by application of a multi-layer coating system to the existing carriageway, as described above; (2) a wear layer consisting of silicon carbide; (3) a hollow space lining with a sensor system for determination of porosity points.

Description

The invention relates to a method for creating a fuel and / or chemical-resistant traffic area based on a polymer coating, on an existing carriageway, especially in the refueling and Filling area of petrol stations, is applied, and their use.

Changes in the legal provisions make one fuel resistant sealing of road surfaces in the area of Refueling and filling systems necessary. Especially with older ones Petrol stations do not meet the existing pavement ceilings with the new ones Conditions. Accordingly, they are extensive Sealing measures are required, which often amount to the fact that the existing road surface removed and a new road built must become. It has proven to be extremely difficult to find existing ones Road surfaces that no longer meet the legal requirements to be provided with another fuel-resistant top layer, which covers both the corresponds to new regulations and at the same time suffices and is fuel-resistant.

In addition, the complete replacement of an existing road surface and the new construction with frost protection, base course and covering is extraordinary costly and given the fact that a fuel-resistant new one The road surface basically has the same layered structure has, actually unnecessary. It would therefore make sense for a new one fuel-resistant road surface the existing road surface to use.

In accordance with the statutory provisions, it is also necessary that existing roadway ceilings not only in the petrol station area fuel-resistant, but are also designed to be conductive. This means in general that a reduction in the bleed resistance to a maximum of 108 ohms is considered to be technically sufficient. The legal one The road surface must therefore meet the requirements in addition to fuel resistant training, surcharges included that reduce the Allow leakage resistance.

The same applies to pavements and surface coatings in Areas where chemicals and solvents are handled so-called LAU and HBV systems. From DE 199 57 657 known fuel-resistant pavements that have multiple layers existing ceilings are built up and from a separating layer on fiber basis and a mastic asphalt layer with a thickness of at least 2 cm. Although these blankets have proven themselves, it is disadvantageous that the Thickness of the structure, the entire height level z. B from a petrol pump to Floor cover is changed. To compensate, these areas must also be raised, which creates additional costs. Is problematic in particular the adjustment of drains and shafts as well as thresholds and transitions.

The aim of the invention is therefore to provide a roadway coating, which is fuel-resistant and preferably an aggregate contains the leakage resistance according to the legal regulations sufficiently reduced. The road surface must also meet the requirements to meet the crack resistance so that it prevents fuel from entering prevents the subsurface in the long term and is sufficiently resistant to the daily wear and tear of motor vehicles over one to be able to withstand a longer period of time. Another aspect of the present Registration is as inexpensive as possible and in the shortest possible time to provide coatable road coating that is only a small thickness and therefore adaptation measures to existing structures relieved or even superfluous.

This goal is achieved with a method of the type mentioned at the outset, in which to create a fuel and / or chemical-resistant traffic area based on a polymer coating of an existing surface, in particular an existing carriageway in the petrol station area, by cleaning the existing surface, applying a primer to the surface cleaned surface, placing a fiber layer on the primed surface, impregnating the fiber layer with a first hardenable plastic mass, coating the impregnated fiber layer with a second hardenable plastic mass in an amount of at least 1.0 kg / m ² , and optionally forming a wear layer or top layer.

The method according to the invention allows an existing Road surface defined a fuel-resistant and dissipative layer Apply composition that fully meets the legal requirements enough. The resistance and especially the crack resistance is thereby achieved that the applied polymer coating with a thickness of 1 to 9 mm contains a fiber reinforcement. In addition, a surcharge in the form from Z. B coke powder or graphite to the polymer layer or the additional applied wear layer sufficient electrical conductivity guarantee.

According to the invention, a plastic-based primer is first applied to the previously thoroughly cleaned underground of the pavement. Polyepoxides, polysulfides, polyesters, polyurethanes or the like can be used as primers. Self-crosslinking (moisture-curing) polyurethanes are particularly preferred. Acceptable amounts are in the range from 50 to 500 g / m ² , in particular 100 to 250 g / m ² .

A second layer is applied to the dried and hardened primer Fiber layer applied. Nonwovens are made in particular for the fiber layer Plastic or glass materials used.

According to the invention, the fiber layer is impregnated with a hardenable plastic mass, for example in an amount of at least 0.5 kg / m ² . Self-crosslinking polyurethane or peroxide-curing polyester are particularly suitable as the plastic mass.

A layer of a curable polymer is applied to the fiber layer in an amount of at least 1 kg / m ² , the total layer thickness being 1 to 3 mm. In a further embodiment, a nonwoven fabric can be embedded directly in a first layer of a curable polymer, after which the complete polymer coating is applied. Such a first polymer layer is expediently present in an amount of at least 500 g / m ² .

Crosslinkable polyesters, polyurethanes, Polyolefins (HDPE) or polysulfides can be used. Are preferred Polyester resins, which are mixed with a peroxide crosslinker, e.g. B MEK peroxide, hardened and through this crosslinker to the primer layer and optionally additional layers can be connected.

