RU2184753C1 - Cationic emulsion for road building - Google Patents

Abstract

FIELD: road building. SUBSTANCE: emulsion contains, wt %: bitumen 45-65, amine emulsifier 0.1-4, aqueous hydrochloric acid or acetic acid 0.05-0.6, and water - the balance, said amine emulsifier being hydroxyl-containing aliphatic polyamine of general formula RCH(OH)CH₂NHR′NH₂, in which R denotes aliphatic C20-C26- or C26-C28-radical, R' denotes -(CH₂)₆- or -(CH₂CH₂NH)_nCH₂CH₂- with n = 1 or 2. EFFECT: improved adhesion of binder film to mineral material with no adhesive added and preserved high storage stability of emulsion. 3 tbl, 26 ex

Description

 The invention relates to cationic bitumen emulsions used in road construction.

 The known composition of bitumen aqueous emulsions, including bitumen, water and cracking residue / a. from. USSR 72898, class C 08 L 95/00 /. Emulsions are characterized by relatively low rates of stability and adhesion of the binder film to mineral material (adhesion).

 The formation of an emulsion, the stability of an emulsion and the main operational properties of bitumen emulsions and pavements obtained on their basis are provided by emulsifiers stabilizing the interface between bitumen and water, and adhesion, i.e. the indicator of adhesion of the binder film to mineral material is special adhesive additives.

где R₁ - радикал алифатического углеводорода с содержанием атомов углерода 16-18; R₂ и R₃ - радикал СН₃- или C₂H₅-, или атом водорода; R₄ - радикал СН₃- или С₂Н₅-, А - анион CH₃SO₄ ^-, С₂Н₅SO₄ ^-, x+y≤10
и по крайней мере один компонент из группы: алкоксилированный алкилфенол, алкоксилированный алканол с содержанием в цепи 10-16 атомов углерода и алкоксилированный алкиламин с числом алкоксилирования 3-8 и/или по крайней мере компонент из группы алкиламин, содержащий в цепи 10-16 атомов углерода и четвертичное аммониевое соединение, содержащее в цепи 8-22 атомов углерода при следующем соотношении компонентов, мас. %:
Битум - 45-75
Соляная или уксусная кислота - 0,03-5,0
Четвертичное аммониевое соединение - 0,05-4,8
Указанный компонент из группы: алкоксилированный алкилфенол, алкоксилированный алканол и алкоксилированный алкиламин - 0,01-3,0
Указанный компонент из группы: алкиламин и четвертичное аммониевое соединение - 0,01-3,0
Вода - Остальное
Эмульсия обладает повышенной стабильностью при хранении. Однако недостатком данной эмульсии является то, что она, обладая высокой степенью обволакивания, имеет низкий показатель сцепления пленки вяжущего с минеральным материалом, т.е. показатель адгезии (не более 50% площади). Для повышения его в данном случае требуется дополнительное использование специальных добавок, так называемых адгезивов.The closest to the invention is a bitumen emulsion for road construction, including bitumen, hydrochloric or acetic acid, an amine emulsifier and water / a. from. USSR 1359281, class C 08 L 95/00, C 04 V 26/26 /. Moreover, as an amine emulsifier, it contains a quaternary ammonium compound of the general formula

where R ₁ is a radical of an aliphatic hydrocarbon containing carbon atoms 16-18; R ₂ and R ₃ are the radical CH ₃ - or C ₂ H ₅ -, or a hydrogen atom; R ₄ - radical CH ₃ - or C ₂ H ₅ -, A - anion CH ₃ SO ₄ ^- , C ₂ H ₅ SO ₄ ^- , x + y≤10
and at least one component from the group: alkoxylated alkyl phenol, alkoxylated alkanol containing 10-16 carbon atoms in the chain and alkoxylated alkylamine with alkoxylation number 3-8 and / or at least a component from the alkylamine group containing 10-16 atoms in the chain carbon and Quaternary ammonium compound containing in a chain of 8-22 carbon atoms in the following ratio of components, wt. %:
Bitumen - 45-75
Hydrochloric or acetic acid - 0.03-5.0
Quaternary ammonium compound - 0.05-4.8
The specified component from the group: alkoxylated alkyl phenol, alkoxylated alkanol and alkoxylated alkylamine - 0.01-3.0
The specified component from the group: alkylamine and quaternary ammonium compound - 0.01-3.0
Water - Else
The emulsion has enhanced storage stability. However, the disadvantage of this emulsion is that, having a high degree of enveloping, it has a low rate of adhesion of the binder film to mineral material, i.e. adhesion index (not more than 50% of the area). To increase it, in this case, the additional use of special additives, the so-called adhesives, is required.

