GB2480103A

GB2480103A - Aerosol compositions

Info

Publication number: GB2480103A
Application number: GB1007660A
Authority: GB
Inventors: John Guy
Original assignee: Reckitt and Colman SA; Reckitt and Colman Products Ltd
Current assignee: Reckitt Benckiser France SAS; Reckitt Benckiser Healthcare UK Ltd
Priority date: 2010-05-07
Filing date: 2010-05-07
Publication date: 2011-11-09
Anticipated expiration: 2030-05-07
Also published as: EP2566525A1; MX2012012968A; BR112012028456A2; GB2480103B; KR20130101445A; RU2012152655A; GB201007660D0; WO2011138620A1; AU2011101757A4; US20130090283A1; CA2797339A1; ZA201208127B

Abstract

An aerosol composition with compressed gas propellant that is free of hydrocarbon propellants comprises: 85.0wt% to 98.0wt% water; 0.01.wt% to 10.00wt% low MW alcohol; 0.001 w1 to 5.00wt% surfactant; 0.001 wt to 5,00wt% fragrance; 0.00wt% to 5.00wt% borate salt; 0.001 wt% to 5.00wt% preservative. The borate salt is preferably sodium borate. The composition may also comprise sodium molybdate. The compressed gas propellant may be air or nitrogen and the composition is preferably an air freshening composition. Also shown is a dispenser comprising the composition and the compositions use as an anti-corrosion aerosol.

Description

Aerosol Com.oositions The present inventjon rotates to household aerosol compositions using a compressed gas propellant that are free of hydrocarbon propellants, and particularly the use of such compositions 4th metal aerosol canister that are capable of corrosion.

Many household products designed for use in domestic applications, on hard surfaces, for fabric care: as carpet cleaners are sold in aerosol containers. A few aerosol products are sold in glass or plastic containers. Most containers are metal canisters: most canisters are steel, usually tinplated (tin coated): others are aluminium (which are the most expensive financially and environmentally). Tinplated metal canisters may also be lacquered with a resin on the inside to provide additional protection Examples of household aerosol products are air fresheners! car products: household iS products: fabric care) waxes, polishes) insecticides, ironing aids: fabric refreshers, and carpet cleaners.

Tinplating protects the metal canisters against rapid corrosion. hut tends itself to dissolve m aqueous based formulations. With aerosol formulations containing less than 50 ppm of ter, corrosion of tinplated canisters is not generally a serious problem. However, if the water content of an aerosol product is more than 50 ppm (and particularly when greater than 150 ppm), problems due to corrosion are more likely to occur.

The world market trend is to move towards water-based aerosol formulations. This is due mainly to a regulatory issue; the reductions of the volatile organic content (VOC) levels in aerosol product has involved the reduction of the solvent level in many products and an increase of the water content. Currently it is desirable to have a VOC propellant level of below 30% wfw not only to reduce cost but also to comply with increasingly stringent regulatory limits (e.g. a maximum of 24.5% w/w in the USA for air freshener products).

Whilst not presently driven by regulatory concerns, it is desirable to use non\JOC propellant such as compressed gas (compressed gas referring to compressed air, compressed nitrogen or mixtures thereof) since this is of less impact to the environment, less expensive than VOC propellant and safer to handle from a manufacturing perspective as well as a consumer perspective due to the likely reduction in flammability.

Although compressed gas propellant aerosols have wel.l documented performance drawbacks, such as poor particle break up, risk of propellant discharge, etc, there is a further problem of corrosion due to the presence of large quantities of water in the formulation.

Indeed, many producers of commercially available household compressed gas aerosol products use an aeroso canister made of auminium rather than tinpated steel csnsters that are more commonly used for household aerosol products. Whilst aurninUm canisters are resistant to corrosion they suffer from two significant drawbacks, firstly the production or .4-,r, 4.-. L with phosphate corrosion inhibitors but these carry the financial penalty of requiring internafly lacquered cans to obtain satisfactory storage/corrosion performance.

Many corrosion inhibitors have been identified in the prior are for use with VOC propellant S systems, but little is known about the production and/or use of corrosion inhibitors in a compressed gas propellant system.

It has been found that a borate salt (such as sodium borate) is particularly effective 1 0 However when using sodium borate as a corrosion inibitor it has been discovered that standard emulsifiers such as sorbitan monooleate used in combination with sodium borate at propellant (butane/propane) levels of below 30% w/w results in very coarse particle sizes and excessive foaming, making the product unsuitable as an aerosol air freshener.

