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    • 专利摘要:
    Draining macro-agglomerate with bearing capacity, its use for paving and manufacture of rolling layers. The present invention relates to a bituminous drainage mixture for paving, with bearing capacity, which is a macroaglomerate characterized in that it comprises a mineral skeleton of aggregates with a discontinuous granulometry of a maximum size of 45 mm where between 62% and 100% of the total aggregate is less than 32 mm in size, and its smallest fraction is a stabilization filler that represents between 2% and 7% of the total weight of aggregates; and an asphaltic bitumen which is a bitumen of high modulus 15/25 doubly modified with: rubber powder of tires out of use, in a percentage comprised between 10% and 22% in weight of the total weight of the bitumen, and with a polymer, which is styrene-butadiene-styrene or amorphous polypropylene, in a percentage comprised between 4% and 8% by weight of the total weight of the bitumen. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2556267A1
    申请号:ES201431061
    申请日:2014-07-14
    公开日:2016-01-14
    发明作者:Manuel Víctor BORREGO ESCUDERO
    申请人:Obrascon Huarte Lain SA;
    IPC主号:
    专利说明:

    DESCRIPTION
    DRAINED MACROAGLOMERATE WITH SUPPORTING CAPACITY, ITS USE FOR PAVING AND MANUFACTURE OF BEARING LAYERS

    SECTOR OF THE INVENTION 5
    The present invention is included in the construction and civil works sector, specifically in the area of paving and construction of road surfaces.

    STATE OF THE TECHNIQUE
    The draining mixtures are bituminous concretes that are dosed with the main objective 10 of achieving a large number of interconnected holes that allow the percolation of rainwater. They originated in the United Kingdom for the construction of runways at airports, and were subsequently extended in the U.S. as a 2 cm thick surface treatment layer to increase the slip resistance of the surface of the firm. In Spain its use became widespread in the mid-80s. 15

    This solid skeleton of the granular type mixtures and materials used for pavements, structure layers, rolling layers and firm as are the road surfaces, is usually constituted by aggregates, which provide resistance when applied, and is combined with binders. of a variable nature that ensure the cohesion of the skeleton in the applied layer. The choice of these two components determines the characteristics of the material and consequently of the layer formed from it; Thus, draining mixtures are known that are small in size of aggregate and have a low bearing capacity, and thick, semi-dense and dense mixtures that do not have a draining capacity but a bearing capacity. 25

    Initially the draining mixtures were designed with percentages of gaps between 15% and 18%, but it was found that they filled very quickly. For this reason, a minimum void content of 20% is currently required, being frequent to use mixtures with 22% of voids over the total mix. 30

    In order to achieve these high void contents, the mortar content of the mixture has been drastically reduced, using between 10% and 15% of aggregates smaller than 2 mm in size. This causes the disintegration of the aggregate to be greater, causing the durability of the pavement to be adversely affected, decreasing 35
    Its life cycle. For these reasons, draining asphalt concretes are currently designed for layers of small thickness, ranging from 8 mm to 16 mm, their maximum aggregate size, both in Europe and in the U.S.

    In Spain, the only draining mixtures that exist are those described in Order 5 Circular 24/2008 on the General Technical Specifications for road and bridge works (PG-3). Article: 543-Bituminous mixtures for rolling layers. Draining and batch mixtures. The maximum aggregate size set is 16 mm.

    The firm or rolling layers manufactured from draining mixtures known up to 10 now have a number of limitations or disadvantages:
    - Low durability. Lower than dense and semi-dense mixtures (carriers).
    - Fast clogging. Saturation of the gaps due to accumulation of dust and impurities.
    - Low bearing capacity. fifteen
    - Loss of draining efficiency in areas of low longitudinal slope and change of cant, which allows the appearance of dangerous puddles on the road when locally heavy rains occur.

    Basically, the technical problem that arises in the field of paving is the ease with which conventional draining mixtures are filled, which barely have bearing capacity and that do not work in areas of low longitudinal slope and cant changes, increasing the driving danger.

