JPH09296116A - Asphalt composition - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an asphalt composition having high flame retardancy and preventive effect on droplet to drop and capable of supplying in great quantities at high economical efficiency by mixing asphalt with sludge based on hydrated aluminum hydroxide gel as the flame retardant. SOLUTION: The sludgebased on hydrated aluminum hydroxide gel is mixed with asphalt, as the flame retardant. The aluminum sludge obtained by separation and recovering from aluminum-containing waste liquid produced from the processing solution for aluminum etching process, produced by immersing and etching aluminum material in an alkaline solution, is preferably used. Hollow fillers or porous fillers may be mixed to reduce the weight and improve the heat insulating properties of the composition. The inorganic hollow spheres of borosilicate glass, etc., are exemplified as the fillers.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to, for example, soundproofing,
Regarding the improvement of an asphalt composition that is mainly composed of waterproof and heat-insulating asphalt and is suitable for use in various construction materials, etc., especially imparts flame retardancy and prevents droplets from dripping during burning. It relates to an asphalt composition.

[0002]

2. Description of the Related Art Asphalt is a solid or semi-solid substance mainly composed of bitumen which is naturally produced or obtained by distillation of crude oil, but straight asphalt or blown asphalt in petroleum asphalt is mainly waterproof. And because it is excellent in sound insulation, roofing materials, outer wall materials in the form of asphalt roofing, asphalt felt, etc.
In addition to being actively used as a raw material for building interior and exterior materials such as flooring materials, paints and sheets used in various fields such as railway cars, automobiles, home appliances and other purposes for the purpose of damping, sound insulation, sound absorption, etc. It is used as a raw material. For example, asphalt roofing is formed by applying a mixed liquid obtained by heating and melting asphalt and mixing sand and crushed granules to one or both sides of a nonwoven fabric, and the asphalt roofing is used for roofs, outer walls, and floors. It is used as an interior / exterior material for buildings for the purpose of improving waterproofness and improving sound insulation of outer walls.

However, asphalt is brought into a molten and fluidized state due to the burning, and therefore the gas generated at that time may ignite to cause a fire, and the molten asphalt may stick to the skin and cause burns. There is.

Therefore, in order to impart flame retardancy to the asphalt raw material or the asphalt product, various methods have hitherto been tried. For example, it has been attempted to apply an incombustible treatment agent to asphalt roofing or add various flame retardants to an asphalt raw material to impart flame retardancy. However, the method of applying a non-combustible treatment material to an asphalt product requires a separate non-combustible treatment after the asphalt product is manufactured, which complicates the manufacturing process and is uneconomical. Is not enough,
In particular, it was not possible to effectively prevent the dropping of asphalt droplets during burning.

Further, in order to impart flame retardancy to the asphalt raw material, an asphalt composition has been proposed in which an endothermic inorganic compound for releasing water of crystallization such as crystalline aluminum hydroxide is added (Japanese Patent Laid-Open No. 60-197762). Gazette and JP-A-60-199061). Thus, when crystalline aluminum hydroxide is added to the asphalt raw material, even if the asphalt composition is heated, when the crystalline aluminum hydroxide chemically changes to aluminum oxide by heat, it absorbs heat while crystallization water is released. As a result, the asphalt will not be in a melted and fluidized state, and flame retardancy can be imparted to an asphalt product manufactured using such an asphalt composition as a material.

[0006] As described above, crystalline aluminum hydroxide is effective in imparting flame retardancy to asphalt, but this crystalline aluminum hydroxide is produced in Japan in comparison with the amount produced in asphalt. Is not so many,
It has a drawback that it is not responsive to the great demand for asphalt products. Further, although crystalline aluminum hydroxide is relatively inexpensive, further economic efficiency is required for using it in asphalt products which are required to be low in price.

[0007]

The problem to be solved by the present invention is to impart sufficient flame retardancy to asphalt, to effectively prevent the dropping of droplets during burning, and to achieve high economy. An object of the present invention is to provide an asphalt composition having properties and capable of being supplied in a large amount.