The use of polyolefins such. B of polyethylene (HDPE) can be in particularly problematic areas as an alternative or in addition to Application come. In one embodiment of the method Polyethylene (HDPE) either as an additional coating on top of one already existing polymer coating applied or instead of the original used to process polymer. HDPE is particularly against Bio-Diesel (rapeseed oil methyl ester) resistant.

To improve the wear properties of the fiber reinforced Polymer material is optionally a wear layer on the Polymer layer applied, for example by the fact that wear-resistant Substances as particles on the not yet hardened fiber-reinforced Polymer layer can be sprinkled on. Can be used as wear protection material Quartz, stone split or silicon carbide can be used. When ordering A separate wear protection layer can, for example, be a cross-linkable one Polyester or moisture-curing polyurethane are used as binders which the wear-resistant substances are present. To be able to discharge metal is additionally guaranteed in the wear layer and / or carbon in an amount of up to 20 wt .-% introduced. Silicon carbide or iron oxides as wear-reducing materials the advantage that they improve the discharge capacity at the same time.

Coke or graphite can be used as carbon.

Above all, copper and aluminum come as metals, in particular in the form of Networks, in question.

It may be expedient to provide the wear layer, ie the layer containing the wear material, with a cover layer as a seal, for example a layer of a self-curing polyurethane in an amount of 100 to 300 g / m ² . This layer can then also ensure the conductivity by adding carbon.

As already stated, the fiber material is preferably in the form of a nonwoven, with a basis weight of 100 to 500 g / m ² . Polyester and glass fiber fleeces are preferred; other materials can also be used.

To improve the transitions, adhesion or elastic properties intermediate layers may be appropriate. In particular, it is advisable to apply the individual layers on top of each other so that the lower one is not yet fully cured. This way, at time coordinated order the upper layer still reactive to the lower one tie.

In a further step, existing joints with a fuel-resistant sealing compound to be sealed. It can be both around a parting line, as well as around Joints to adjacent road surfaces and to joints to built-in parts act. The sealing compound is expediently a two-component reactive curing sealant, especially based on polysulfide or polyurethane.

Such sealants, which are highly due to their internal networking Chanefall GmbH, for example, are fuel-resistant or Denso GmbH under the names Geoseal® or Densolastik® for Seals sold.

On the other hand, the method according to the invention is suitable for existing ones Build over joints without causing leaks. The elasticity of the Plastic masses and the fiber material are sufficient (tension) tensions catch.

The method according to the invention for creating a fuel-resistant The road surface on an existing roadway has the advantage that Lifting and adjusting built-in parts by applying a further ceiling no longer have the necessary protection height, if necessary, milling an existing road surface by a maximum the thickness of the new layer to be applied is eliminated. The total layer thickness are generally 2 to 9 mm, in particular 3 to 5 mm.

As far as the thickness of the coating is not important or a stronger one Covering layer can be accepted, it is easily possible to get one Provide cover layer from an alternative cover material. As alternative Materials are conventional building materials, such as bitumen, Asphalt, sand, gravel, cladding, concrete and the like. In this case it is sealing level not visible.

The method according to the invention can be applied to existing road surfaces various designs can be used, provided they are pre-cleaned Show underground. These include, for example, paving slabs, bituminous ceilings and especially concrete ceilings. For concrete blocks and -covering is recommended to use a polyurethane primer if for the central plastic layer a polyester is used.

The optimal installation thickness of the multi-layer system is around 3 to 6 mm. To generate a uniform road surface, local lower or larger layer thicknesses are readily accepted become.

The method according to the invention primarily serves to seal existing non-liquid-tight concrete, paving or pavements Rolled asphalt. However, it can also be used to renovate existing ones liquid-tight road surfaces that have become in need of repair, be used. It should be noted that the invention Procedures can also be used in new buildings, e.g. B at Tub construction of petrol stations, the current method for the construction of Gas stations, or as a cavity coating, for example at Manhole covers and in tank construction. The cavity coating can Wear layer naturally eliminated. In particular, this is the invention Process also for fuel-tight and chemical-resistant coatings of surfaces in driving and storage areas, such as in LAU and HBV systems.

In the area of petrol pumps and where the road surface with larger ones Surfaces of lubricants and fuels can come into contact preferably an additional sealing of the covering surfaces with conventional ones Sealing materials made.

The invention further relates to a fuel-resistant (mainly from Polymer existing) road surface, which according to the above described method is available. It is located on a existing road surface a multi-layer system consisting of one Primer on which one is soaked and covered with a cross-linked polymer Fiber layer is present, on which interspersed wearable particles or a final additional cover and / or wear layer is applied, the is dissipative and contains wear-resistant materials.