    In view of the problems detected, the present invention, which is a macro agglomerate with the specifications described below, is shown as an advantageous alternative because of its high bearing capacity compared to known draining mixtures and effective even for areas of change of cant and little longitudinal slope, also presenting greater durability and lower maintenance cost due to its slow clogging and easy cleaning. 30

    GENERAL DESCRIPTION OF THE INVENTION
    The first object of the present invention is a mixture called bituminous draining macro agglomerate for paving, which also has bearing capacity and which comprises a mineral aggregate skeleton and an asphaltic bitumen, 35
    characterized in that:
    - the aggregate mineral skeleton is contained in a percentage comprised between 94% and 96% of the total weight of the agglomerate, has a discontinuous particle size of a maximum size of 45 mm and between 62% and 100% of the total aggregates has a size less than 32 mm, between 2% and 7% of the total weight of the aggregate mineral skeleton being a granulometry stabilizing filler less than 0.063 mm, which is calcium hydroxide or calcium carbonate; Y
    - asphaltic bitumen is contained in a percentage between 4% and 6% of the total weight of the chipboard, and is a double modulated bitumen 15/25 double modified with: 10
    · Rubber dust from out-of-use tires (NFU), in a percentage between 10% and 22% by weight of the total weight of the bitumen, and with
    · A polymer, of the elastomer type which is SBS (styrene-butadiene-styrene) or amorphous polypropylene, in a percentage between 4% and 8% by weight of the total weight of the bitumen. fifteen

    The mineral skeleton of the draining macro agglomerate is very thick when compared to that of the existing draining mixtures today, reaching a maximum size between 32 mm and 45 mm. In addition, the described material has a percentage of voids on mixing between 17% and 25%. twenty

    On the other hand, asphaltic bitumen, which is modified high modulus 15/25 bitumen, is closely linked to the filler, which is the part with the lowest grain size of the mineral skeleton, a phenomenon that occurs during the general kneading process of the first one. the aggregates, giving rise to a mixture that coalesces the agglomerate. Thus, the bitumen 25 mixed with the mineral skeleton is stabilized with a quality filler, in the form of intangible powder, such as slaked lime or calcium carbonate.

    In the technical field, high modulus bitumen, such as bitumen 15/25, is understood as a special hard bitumen that is used in bituminous mixtures and which gives it a high degree of stiffness, developing good tensile strength. and fatigue Specifically, according to the PG-3 standard, high modulus for semi-dense MAN mixtures means a stiffness module> 11000 MPa. In the case of the present invention, a high modulus bitumen is used in draining mixtures in which they are not conventionally applied, having achieved very advantageous results in terms of
    draining and bearing capacity of the final bituminous mixture. Thus, even if bituminous mixtures with a rigidity module greater than 11000 MPa have not been obtained, mixtures of a module significantly greater than that of conventional draining mixtures have been obtained, because it has a rigidity module between 7000 and 10000 MPa (Standard UNE-EN 12697-26, Annex C). 5

    As it has been said, the stabilization filler, which, when mixed, binds intimately with the bitumen, is part of the aggregates, specifically its smallest granulometric fraction (usually presented as a powder) with a size less than 0.063 mm. The filler is present in an amount comprised between 2% and 7% by weight of the total aggregate weight 10 of the agglomerate; If this percentage by weight of filler is related to the amount of bitumen contained in the mixture, it can be said that said range of percentages is in turn equivalent to a ratio in weight of bit / bitumen between 0.50 and 1.17.