[0008]

The first object of the present invention is to provide an asphalt composition prepared by mixing asphalt with a flame-retardant material, wherein hydrous gel-like aluminum hydroxide sludge is mixed as the flame-retardant material. The present invention is to provide an asphalt composition characterized by the above.

A second problem solving means of the present invention is the asphalt composition according to the first problem solving means, wherein the hydrous gel-like aluminum hydroxide sludge is separated and recovered from the aluminum-containing waste liquid. An object of the present invention is to provide an asphalt composition.

A third problem solving means of the present invention is an asphalt composition according to the first or second problem solving means, characterized in that a hollow or porous filler is further mixed. To provide.

The water-containing gel-like aluminum hydroxide sludge is used for the purpose of cleaning the surface of aluminum products such as various parts made of aluminum or aluminum alloys, or imparting corrosion resistance to the surface such as etching treatment or anodizing treatment. It is contained in a large amount of aluminum-containing waste liquid generated during processing.

The aluminum-containing waste liquid is drained after separating the water-containing gel-like aluminum hydroxide sludge obtained by the neutralization treatment. The sludge collected is
It contains a large amount of aluminum hydroxide, but since this aluminum hydroxide is a gel-like precipitate with low separability and cannot be used as a useful resource, it is discarded. However, it takes a lot of money to dispose of sludge without causing pollution.
For this reason, various attempts have been made to precipitate useful components from sludge and appropriately treat the waste liquid (Japanese Patent Publication No. 52-4).
No. 3184 and Japanese Patent Laid-Open No. 7-268659), the treatment could not be economically performed.

The asphalt composition of the present invention comprises asphalt prepared by mixing hydrous gel-like aluminum hydroxide sludge separated from an aluminum-containing waste liquid, which has been difficult to economically utilize as such a useful resource, with asphalt. Since it imparts flame retardancy to the asphalt, it is possible to impart flame retardancy to the asphalt while effectively utilizing sludge, and according to this asphalt composition, molten asphalt does not drip even during burning, and therefore It is possible to economically supply a large amount of an asphalt composition excellent in flame retardancy and dripping prevention during burning.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION When the embodiment of the present invention is described in detail, the asphalt composition according to the present invention is formed by mixing asphalt with a flame retardant material described later. In addition to the fuel material, various additives can be added for the purpose of weight reduction and improvement of heat insulation.

As the asphalt, there are natural asphalt and petroleum asphalt, as already described in connection with the prior art, but at present, natural asphalt is not used in Japan, but petroleum asphalt is used.
This petroleum asphalt is straight asphalt, which is the residue left after distilling crude oil under atmospheric pressure and collecting gasoline, naphtha, etc., and blown asphalt, which is formed by heating this straight asphalt and blowing air into it for oxidative polymerization. There is. Any asphalt can be used depending on the application of the asphalt composition of the present invention.

The flame-retardant material used in the asphalt composition of the present invention comprises a hydrous gel-like aluminum hydroxide sludge recovered by separating from an aluminum-containing waste liquid. The hydrous gel-like aluminum hydroxide sludge is produced by being eluted into the surface treatment liquid during the surface treatment of aluminum or the like. An example thereof will be described below.

The surface treatment of aluminum is carried out by immersing the aluminum material in an alkaline solution such as sodium hydroxide for etching, or by immersing it in an acidic solution such as sulfuric acid and then anodizing it if necessary. ing. The aluminum material to be surface-treated elutes in this alkaline solution or acidic solution for a long period of time, so that as the active ingredient in the treatment liquid is consumed, it becomes a waste liquid containing a large amount of aluminum component.

This aluminum-containing waste liquid is usually neutralized with an acid for an alkaline solution, an alkali for an acidic solution, or an alkaline solution and an acidic solution are mixed to form a mutual solution. After soaking, the supernatant was discharged. Since the aluminum-containing waste liquid dissolves the aluminum content in the form of sodium aluminate or aluminum sulfate, if this waste liquid is neutralized with an acid or an alkali, or if an alkaline waste liquid and an acidic waste liquid are mixed and neutralized, a large amount of Aluminum hydroxide precipitates in gel form.