 The objective of the invention is to improve the adhesion of the binder film to mineral material (adhesion) without the use of additional adhesive additives, i.e. using such an emulsifier, which has both emulsifying ability and adhesive effect, while maintaining increased stability of the emulsion during storage.

The task is achieved by the development of a cationic emulsion for road construction, including bitumen, hydrochloric or acetic acid, amine emulsifier and water. Moreover, as an amine emulsifier, it contains a hydroxyl-containing aliphatic polyamine of the general formula RCH (OH) CH ₂ NHR ¹ NH ₂ , where R is an aliphatic radical C _20-26 or C _26-28 , and R ¹ - - (CH ₂ ) ₆ - , or - (CH ₂ CH ₂ NH) _n CH ₂ CH ₂ -, where n - 1, 2, in the following ratio of components, wt. %: bitumen 45-65, emulsifier 0.1-4, hydrochloric or acetic acid 0.05-0.6, water up to 100%.

Designations used emulsifiers having different radicals R and R ¹ are given in table. 1
The emulsifiers PAV-1, PAV-2 and PAV-3 were synthesized by oxidation of olefin fractions, C _26-28 and C _20-26 , respectively, followed by amination of the obtained epoxy derivative with polyethylene polyamine and hexamethylenediamine, respectively (see Table 1). The main colloid-chemical properties of the synthesized emulsifiers are given in table. 2.

To prepare the emulsion, bitumen of road grades with penetration values from 40 to 230 mm ^{-1 was used} .

 The quantitative content of the components is given at the rate of 1000 kg of emulsion (100%).

 Emulsions were prepared in a colloidal mill.

Example 1. In a stirrer at 45 ^{° C.} 548.5 kg of water, 0.5 kg of concentrated hydrochloric acid and 1 kg of emulsifier with the structural formula PAV-1 (Table 1) are mixed until completely homogeneous. The resulting solution in a colloidal mill is combined with 450 kg of bitumen with a penetration of 100 mm ^-1 heated to 100 ^o C. The resulting emulsion has the following composition, wt.%: Bitumen 45, emulsifier PAV-1 0.1, concentrated hydrochloric acid 0.05 , water 54.85.

 Examples 2-5 are prepared analogously to example 1, with the same emulsifier (surfactant-1), but with different ratios of components.

Example 6. In a mixer at 45 ^{° C.} 548 kg of water, 1 kg of concentrated acetic acid, 1 kg of emulsifier with the structural formula PAV-1 are mixed (Table 1). This solution in a colloidal mill is combined with 450 kg of bitumen with a penetration of 150 mm ^-1 heated to 100 ^o C. The finished emulsion has the following composition, wt. %: bitumen 45, emulsifier PAV-1 0.1, concentrated acetic acid 0.1, water 54.8.

 Examples 7-9 are prepared analogously to example 6, with the same emulsifier (surfactant-1), but with different ratios of components.

Example 10. In a mixer at 45 ^{° C.} 548.5 kg of water, 0.5 kg of concentrated hydrochloric acid, 1 kg of emulsifier with the structural formula PAV-2 are mixed (table. 1). This solution in a colloidal mill is combined with 450 kg of bitumen with a penetration of 40 mm ^-1 heated to 100 ^o C. The finished emulsion has the following composition, wt.%: Bitumen 45, emulsifier PAV-2 0.1, concentrated hydrochloric acid 0.05 , water 54.85.

