RU2005761C1 - Propellant composition for aerosol containers - Google Patents

Abstract

FIELD: household aerosol compositions. SUBSTANCE: propellant composition contains the following ingredients, % by weight: chladon-12 44.5; organic solvent (propane-butane mixture) 11 and tetramethyl silane 44.5. EFFECT: improved usage properties. 2 tbl

Description

 The invention relates to aerosol formulations, in particular to propellants for aerosol packaging used in household chemicals.

The use as propellants individual compound having a vapor pressure at 21 ^{° C,} 4.2 atm, for example chlorofluoromethane or ethane (Freon), propane - butane, vinyl chloride, etc...

 For household aerosol preparations in different countries, the following compounds were most widely used as a propellant: grade A mixture of freon 11 and freon 12 - 1: 1, propellant UV-1A, in which freon 11 - 44.5 wt. %, freon 12 - 44.5 wt. %, propane - butane 11 wt. %

 The disadvantages of these compositions is the presence of freon 11 components in them (due to its ease of hydrolysis in the presence of water with the formation of hydrochloric acid). Under certain conditions, anhydrous ethyl alcohol can cause hydrolysis and corrosion of the cylinders. In addition, perfume 11 is easy - photodissociates in the atmosphere and poses a great danger to the ozone layer of the atmosphere. Freon 11 is toxic enough to warm-blooded and irritates the skin.

 A known composition for aerosol packaging containing dichlorodifluoromethane (Freon 12), an organic solvent and an organosilicon compound - dimethylpolysiloxane 1 to 10 wt. % and other organic components.

 The disadvantage of these compositions is that dimethylpolysiloxane is not a propellant that creates pressure in aerosol containers. In addition, polymethylsiloxanes containing terminal hydroxyl groups are prone to polymerization in the aqueous medium with thickening of the overall composition.

 In order to improve consumer properties and expand the raw material base, the propellant for aerosol packaging contains, by weight. %: Freon 12 - 44.5; organic solvent 11 and tetramethyleilane 44.5.

TMS is a colorless, odorless inert liquid having a boiling point 26 - 27 ^{° C,} density - 0.65 g / cm ³ with high stability to hydrolysis and heat resistance - multiday withstand heating at 500 ° ^C.

 The use of tetramethylsilane as an internal standard in NMR spectroscopy is known. The use of tetramethylsilane as a propellant is not described in the literature.

 The use of tetramethylsilane expands the class of compounds used as propellants, does not have a destructive effect on the ozone layer of the atmosphere, has extremely low toxicity to warm-blooded animals, and does not cause irritation to the skin.

 The characteristics of the evacuation mixture are given in table. 1.

 The proposed propellant can be used in cleaning, polishing, cosmetic products. Tests of preparations in aerosol packaging, including those containing aqueous components, are carried out before determining the excess vapor pressure and aerosol packaging, the percentage of the output of the contents of the aerosol package per unit time using Example 1: (TMS propellant) as an analogue of the UV-1A propellant most used in production ( TU 6-15-625-83) composition, wt. %: Freon 11: UVP propellant: Freon 12 equal to 44.5: 11.0: 44.5, in comparison with typical formulations (Table 2).

As a result of the test, it was found that the excess vapor pressure of the preparations containing the proposed TMS propellant does not exceed 8 kgf / cm2 with the maximum allowable for aluminum cylinders of 12 kgf / cm ² . Thus, in fact, the pressure in this case is 1.5 times less than the tensile strength of the packages.

PRI me R 1. Propellant composition (TMS propellant), wt. %: Freon 12 44.5 Propane-butane mixture 11.0 Tetramethylsilane 44.5
Prepared in the usual way by sequentially mixing the components in a conventional capacitive apparatus, maintaining the temperature in the apparatus (-10) - (15) ^about C in and then tested in an aerosol package in the formulations:
Cleaning agent "Second" TU 6-15-404-87
Fragrant air freshener TU 6-40-5703417-12-83
Hairspray "Lovely luxury" TU 6-15-12-76-80
Antistatic agent "Antique" TU 6-40-0204318-5-91
The results are presented in table. 2 in comparison with the results with an industrial propellant brand UV-1A (TU 6-15-626-83).

 Consumption from aerosol packaging with new propellants does not differ from the corresponding values of known compositions.

 The new propellant provides a yield of aerosol package contents of at least 98.4% when the standard requirement is at least 95 - 97%.

Under natural and accelerated test conditions ^at 40 ° C for 1 part by weight of corrosion on the inner surface of the cylinder is absent.

 The use of the invention allows to expand the raw material base, reduce the use of environmentally hazardous products, reduce the cost of perfumes and cosmetics. (56) Kuzmenko I.E., Deinasare D.A. Propellants for aerosol packaging. L.: Chemistry, 1970.

 Chalmers L. Chemicals in the home and industry. L.: Chemistry, 1969, p. 348.

 UK application 1376649, CL C 09 K 3/30, 1974.

Claims (1)

PROPELLENT FOR AEROSOL PACKAGES, including dichlorodifluoromethane - chladone 12, an organic solvent and an organosilicon compound, characterized in that it contains tetramethylsilane as an organosilicon compound in the following ratio, wt. %:
Freon 12 44.5
Organic Solvent 11.0
Tetramethylsilane 44.5

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