This precipitate has low separability from the mother liquor, and the sludge obtained by filtration contains 80% or more of water in addition to aluminum hydroxide. In the prior art, attempts have been made to recover crystalline aluminum hydroxide from this hydrous gel-like aluminum hydroxide sludge by various methods (see Japanese Patent Publication No. 52-43184 and Japanese Patent Publication No. 7-268659). ), The treatment is complicated and cumbersome, and the economical efficiency is low, and the purity is low because a large amount of impurities are contained, and the practicability is low.

Since the asphalt composition of the present invention imparts flame retardancy to the asphalt, since the hydrous gel-like aluminum hydroxide sludge, which is disadvantageous in terms of cost for refining, is used as it is, sludge is not used. It is advantageous because the flame retardancy of asphalt can be improved and the dropping of molten asphalt can be prevented while making it a useful resource. This sludge contains a large amount of water, but when this sludge along with other additives is added to and mixed with asphalt that is heated and melted in a heating container such as a pot, the water content in the sludge is mixed. Is evaporated by boiling due to the heating of asphalt, and the aluminum hydroxide content in the sludge remains in the asphalt composition.Therefore, it is required to mix a large amount of sludge in order to bring the addition ratio of this aluminum hydroxide to the prescribed value. It

The asphalt composition is poured and cooled so as to be applied to a substrate such as a non-woven fabric in its molten state to form an asphalt product. Bubbles generated during boiling of the asphalt composition remain in the asphalt composition when it is cooled and solidified without being completely exhausted to the atmosphere during cooling, so an asphalt composition (asphalt product) in a slightly foamed state is obtained. To be These bubbles are advantageous because they have the function of reducing the weight of the asphalt product and imparting heat insulation to the asphalt product.

As the flame-retardant material used in the present invention, other suitable non-combustible material and refractory material can be used in addition to the hydrous gel-like aluminum hydroxide sludge. For example,
A non-combustible, fire-resistant aqueous film-forming inorganic compound formed by the reaction of metal aluminum or metal silicon, a mineral acid compound that hydrates among mineral acids to dissociate boric acid or hydrofluoric acid, and an alkali metal (for example, Japanese Patent Publication No. 7-14801) or a mixture of a mixture of a flame-retardant component containing an organic phosphorus compound as a main component and a fixing component containing a melamine resin as a main component and a curing accelerator containing an acidic substance as a main component. The flame-retardant composition (for example, trade name "Roofproof" manufactured by Dainippon Ink and Chemicals, Inc.) can be used as the flame-retardant material of the asphalt composition of the present invention.

To the asphalt composition of the present invention, various hollow fillers or porous fillers can be added for the purpose of reducing the weight and improving the heat insulating property. Such hollow fillers or porous fillers are composed of hollow microspheres or balloons made of glass such as borosilicate glass, inorganic substances such as silica and ceramics, or organic substances such as phenol resin and epoxy resin. Specific examples of the hollow filler or the porous filler include, for example, borosilicate glass inorganic fine hollow sphere silica balloons (trade name "M-CEL") developed by Rubber Bell of Belgium, Kyushu Industrial Research Institute of Industrial Technology. A fine hollow sphere Shirasu balloon (commercially available from Sanki Industry Co., Ltd. under the trade name "Sankiraite") formed by heating and expanding the developed volcanic ash Shirasu, developed by Philadelphia Quartz (PQ), USA Sodium borosilicate inorganic fine hollow sphere silica balloon (trade name "Q-CEL"), ceramic hollow sphere developed by Showa Denko (trade name "Show Balloon BS"),
Perlite balloon made from perlite as a raw material developed by Showa Chemical Industry Co., Ltd. (trade name "Microfiller"), hollow microspheres made from chemically stable insoluble glass developed by 3M Company in the United States (trade name "3M")・ Glass Bubbles ”), hollow microspheres (trade name“ G-light ”) commercially available from Sunlite Co., Ltd., aluminosilicate hollow microspheres developed by Philite USA and marketed by Nippon Philite Co. There is a name "Philite").

