DE10331056B4 - asphalt building materials - Google Patents

Abstract

Asphalt building materials, containing changeable Volume fractions of bitumen and / or bituminous binders based on mineral oil as well as further, also ceramic additives, characterized that the volume fraction of the aggregates by a share of a lightening ceramic recycling aggregate is replaced, wherein the aggregate of broken sanitary ware and / or chemical-technical Hard ceramic and / or high-voltage ceramics and / or such a production break consists as well as still a part of the bitumen or bitumen-containing Binder is replaced by a colorless binder.

Description

The The invention relates to a cold workable asphalt building material according to the preamble of claim 1.

asphalt consists of the prior art from a predominantly technical prepared mixture of bitumen, bituminous binders and Rocks or minerals. The mixture can be further as needed Supplements or additives enclosed be. When mixing granular minerals with bitumen, based on the wetting of the mineral particles with the initially liquid bitumen, both substances a surface-active Connection, wherein the bitumen at the rock surfaces then permanently is bound. Depending on the selection and proportion of added components can Asphalts are produced with different properties. The achieved properties are mostly due to the used Minerals determines about 85% of the volume of the asphalt turn off.

When Minerals are natural minerals according to the state of the art in the form of broken rock such as gravel, grit, Crushed sand, chippings, crushed quartz, fillers in the form of rock flour or other fine grained Minerals class 0 / 0.09mm without oversize or gravel and sand used. Furthermore, the addition of artificial minerals, e.g. Blast furnace slag or incinerator ash known and usual.

The Requirements for minerals result from the different Stresses caused by these substances during manufacture, installation and under the influence of Weather and traffic are exposed. Basically, the minerals used must be weather and frost resistant, Impact resistant, pressure resistant and heat resistant in a hot installation. The surface the wear layer, in general a road surface, must continue sufficient resistance to polishing and abrasion exhibit. Also has to be between rocks and bitumen ensures lasting, good adhesion be.

to increase Traffic safety in the dark, wet or poor visibility in many cases one possible bright surface the roadway for an improved contrast vision desired. Furthermore, by a whitening of the surface a reduced absorption of incident solar radiation and in conjunction with this an improved stability during the warm season reached. Finally, one reaches through one brightened road surface an energy saving, because through the bright road surface the intensity of the street lighting can be reduced.

For a lightening Effect is either brightening on the state of the art Rocks natural or artificial Origin or on special binders in conjunction with dyes resorted. The use of lightening rocks influences the process of asphalt preparation, especially preparation, asphalt mixing and post-processing generally little and thus presently preferred. However, on comparatively costly or production-intensive precious chips, such as labradorite, Luxovit, sintered flint stone or synthetic brightening stones like Synopal used become, whereby lightened asphalts and road surfaces comparatively are expensive.

at The realization of construction projects has become increasingly ecological in recent years Aspects at the center of social and political Interest. When selecting a building material and construction method are thus basically the resulting environmental pollution or the achieved ecological Values, such as that resulting directly above the asphalt surface Microclimate, to be considered and adverse influences, such as considerable warming of city air during the hot ones Season possible to avoid.

It Thus, the object of the invention, a lightening asphalt construction material indicate a significant cost reduction at a consistent cost simple manufacturing and installation process of asphalt or road surface across from the described prior art can be made possible, wherein a across from known asphalts significantly improved lightening to achieve is that can be installed with a minimum of environmental impact, the resulting road surface to advantageous ecological Values and performance characteristics.

The Task is with an asphalt construction material with the features of the claim 1 and with a use according to claim 7 solved, the dependent claims appropriate elaborate Features of the main claim included.

at the asphalt building material according to the invention contains the volume fraction of minerals and / or other additives at least partially a portion of, optionally with a colorless Binder bound lightening ceramic additive.

Instead of the costly Edelsplitts or for the purpose of brightening specially prepared whitening rock is thus on kerami recycled materials, which are produced annually in considerable quantities as waste in building tears, repairs and the like processes and thus are considerably cheaper than the above-mentioned mineral constituents. Such ceramics have from the outset a white, at least light color and are easy to prepare in any grain size.

Farther is at least one according to the invention Part of the bitumen or bitumen-containing binder by a colorless binder replaced, so that the known dark to black bitumen is partially displaced by the colorless binder and the surface reflection properties of light ceramic ingredients.

in the individual, the ceramic additive consists of a densely sintered aluminosilicate material with an optionally vitreous shards in different grain sizes. such Aluminosilicates are standard as used ceramic materials, have a high degree of whiteness and are extremely corrosion resistant. The glazing, which is common in the field of sanitary ware, for example, elevated the reflectivity of the ceramic material and thus of the asphalt building material.

Of the ceramic aggregate consists of variable proportions of silicon oxides, Aluminum oxides and potassium oxides and has a standard whiteness of more than 50%. Conveniently, he gets out of the rubbish broken sanitary ware and / or chemical-technical hard ceramics and / or high-voltage ceramics won.