 Examples 11-14 are prepared analogously to example 10 with the same emulsifier (surfactant-2), but with different ratios of components.

Example 15. In a stirrer at 45 ^{° C.} 548 kg of water, 1 kg of concentrated acetic acid, 1 kg of emulsifier with the structural formula PAV-2 are mixed (Table 1). This solution in a colloidal mill is combined with 450 kg of bitumen with a penetration of 230 mm ^-1 heated to 100 ^o C. The finished emulsion has the following composition, wt. %: bitumen 45, emulsifier PAV-2 0.1, concentrated acetic acid 0.1, water 54.8.

 Examples 16-18 are prepared analogously to example 15, with the same emulsifier (surfactant-2), but with different ratios of components.

Example 19. In a stirrer at 45 ^{° C.} 585 kg of water, 0.5 kg of concentrated hydrochloric acid, 1 kg of emulsifier with the structural formula PAV-3 are mixed (Table 1). This solution in a colloidal mill is combined with 450 kg of bitumen with a penetration of 190 mm ^-1 heated to 100 ^o C. The finished emulsion has the following composition, wt. %: bitumen 45, emulsifier PAV-3 0.1, concentrated acetic acid 0.1, water 54.85.

 Examples 20-23 are prepared analogously to example 19, with the same emulsifier (surfactant-3), but with different ratios of components.

Example 24. In a mixer at 45 ^{° C.} 548 kg of water, 1 kg of concentrated acetic acid, 1 kg of surfactant with the structural formula PAV-3 are mixed. This solution in a colloidal mill is combined with bitumen with a penetration of 200 mm ^-1 heated to 100 ^o C. The finished emulsion has the following composition, wt.%: Bitumen 45, emulsifier PAV-2 0.1, concentrated acetic acid 0.1, water 54.8.

 Examples 25-26 are prepared analogously to example 24, with the same emulsifier (surfactant-3), but with different ratios of components.

 Finished samples of fine brown emulsion are collected in collections and subjected to analysis.

 Determination of pH of solutions is carried out using a pH meter brand RN-121 or another device of a similar purpose.

 Stability is determined by the decay time with stirring 100 g of quartz porphyry 0/5 mm with 10 g of water and 12.5 g of emulsion, s.

 Adhesion is determined by the size of the gravel surface (%), pre-treated with an emulsion, on which a bitumen film is preserved after boiling in distilled water (GOST 18659-81).

 Storage stability is determined by changing the uniformity of the emulsion, characterized by the residue of bitumen on a sieve (g) when filtering through it an emulsion stored at room temperature for 8 weeks (GOST 18659-81).

The degree of enveloping of quartz porphyry was determined after 24-hour air drying and 24-hour exposure in water at 22 ^o C (%).

 The properties of the obtained bitumen emulsions are given in table. 3.

 Experimental data show that the developed emulsions within the claimed limits have a high rate of adhesion of the binder film to mineral materials (82-100% of the area), while for the prototype this figure does not exceed 50% of the area. At the same time, the developed emulsions have high stability and stability during storage and are not inferior to the prototype according to these indicators. The inventive compositions can have different decay times, which is essential for their further use.

Claims (1)

A cationic emulsion for road construction, including bitumen, hydrochloric or acetic acid, an amine emulsifier and water, characterized in that it contains a hydroxyl-containing aliphatic polyamine of the general formula as an amine emulsifier
RCH (OH) CH ₂ NHR ¹ NH ₂ ,
where R is the aliphatic radical C _20-26 or C _26-28 , R ¹ - (CH ₂ ) ₆ - or - (CH ₂ CH ₂ NH) _n CH ₂ CH ₂ -, where n = 1,2,
in the following ratio of components, wt. %:
Bitumen - 45-65
Hydrochloric or acetic acid - 0.05-0.6
Emulsifier - 0.1-4.0
Water - Up to 100%

Images