In a preferred embodiment of the present invention on the primer a first 1 to 4 mm thick polymer layer, in which the position of the Nonwoven is embedded. There is another polymer layer on top with a thickness of 1 to 3 mm with wear-reducing particles. In case of a Sealing layer contains this carbon to make the Conductivity.

The carbon content is preferably more than 10 to 25% by weight and consists of coke powder or graphite.

As mentioned above, the fiber layer can be mineral or organic materials consist, for example, of glass fiber fleeces, Polyester or polyolefin fleece.

The pavement according to the invention can be conventional joints and Have edge joints with a fuel-resistant sealant, such as described above are filled. But it can also create existing joints bridged.

The invention additionally relates to the use of those described above Multi-layer system consisting of a fiber-reinforced primer Polymer layer and a wear layer to create fuel-resistant and diverting road surfaces in the petrol station area.

The multi-layer system is also used in the tub construction from Petrol stations, the current common procedure for the execution of Gas stations, or in the field of manhole covers and in tank construction.

The road surfaces according to the invention can be a sensor system for Show leakages. For example, the fleece layer can be used for this purpose be electrically conductive and have an electrical potential be provided. In the event of leaks, changes in the potential of the fleece to the surface potential registered by sensors and located. Such a system is developed by Progeo Monitoring GmbH under the Designation Smartex® distributed.

The invention is described in more detail by the following example.

Example:

A road surface according to the invention is placed on a concrete surface in the area applied to a gas station as follows:

First, the pavement to be sealed is cleaned and a polyurethane-based primer e.g. B Bipurcoat 5BAX applied with a roll in an amount of 200 g / m ² . A polyester fleece of 160 g / m ^{2 is} spread on the dried primer. The polyester fleece is impregnated with 500 g / m ² polyester with 2% hardener. In addition, 2000 g / m ² polyester and 2% hardener (Flexbinard® from Fabripol) are applied. Before the polyester layer cures, SiC is sprinkled in in an amount of 1000 g / m ² .

After the wear layer has been applied, there are still remaining Cut construction joints and these like the joints to the installation parts with the Pour joint sealant Geosal® (2K polysulfide compound). The joints are finally filled under the road surface.

Claims (23)

Process for creating a fuel and / or chemical resistant traffic area based on a polymer coating of an existing surface, in particular an existing carriageway in the petrol station area, by cleaning the existing surface, applying a primer to the cleaned surface, placing a fiber layer on the primed surface, soaking the Fiber layer with a first curable plastic mass, coating the impregnated fiber layer with a second curable plastic mass in an amount of at least 1.0 kg / m ² , and optionally forming a wear layer or top layer. A method according to claim 1, characterized in that joints to built-in parts are sealed with fuel and / or chemical resistant sealing compounds. A method according to claim 1 or 2, characterized in that the fiber layer is impregnated with the first hardening plastic mass in an amount of at least 0.5 kg / m ² before coating with the second plastic mass. Method according to one of the preceding claims, characterized in that a self-crosslinking polyurethane or a peroxide-curing polyester is used as the curable plastic composition. Method according to one of the preceding claims, characterized in that a self-crosslinking polyurethane is used as a primer. Method according to one of the preceding claims, characterized in that quartz sand, stone split or SiC split is introduced as a wear layer in the second hardenable plastic compound. A method according to claim 6, characterized in that the wear layer is head sealed with a hardenable plastic resin. A method according to claim 7, characterized in that a polyurethane resin is used as the head seal. Method according to one of claims 1 to 5, characterized in that the traffic area receives a cover layer made of a conventional building material. A method according to claim 9, characterized in that a concrete or bitumen layer is used as the top layer. Method according to one of the preceding claims, characterized in that at least one layer of the fuel-resistant surface is designed to be electrically conductive. A method according to claim 11, characterized in that the electrically conductive layer contains metal, carbon or silicon carbide. A method according to claim 2, characterized in that the fuel-resistant sealing compound is a polyurethane sealing compound. Method according to one of the preceding claims, characterized in that a glass fiber, polyester or polyolefin fleece is used as the fiber layer. Fuel and / or chemical resistant road surface, especially for the petrol station area where an existing The road surface is covered by a multi-layer system, available after Method of one of claims 1 to 14. Road surface according to claim 15, characterized in that it has a wear layer made of silicon carbide. Road surface according to claim 15 or 16, characterized in that it has one of the primer layer made of a polyurethane resin. Road surface according to one of claims 15 to 17, characterized in that it has a fiber layer made of a glass fiber fleece. Road surface according to one of claims 15 to 18, characterized in that separating and edge joints contained therein are filled with a fuel and / or chemical resistant sealing compound. Road surface according to claim 19, characterized in that the sealing compound is a polysulfide or polyurethane sealing compound. Road surface according to one of claims 15 to 20, characterized in that it has an integrated sensor system for detecting leaks. Fuel and / or chemical resistant cavity lining, obtainable by the process of one of claims 1 to 5. Cavity lining according to claim 22 with an integrated Sensor system for detecting leaks.