    Thanks to its granulometry and the properties of the binder that is particularly prepared and used in this mixture, the draining material described has a greater durability and a lower maintenance cost due to its slow clogging and easy cleaning compared to the existing draining mixtures. In addition to improving the drainage capacity, it gives the firm layer a high bearing capacity, of which current drainage mixtures are almost completely lacking. It is also effective even for 20 cant change zones and little longitudinal slope, where known firm materials do not work. Specifically, the draining mixture has the following:

    - It is a draining macro agglomerate capable of evacuating water flows much higher than conventional draining mixtures, thanks to the configuration of its mineral skeleton and the high percentage of voids on mixing (between 17% and 25% calculated according to NLT 168/90 ) that it presents. It is therefore an effective material in the drainage of rainwater, avoiding the accumulation of the same in areas of change of cant or little slope where the other mixtures are not effective; 30
    - the larger size of its mineral skeleton, which reaches a maximum between 32 mm and 45 mm, slows the clogging of its holes and its cleaning is easier by means of water jets;
    - unlike conventional draining mixtures, the material of the present invention is provided with a large bearing capacity similar to the mixtures 35
    dense and semi-dense, thus being able to significantly reduce the thickness of the firm package, as will be seen later. Stiffness module: between 7000 and 10000 MPa. Standard UNE-EN 12697-26, Annex C.

    In addition, the composition of the draining mixture gives it the following properties and 5 advantages over the rest of similar materials that are known in the technical field, since there is no known draining mixture that meets all these characteristics and requirements:
    - Marshall parameters: Stability: More than 35 kN. Deformation: Between 3 and 5.25 mm. ASTM D5581-07a. 10
    - Stability retained according to internal procedure: At least 85%.
    - Resistance preserved according to UNE-EN 12697-12: At least 85%.
    - Laboratory track test: Less than or equal to 0.07 mm for 103 load cycles. Standard UNE-EN 12697-22: 2003 + A1 2007.
    - Characterization of the open bituminous mixtures by means of the test 15 Cantabrian of wear loss (NLT-352/00): Less than or equal to 20%.
    - Rigidity module between 7000 and 10000 Mpa, Standard UNE EN 12697-26 Annex C.

    The following table summarizes the essential characteristics of the draining mixture object of the invention, and compares its properties with those of conventional mixtures.

    Table 1. Comparison of the characteristics and properties of the draining mixture object of the invention with those of conventional draining mixtures.
     CONVENTIONAL MIXTURE MIXTURE OF THE INVENTION ADVANTAGES
     MAXIMUM ARID SIZE  11 - 16 mm 30 - 40 mm Allows greater layer thickness
     COAT THICKNESS CONSTITUTED BY THE MIX  30 - 40 mm 120 - 140 mm Huge draining capacity and easy cleaning
     SUPPORTING CAPACITY *  Lower than dense and semi-dense mixtures Equal to or greater than dense and semi-dense mixtures Durability far superior to current draining mixtures
     PERMEABILITY  Fast according to conditions via Much slower to equal conditions Easy cleaning with water jets
    * The bearing capacity was measured by the UNE-EN 12697-27 stiffness test ANNEX C (IT-CY). Average value of a dense or semi-dense mixture = 7000 Mpa. Average value of a conventional draining mixture = 300 Mpa.

    One of the additional advantages of the mixture or macro agglomerate object of the present invention is that it can be manufactured industrially by conventional methods and using any modern discontinuous asphalt plant, complementing it with a bitumen mixing and modification device with the NFU and the polymer
     10
    The draining material described is applicable in civil works, specifically in the realization of road signs. This bituminous draining macro agglomerate is useful as a draining rolling layer with bearing capacity, or as an intermediate layer, both on newly created roads and in the rehabilitation of existing roads. Thus, the third object of the invention presented here is the use of the draining mixture, in any of its variants, as an asphalt mixture for the construction and rehabilitation of road signs, highways and motorways. Specifically, the mixture can be used as an intermediate draining layer of structure or as a draining and bearing layer in the construction and rehabilitation of the aforementioned firm.
     twenty
    The fourth object that constitutes this invention is the road, highway or highway sign comprising the draining mixture described above in the form of an intermediate layer or a rolling layer, in a layer thickness between 120 mm and 140 mm, including both limits.
     25
    DETAILED DESCRIPTION OF THE INVENTION
    Preferably, the draining mixture or macro agglomerate has the following composition:
    - mineral aggregate skeleton, contained in a percentage comprised between 94% and 96% of the total weight of the macro agglomerate (more preferably, 94.5%), 30 between 2% and 7% of the total weight of the mineral aggregate skeleton being the filler granulometry stabilization less than 0.063 mm; Y
    - asphaltic bitumen, contained in a percentage between 4% and 6% of the weight
    total of the agglomerate (more preferably, 5.5%), which is double modulated bitumen 15/25 double modified with:
    · Rubber dust from out-of-use tires (NFU), at 20% by weight of the total weight of bitumen; Y
    Styrene type elastomeric polymer which is SBS (styrene-butadiene-5 styrene) or amorphous polypropylene, between 4% and 8% by weight of the total weight of bitumen (more preferably, 5%).