Preferably The asphalt building material is used as a highly reflective asphalt Cold installation of a highly reflective road surface used. In an advantageous manner Way it is in the form of thin films in the construction of new road surfaces, for the renovation of ceiling damage and / or applied to the color design of road areas and rolled up.

Of the Asphalt construction material according to the invention will be described in more detail below with reference to an embodiment become. Here is an example of a ceramic material which is known as "Vitreous China" Use of any other comparable ceramics is in the frame expert Acting obvious and also possible.

"Vitreous China" is an annual considerable amount of recycled raw material that is a densely fired ceramic with a very low iron oxide content, very high whiteness and low porosity The structure is formed by a defined sintering process at firing temperatures between 1380 to 1470 ° C. This ceramic material is used, for example, for the production of sanitary porcelain, hotel porcelain, hard-paste ceramic and high-stress porcelain This material is of high quality and has a Whiteness of more than 65% to more than 70% This property is associated with high strength, low water absorption, high corrosion resistance and frost resistance of the material Material about 70% silica SiO ₂ , 25% aluminum (III) oxide Al ₂ O ₃ and 4% potassium (I) oxide K ₂ O.

in the Framework of building renovations, when demolishing buildings, Modernizations of bathrooms and comparable processes becomes used sanitary porcelain, e.g. Washbasins, toilet bowls, urinals, bidets sorted out and stored in landfills. Hotel porcelain, chemical-technical hard porcelains and high voltage porcelains are currently experiencing the end of their useful life no use and also landfill. Currently exists according to the known state of the art no substituting application for this high quality material.

Above called recycled material can be in prepare different grain fractions, with the corresponding Grain sizes and Grading lines according to ZTV Asphalt - StB 94 can be realized.

When Binder becomes a colorless binder with bitumen-like Properties used, giving a very bright highly reflective road surface arises. The asphalt material according to this embodiment is e.g. as a thin one Layer in the order of magnitude used by about 5mm layer thickness cold insertion. In such a Application is the grain size of the ceramic Surcharge on a maximum limit limited by 3mm.

Of the Cold incorporation of thin films is extremely economical and is particularly suitable for large-scale layers in new buildings and in the renovation of ceiling damage and for subsequent color Design of lane boundaries. Here, the useful life of the asphalt substantially extended become.

The use of the recycled material Vitreous China allows, in comparison to the currently used methods of whitening, in particular a use of noble reams of Labradorite or Luxovit, sintered flint stone or Synopal, egg The higher whiteness of the asphalt produced, and thus more fully supports the benefits of brightening the pavement. The ceramic additive basically has a defined material composition. Accordingly, material fluctuations, such as those occurring in natural minerals, do not occur. The ceramic material fulfills all fundamental material and technical requirements as asphalt aggregate. Furthermore, the use of recycled porcelain provides economic benefits and contributes to the conservation of natural and non-renewable resources. Another advantage is the self-adjusting drainage with optimum moisture removal as well as the resulting sound absorption capacity.

The achieved lightening of the road surface increases the stability of the covering considerably. By the reinforced one Reflection in sunlight is when using the Asphaltbaustoffes invention a reduction of the surface temperature up to 5 to 10 ° C to record. Accordingly, the resistance increases Ridge and washboard formation in intersections of roads in high Dimensions. By lowering the ceiling surface temperature, the composite can be obtained between the top and tie layer, since at lower Asphalt temperatures are higher Shear stress receptivity given is. Another advantageous aspect of the temperature reduction in long-term sunlight is the improvement of the urban climate through reduced emissions of heat radiation from the road surface.

Of the higher whiteness of the ceramic material used leads, as stated, to a increased Reflection of the light on the road surface, leaving dark obstacles can be seen better on the road, especially at night. This will be Increased traffic safety through improved reflection and prevented accidents. With the help of bright coatings can Continue optimal traffic guidance for special and turn lanes allows become. Junction areas, bike paths, special danger spots and like that be highlighted by the bright coloring. For the driver thus creates a signal effect and his attention is activated.

Claims (3)

Asphaltbaustoff containing variable volume fractions of bitumen and / or bituminous binders based on mineral oil and other, including ceramic aggregates, characterized in that the volume fraction of the aggregates is replaced by a share of a lightening ceramic recycling aggregate, wherein the aggregate of broken sanitary ware and / or chemical-technical hard ceramics and / or high-voltage ceramics and / or such production break exists and further a part of the bitumen or the bitumen-containing binder is replaced by a colorless binder. Asphalt construction material according to claim 1, characterized that the ceramic recycling aggregate has a whiteness of at least 50%. Use of an asphalt building material according to one of previous claims as an asphalt for thin-film cold installation a highly reflective, surface temperature reducing road surface.