These hollow fillers or porous fillers not only lighten the asphalt composition and impart heat insulating properties, but also function as aggregates of the asphalt composition, and the characteristics possessed by the hollow filler or porous filler. Various functions can be imparted to the asphalt composition depending on the requirements.

The asphalt composition of the present invention can be used as a raw material for paints, sheets, boards, mats, blocks, mortars and molded products. This asphalt composition, as described above, in the hot melt of the asphalt, the hydrous gel-like aluminum hydroxide sludge and other additives as needed, and is obtained by mixing,
This asphalt composition in a molten state is molded into a sheet, board or mat for use. For example, FIG.
As shown in Figure 1, roofing base paper 1 such as synthetic fiber non-woven fabric
It can be used as an asphalt roofing 14 formed by applying a molten asphalt composition 12 to the roofing base paper 10 using 0 as a base material and cooling it. The asphalt roofing 14 is a flexible sound insulation and vibration damping sheet, and can be used as a building material such as a roof material, a wall material, and a floor material. In addition, as shown in FIG. 2, it is possible to use the asphalt composition in a molten state in the form of a sound insulating and damping sheet 16 formed by rolling the molten asphalt composition into a sheet and cooling and solidifying it without using a base material.
As shown in FIG. 3, asphalt board 1 is prepared by molding a molten asphalt composition into a block having a predetermined thickness.
It is available in eight forms. Incidentally, the asphalt composition in a molten state has lower fluidity when the temperature is lowered, so that the asphalt product is produced by directly pouring it without lowering the temperature, but when the base material such as the nonwoven fabric is poor in heat resistance, It is preferable that the temperature is lowered to such an extent that the fluidity is not lost and then the mixture is poured onto the substrate.

[0026]

EXAMPLES Some examples of the present invention will be described below together with comparative examples and conventional examples. (Example 1) 15 parts by weight of blown asphalt and 35 parts by weight of G Light manufactured by Sunlite Co., Ltd. were placed in a heating container and melted by heating. A water-containing mixture containing 20 parts by weight of aluminum hydroxide was added to the mixture. Gelled aluminum hydroxide was added to form an asphalt composition. The hydrous gel-like aluminum hydroxide used was one which was dehydrated after the neutralization of the aluminum surface treatment waste liquid containing 50% by weight of aluminum hydroxide. This asphalt composition was molded into a board having a thickness of 7 mm shown in FIG. 3 and cooled to solidify to produce an asphalt board. When a burner flame was applied to this board from one side for a few minutes, there were traces of the flame hitting the surface of the board, but almost no melt flow state of the asphalt was observed, and, of course, the molten asphalt There was no drip. This point was no different from the comparative example described after using crystalline aluminum hydroxide. Also, this board
As will be described later in comparison with the comparative example, the hydrous gel-like aluminum hydroxide sludge acts as a foaming material to reduce the density of the asphalt board, and it is possible to achieve weight reduction and improvement of heat insulation. It was

Example 2 To the asphalt composition of Example 1 was further added 1 part by weight of another SiO ₂ type inorganic hollow balloon to form a similar board having a thickness of 5 mm. When a burner flame was applied to this board in the same manner as in Example 1, as in Example 1, traces of flame were left on the surface of the board, but almost no melt flow state of asphalt was observed, It was confirmed that there was no dripping of molten asphalt, and that it had the same excellent flame retardancy as the comparative example using crystalline aluminum hydroxide described later and the function of preventing the dripping of molten droplets. It was also confirmed that the hollow balloon slightly reduced the density of the asphalt board, which further reduced the weight of the asphalt board and improved the heat insulating property.