    Preferably also, the aggregate mineral skeleton of the mixture, which is of discontinuous granulometry, may have the following fractions:
    - between 4% and 9% of the total aggregates is less than 0.250 mm in size;
    - between 5% and 12% of the total aggregates is less than 0.500 mm in size; Y
    - between 8% and 16% of the total aggregates is less than 2 mm in size.

    In another more particular embodiment of the mixture, the aggregate mineral skeleton also has the following fractions:
    - between 12% and 27% of the total aggregates is less than 4 mm in size;
    - between 25% and 55% of the total aggregates is less than 8 mm in size;
    - between 45% and 86% of the total aggregates is less than 16 mm in size; Y
    - between 60% and 97% of the total aggregates is less than 22 mm in size. twenty

    Thus, the preferred granulometric spindle of the aggregate mineral skeleton that is contained in the draining mixture, expressed in% of raisin, and as defined in the UNE standard, is as follows:
     25
    Table 2. Granulometric spindle of the mineral aggregate skeleton contained in the draining mixture, according to the sieve sizes determined by the UNE standard
     SIZE OPENING (in mm)
     Four. Five  32 22 16 8 4 2 0.500 0.250 0.063
     % OF PASSAGE OF THE AID  100 62-100 60-97 45-86 25-55 12-27 8-16 5-12 4-9 2-7

    As is derived from the essential description of the material of interest, the superior size that the rocky or aggregated materials that make up the mineral aggregate skeleton contained in the draining mixture can reach is 45 mm. But also according to the definition of the material it is possible that none of the rock materials that make up the aggregate mineral skeleton of the mixture exceed 32 mm, so that 100% has a size less than 32 mm. This offers several alternatives.

    Thus, in a preferred embodiment of the mixture (identified as PA-45 herein), between 3% and 25% of the total aggregate weight has a size between 32 mm and 45 mm including both limits (or what is the same, between 75% and 10 97% of the total aggregate weight is less than 32 mm in size); It should be taken into account that, as has been said, its smallest fraction, this is less than 0.063 mm, always represents between 2% and 7% of the total weight of the aggregates, since it corresponds to the filler of the mixture. In a more preferred case of this particular embodiment, the aggregate mineral skeleton of the mixture also has the following fractions:
    - between 4% and 9% of the total aggregates is less than 0.250 mm in size;
    - between 5% and 12% of the total aggregates is less than 0.500 mm in size;
    - between 8% and 16% of the total aggregates is less than 2 mm in size;
    - between 12% and 27% of the total aggregates is less than 4 mm in size;
    - between 25% and 40% of the total aggregates is less than 8 mm in size; twenty
    - between 45% and 65% of the total aggregates is less than 16 mm in size; Y
    - between 60% and 80% of the total aggregates is less than 22 mm in size.