According to a first aspect of the present invention, there is provided an aerosol composition with compressed gas propellant that is free of hydrocarbon propellants, wherein the composifion comprises: 85.Owt% to 93.Owt% water; 0.01 wt% to 1 0.OOwt% low MW alcohol; 0,00iwt to 5.OOwt% surfactant; 0.001 wt to 5.OOwt% fragrance; 0.OOlwt to 5.OOwt% borate salt; 0.001 wt to 5,00wt% preservative.

Preferably the composition is an air freshening composition.

Preferably the composihon further comprises 0.OOwt% to 0.5wt% sodium molybdate, and even more preferably comprises O.Owt% to 0.lwt% sodium molybdate.

Preferably the composition comprises: 9OMwt% to 95.Owt% water; I.OOwt% to 7.00wt% low MW alcohol; 0.Olwt to 3.OOwt% surfactant: 0.OOSwt to 3,00wt% fragrance: 0.OOSvvt to 1.OOwt% borate salt; 0,00wt% to 0.Swt% sodium rnolyhdate; 0.001 wt to 1.OOwt% preservative.

Preferably the composition consists essentially of.

90.Owt% to 95.Owt% water;

I

1.00w?% to 7.OOwt% low MW alcohol; 0.01w? to 3.Oowt% surfactant; 0.005w? to 3.OOwt% fragrance; 0.005w? to 1.OOwt% borate salt; 0.00wt% to 0.Swt% sodium molybdate; 0.OOlwt to 1.OOwt% preservative; wherein the wt% of the composition adds up to exactly iOOwt%.

Even more preferably the composition consists essentially of; 92.Owt% to 94.Swt% water, and most preferably 93. lwt% to 93.Swt%; 3.Swt% to 6.Swt% lOW MW alcohol, and most preferably substantiafly 5 Owt% ethanol; 0.3wt to 1.Owt% surfactant, and most preferably 1.Owt% to O.Swt%; 0.1w? to 1.Owt% fragrance, and most preferably substantially 0,2Swl%; 0.1w? to 1.OOwt% borate salt, and most preferably substantially O.4wt% sodium borate; 1 5 0.OOwt% to 0.Swt% sodium molybdate, and most preferably substantially 0.Owt%; 0,Iwt to 0.Swt% preservative, and most preferably substantially 0.2Swt%; wherein the wt% of the corn position adds up to exactly I OOwt%.

The compressed gas propellant used with the composition is preferably compressed air or compressed nitrogen or a mixture thereof.

The borate salt for use in the compositions of the present invention is preferably sodium borate, although other commercially available borate salts may be used either alone or in combination with sodium borate. 2.5

The low MW alcohol for use in the compositions of the present invention is preferably ethanol, although other commercially available low MW alcohols may be used either alone or in combination with ethanol.

Composition to be used with steel aerosol canisters, tin-plated steel canisters or other metal canisters that are capable of rusting ie not aluminium canisters, galvanised canisters etc According to a second aspect of the present invention, there is provided an aerosol dispenser wherein the dispenser is a steel aerosol canister, tin-plated steel canister or other metal canister capable of corrosion and wherein the composition is an air freshener propelled, in use, by compressed gas propellant that is free of hydrocarbon propellants the air freshener composition comprising: 85.Owt% to 98.Owt% water; 0.0iM% to 10.OOwt% low MW alcohol; 0.001w? to 5.OOwt% surfactant; 0,00lwt to S.OOwt% fragrance; o OOlwt to S.OOwt% sodium borate; ftOOlwt to 5.OOwt% preservative.

For the avoidance of doubt, corrosion is understood in the context of the present invention to refer to the disintegration of an engineered material into its constituent atoms due to chemical reactions with its surroundings, in particular in the context of metal canisters corrosion means electrochemical oxidation of the metal canister in reaction with an oxidant such as oxygen.

I 0 Preferably the dispenser is a steel aerosol canister or a tin-plate steel aerosol canister.

Preferably the composition further comprises 0.OOwt% to 0Swt% sodium molybdate, and even more preferably comprises 0..Owt% to 0.lwt% sodium molybdata According to a third aspect of the present invention there is provided an anti-corrosion air freshening composition for use with a compressed gas propellant in a steel aerosol canister, tin-plated steel canister or other metal canister capable of corrosion wherein the composition comprises: 85.Owt% to 98.ljwt% water; 0.01 wt% to lO,OOwt% low MW alcohol; 0.OOlwt. to 5.OOwt% surfactant; 0.001 wt to 5.OOwt% fragrance; 0.OOlwt to 5.00wt% sodium borate; 0.OOlwt to 5.OOwt% preservative.