(Comparative Example) 15 parts by weight of blown asphalt and 35 parts by weight of G-light (trade name, manufactured by Sunlite Co., Ltd.) were placed in a heating container and melted by heating. A crystalline aluminum hydroxide was added to the heated melted mixture. 20 parts by weight was added to form an asphalt composition. A melt of the asphalt composition was molded into a board having a thickness of 7 mm shown in FIG. 3 and cooled to solidify to produce an asphalt board. When a burner flame was applied to this board for a few minutes, there was a trace of the flame hitting the surface of the board, but the asphalt melt flow state was hardly observed, and there was no molten asphalt dripping. It was However, the weight per unit volume was higher than that of the board of Example 1 while containing the same aluminum hydroxide. This is probably because in the board of Example 1, the hydrous gel-like aluminum hydroxide functioned somewhat as a foaming material, and the board was given porosity by foaming to lower the density. It is understood that this means that the board of Example 1 is excellent in sound insulation and heat insulation.

(Conventional example) 15 parts by weight of blown asphalt and 35 parts by weight of Glite manufactured by Sunlite Co., Ltd. were placed in a heating container and melted by heating, and a melt of an asphalt composition was prepared from this mixture. Asphalt board was manufactured by molding in the form of a board having a thickness of 7 mm shown in 3 and solidifying by cooling. When a burner flame was applied to this board for several minutes, the asphalt immediately melted from the surface of the board and became a fluid state and dropped.

[0030]

According to the present invention, as described above, asphalt having flame retardancy by mixing hydrous gel-like aluminum hydroxide sludge, which has been difficult to be economically utilized as a useful resource, with asphalt. Since the composition is formed, the sludge that has been conventionally disposed of can be effectively used, as well as imparting flame retardancy to asphalt and preventing dripping at the time of burning to modify the asphalt. Of the water-soluble asphalt composition can be supplied economically and in a large amount.

In particular, when the water-containing gel-like aluminum hydroxide sludge separated and recovered from the aluminum-containing waste liquid is used, a large amount of the aluminum surface, which has been often discarded because purification has been disadvantageous in the prior art. Since the treated waste material can be used as it is, there is a practical advantage that a high-quality asphalt composition having a flame retardant property and a droplet drip preventing effect can be economically obtained, in addition to effective use of resources.

Further, since the hydrous gel-like aluminum hydroxide sludge functions as a foaming material when forming an asphalt product from an asphalt composition, it helps to reduce the weight of the asphalt product and improve the heat insulating property. Since the aluminum hydroxide sludge is added to and mixed with the heating melt of asphalt, the water content in the sludge evaporates in the heating melt, so that an asphalt composition containing a predetermined aluminum hydroxide is used. You can get it immediately economically.

Furthermore, by adding these hollow fillers or porous fillers in addition to the hydrous gel-like aluminum hydroxide sludge, it is possible to reduce the weight of the asphalt composition and to impart heat insulation properties. It is possible to further promote the weight reduction and heat insulating property that the quality sludge imparts to the asphalt composition.

[Brief description of drawings]

1 is a cross-sectional view of an asphalt roofing made from an asphalt composition according to the present invention.

FIG. 2 is a cross-sectional view of an asphalt sheet made from the asphalt composition according to the present invention.

FIG. 3 is a cross-sectional view of an asphalt board made from the asphalt composition according to the present invention.

[Explanation of symbols]

 10 Roofing base paper 12 Asphalt composition 14 Asphalt roofing 16 Asphalt sheet 18 Asphalt board

Claims (3)

[Claims] 1. An asphalt composition comprising an asphalt mixed with a flame-retardant material, wherein a hydrous gel-like aluminum hydroxide sludge is mixed as the flame-retardant material. 2. The asphalt composition according to claim 1, wherein the hydrous gel-like aluminum hydroxide sludge is separated and recovered from an aluminum-containing waste liquid. 3. The asphalt composition according to claim 1 or 2, further comprising a hollow or porous filler mixed therein.