    The granulometric spindle of this preferred mineral skeleton is as follows:
     25
    Table 3. Granulometric spindle of the aggregate mineral skeleton contained in the preferred draining mixture called PA-45, according to the sieve sizes determined by the UNE standard
     SIZE OPENING (in mm)
     Four. Five  32 22 16 8 4 2 0.500 0.250 0.063
     % OF PASSAGE OF THE AID  100 75-97 60-80 45-65 25-40 12-27 8-16 5-12 4-9 2-7

    In another particular embodiment of the invention (identified as PA-32 herein), the aggregates of the mixture does not contain aggregates larger than 32 mm, or in other words 100% of the total aggregates is less than 32 mm In the most preferred case of this embodiment, between 3% and 20% of that total aggregate preferably has a size between 32 mm and 22 mm, including both limits. 5 In a more preferred case of this embodiment, the aggregate mineral skeleton of the mixture also has the following fractions:
    - between 4% and 9% of the total aggregates is less than 0.250 mm in size;
    - between 5% and 12% of the total aggregates is less than 0.500 mm in size;
    - between 8% and 16% of the total aggregates is less than 2 mm in size; 10
    - between 13% and 27% of the total aggregates is less than 4 mm in size;
    - between 40% and 55% of the total aggregates is less than 8 mm in size; Y
    - between 65% and 86% of the total aggregates is less than 16 mm in size.

    If we take into account that the smallest fraction of aggregates, less than 0.063 mm, 15 represents between 2% and 7% of the total aggregate weight, then the granulometric spindle of this other preferred mineral skeleton is as follows:

    Table 4. Granulometric spindle of the aggregate mineral skeleton contained in the preferred draining mixture called PA-32, according to the sieve sizes 20 determined by the UNE standard
     SIZE OPENING (in mm)
     Four. Five  32 22 16 8 4 2 0.500 0.250 0.063
     % OF PASSAGE OF THE AID  100 100 80-97 65-86 40-55 13-27 8-16 5-12 4-9 2-7

    The particularity of the mineral skeleton in terms of its size joins the particularity of the asphalt binder, since an asphaltic binder is not known in the field like that of the present invention, where the bitumen is high modulus 15/25 and is modified with 25 NFU powder and with an SBS polymer or amorphous polypropylene. In a preferred case, the rubber tire tire out of use (NFU) is contained in the binder in a percentage between 18% and 22% by weight of the total weight of the bitumen.

    Also preferably, the ratio by weight filler / bitumen is 0.60.

    DESCRIPTION OF THE FIGURES
    FIGURE 1. Vertical profile of a tread layer prepared from the drainage mixture defined in the present invention (1), compared to the vertical profile of an example of a known drainage mixture representative of the state of the art (2).
    FIGURE 2. Photograph taken in traditional draining mixture in stretch of change of cant and low slope.

    EXAMPLES 10
    Example 1. Preparation of a draining bituminous mixture according to the present invention for paving and construction of a rolling layer.
    First, the aggregate mineral skeleton of the mixture was prepared. For this, up to 5 types of aggregates of different grain sizes were used, which complied with the technical requirements required for use in the rolling layer. fifteen

    Table 5. Granulometries of aggregates used to prepare the mineral skeleton of the bituminous mixture of interest
     GRANULOMETRÍAS DE LOS ÁRIDOS
     UNE SIZES  Arena 0/3 Árido 6/12 Árido 12/20 Árido 20/25 Árido 25/40 Fíller
     Four. Five  100.0 100.0 100.0 100.0 100.0 100.0
     32  100.0 100.0 100.0 100.0 82.6 100.0
     22  100.0 100.0 100.0 87.9 22.7 100.0
     16  100.0 100.0 60.0 3.3 0.6 100.0
     8  100.0 61.5 5.7 0.4 0.1 100.0
     4  80.4 7.2 0.1 0.3 0.0 100.0
     2  55.7 4.6 0.0 0.2 0.0 100.0
     0.500  23.6 0.3 0.0 0.0 0.0 100.0
     0.250  9.1 0.2 0.0 0.0 0.0 100.0
     0.063  1.6 0.1 0.0 0.0 0.0 100.0

    These aggregates of different granulometry were mixed with each other and with the filler (in this case, 20 lime off) to obtain the mineral skeleton of the draining mixture, in the following proportions:

    Table 6. Composition of the dry part of the draining mixture consisting of aggregate and filler fractions (% by weight of the total dry part of the mixture) 25
     FRACTION  %
     Sands
     Arena 0/3  15.0
     Aggregates
     Arid 6/12  16.0
     Arid 12/20  10.0
     Arid 20/25  20.0
     Arid 25/40  36.0
     Filler
     Lime off  3.0
     TOTAL  100.0

    The mixing ratio between the filler and the bitumen (filler / bitumen) is 0.60. From this combination of aggregates and filler, a draining mixture was prepared with the following granulometry:
     5
    Table 7. Granulometric curve and granulometric spindle of the mineral skeleton constituting the draining mixture prepared in Example 1 (% of raisin)
     SIZE UNE  SPINDLE CURVE
     Four. Five  100.0 100 100
     32  93.7 62 97
     22  69.8 48 75
     16  40.9 30 60
     8  28.5 20 35
     4  16.3 10 20
     2  12.1 5 16
     0.500  6.6 4 12
     0.250  4.4 3 9
     0.063  3.3 2 7

    The dry part of the mixture, consisting of aggregates and filler, was combined with 5.5% by weight of the total bitumen mixture, which was bitumen 15/25, previously modified 10 with NFU powder in a proportion of 20% in total bitumen weight and with an SBS polymer in a proportion of 5% in total bitumen weight.

    All the components used in the field were mixed together at a temperature between 185ºC and 190ºC. Subsequently, the mixture was compacted at a temperature between 165 ° C and 185 ° C.

    The macro agglomerate prepared in this Example had the following properties:
    - Density: 2,184 g / cm3.
    - Marshall stability: 36.5 kN.
    - Deformation: 4.1 mm.
    - Gaps in mixture: 17.1%.
    - Marshall stability retained: 94%.
    - Loss due to wear obtained through the Cantabrian test: 16%. 5
    - Stiffness module: 7323 MPa.
    权利要求:
    Claims (13)
    [1]

    1. A draining macro agglomerate for paving, with bearing capacity, comprising a mineral aggregate skeleton and an asphaltic bitumen, characterized in that:
    - the aggregate mineral skeleton is contained in a percentage comprised between 94% and 96% of the total weight of the agglomerate, has a discontinuous particle size of a maximum size of 45 mm and between 62% and 100% of the total aggregates has a size less than 32 mm, with 2% to 7% of the total aggregate weight being a granulometry stabilizing filler less than 0.063 mm, which is calcium hydroxide or calcium carbonate; Y
    - asphaltic bitumen is contained in a percentage between 4% and 6% of the total weight of the agglomerate, and is a 15/25 high modulus bitumen double modified with:
    · Rubber dust from out-of-use tires, in a percentage between 10% and 22% by weight of the total bitumen weight, and with
    · A polymer, of the elastomer type which is styrene-butadiene-styrene or of the amorphous polypropylene type, in a percentage comprised between 4% and 8% by weight of the total weight of the bitumen.
     twenty
    [2]
    2. The draining macro agglomerate according to the preceding claim, which has the following composition:
    - mineral aggregate skeleton, contained in a percentage of 94.5% of the total weight of the agglomerate; Y
    - 15/25 high modulus asphalt bitumen, contained in a percentage of 5.5% of the total weight of the mixture, and which is doubly modified with:
    · Rubber dust from out-of-use tires (NFU), at 20% by total weight of the bitumen weight; Y
    · SBS polymer or amorphous polypropylene, at 5% by total weight of bitumen. 30

    [3]
    3. The draining macro agglomerate according to any one of claims 1 or 2, wherein the aggregate mineral skeleton has the following fractions:
    - between 4% and 9% of the total aggregates is less than 0.250 mm in size;
    - between 5% and 12% of the total aggregates is less than 0.500 mm in size; and 35
    - between 8% and 16% of the total aggregates is less than 2 mm in size.

    [4]
    4. The draining macro agglomerate according to the preceding claim, wherein the aggregate mineral skeleton also has the following fractions:
    - between 12% and 27% of the total aggregates is less than 4 mm in size; 5
    - between 25% and 55% of the total aggregates is less than 8 mm in size;
    - between 45% and 86% of the total aggregates is less than 16 mm in size; Y
    - between 60% and 97% of the total aggregates is less than 22 mm in size.

    [5]
    5. The draining macro agglomerate according to the preceding claim, wherein the aggregate mineral skeleton 10 has the following granulometric spindle:
     SIZE OPENING (in mm)
     Four. Five  32 22 16 8 4 2 0.500 0.250 0.063
     % OF PASSAGE OF THE AID  100 62- 97 60-97 45-86 25-55 12-27 8-16 5-12 4-9 2-7

    [6]
    6. The draining macro agglomerate according to any one of claims 1 to 5, wherein between 3% and 25% of the total aggregate weight of the mineral skeleton has a size between 32 mm and 45 mm, including both limits. fifteen

    [7]
    7. The draining macroagglomerate according to the preceding claim, wherein the aggregate mineral skeleton of the mixture has the following fractions:
    - between 4% and 9% of the total aggregates is less than 0.250 mm in size;
    - between 5% and 12% of the total aggregates is less than 0.500 mm in size; twenty
    - between 8% and 16% of the total aggregates is less than 2 mm in size;
    - between 12% and 27% of the total aggregates is less than 4 mm in size;
    - between 25% and 40% of the total aggregates is less than 8 mm in size;
    - between 45% and 65% of the total aggregates is less than 16 mm in size; Y
    - between 60% and 80% of the total aggregates is less than 22 mm in size. 25

    [8]
    8. The draining macro agglomerate according to any one of claims 1 to 5, wherein 100% of the total aggregates is less than 32 mm and between 3% and 20% of the total aggregates has a size between 32 mm and 22 mm, including both limits.

    [9]
    9. The draining macro agglomerate according to the preceding claim, wherein the aggregate mineral skeleton of the mixture also has the following fractions:
    - between 4% and 9% of the total aggregates is less than 0.250 mm in size;
    - between 5% and 12% of the total aggregates is less than 0.500 mm in size; 5
    - between 8% and 16% of the total aggregates is less than 2 mm in size;
    - between 13% and 27% of the total aggregates is less than 4 mm in size;
    - between 40% and 55% of the total aggregates is less than 8 mm in size; Y
    - between 65% and 86% of the total aggregates is less than 16 mm in size.
     10
    [10]
    10. Use of the draining macro agglomerate defined in any one of claims 1 to 9 as an asphalt mixture for the construction and rehabilitation of road, highway and highway signatures.

    [11]
    11. The use of the draining macro agglomerate according to the preceding claim, as an intermediate draining layer 15 of the structure or as a draining tread layer in the construction and rehabilitation of road, highway and highway signatures.

    [12]
    12. A road, highway or highway sign comprising the draining macro agglomerate defined in any one of claims 1 to 9 in the form of an intermediate draining layer 20 of draining structure or rolling layer.

    [13]
    13. The road, highway or highway sign defined in the preceding claim, wherein the draining macro agglomerate layer has a thickness between 120 mm and 140 mm, including both limits. 25
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    同族专利:
    公开号 | 公开日
    ES2556267B1|2016-11-03|
    WO2016009097A1|2016-01-21|
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    ES201431061A|ES2556267B1|2014-07-14|2014-07-14|Draining macro agglomerate with bearing capacity, its use for paving and rolling layers manufacturing|ES201431061A| ES2556267B1|2014-07-14|2014-07-14|Draining macro agglomerate with bearing capacity, its use for paving and rolling layers manufacturing|
    PCT/ES2015/070493| WO2016009097A1|2014-07-14|2015-06-25|Draining macroagglomerate with bearing capacity, use thereof for paving and production of roadbases|
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