Preferably the dispenser is a steel aerosol canister or a tin-plate steel aerosol canister.

Preferabiy the composition further comprises 0,00wt% to 0.5wt% sodium molybdate, and even more preferably comprises 0,Owt% to 0.lwt% sodium molybdate.

The surfactant(s) used in the composition(s) of the present invention are preferably a non-ionic surfactant. More preferably the non-ionic surfactant(s) are ethoxylates of fatty alcohols, niost preferably saturated C.3.20 alcohols and the like, and most preferably saturated so-C13 alcohols such as those available from BASF under their LUTENSOL® brand of surlactants.

The preservative(s) used in the composition(s) of the present invention are preferably formed from lox toxicity biocides suitable for use in water-based canister systems such as NIPACIDE® available from CLARIANT or PROXEL® available from ARCH.

According to a fouflh aspect of the present invenbon, there is provided a method of preventing corrosion of a metal aerosol canister capable of corrosion wherein the method involves the step of introducing a composition according to the first or third aspect of the present invention into said aerosol container along with a compressed gas propellant that is free of hydrocarbon propellants, The following description and examples are intended merely to illustrate the invention and are not intended to be l!mitng. Since modifications of the disclosed embodiments incorporating the spirit and substance of the invention may occur to persons skilled in the art, the invention 1 0 should be construed to include everything within the scope of the appended claims and equivalents thereof.

T example formulations were prepared as set out below.

Exgmple 1 250m1 of composition were made according to the following proportions: 93.lwt% water; 5.Owt% ethanol; 1 Mwt% LUTENSOL® T089; 0.2Swt% fragrance; 04wt% sodium borate: 0.25wt% NIPACIDE® BIT 20; wherein the wt% of the composition adds up to exactly 1 OOwt%. rfl2

250M of composition were made according to the foilowing proportions: 93.6wt% water; 5.Owt% ethanol; 0.Swt% LUTE NSOL® T089; 0.2Swt% fragrance; 0.4wt% sodium borate: 0. 25wt% preservative; wherein the wt% of the composition adds up to exactiy lOOwt%.

Each sample was then loaded into a tin-plated steel aerosol canister having a iS bar pressure rating and filled with compressed air until the internal pressure within the canister reached 9.0 bar © 20C.

Samples of examples 1 & 2 were then held in a secure storage container at respective constant temperatures of 20°C, 30°C and 40°C for a period of 10 weeks and then tested for spray performance and, once exhausted, corrosion.

All samples of examples I & 2 at all temperatures showed no signs of impairment after the storage, they all sprayed within consumer acceptable spray performance parameters and rio canisters showed any signs of corrosion therein All of the features disclosed in this specification (including any accompanying claims, abstract 1 0 and drawings), and/or all of the steps of any method or process so disclosed, may be combined in any comnbinabon, except combinations where at least some of such features and/or steps are mutually exclusive.

Each feature disclosed in this specification (including any accompanying claims, abstract and drawings) may be replaced by alternative features serving the same. equivalent or similar purpose, unless expressly stated otherwise. Thus, unless expressly stated otherwise, each feature disclosed is one example only of a generic series of equivalent or similar features.

The invention is not restricted to the details of the foregoing embodiment(s). The invention extends to any novel one, or any novel combination, of the features disclosed in this specification (including any accompanying claims, abstract and drawings), or to any novel one, or any novel combination, of the steps of any method or process so disclosed.

Claims

Claims 1. An aerosol composition wth compressed gas propellant that is free of hydrocarbon propellants. wherein the composition comprises; 85. Owt% to 98.Owt% water; 0.O1M% to 10 OOwt% ow MW alcohoi; 0.OOlwt to 5.OOwt% surfactant; 0.OOlwt to 5 OOwt% fragrance; ftOOlwt to 5 004% borate salt; 0.OOIwt to 5.OOwt% preservative.
2. An aerosol composition according to claim 1: wherein the composition is an air freshening composition.
3. An aerosol composition according to claim 1 or claim 2, wherein the composition further comprises 0.OOwt% to 0Swt% sodium molybdate, and even more preferably comprises 0.Owt% to 0.lwt% sodium molybdate,
4. An aerosol composition according to claim 1, wherein the composition comprises: 90.Owt% to 95.Owt% water; 1.OOwt% to 7.OOwt% low MW alcohol; 0,Olwt to 3,00wt% surfactant; 0.OOSwt to 3.OOwt% fragrance; 0,00Swi. to 1.OOwt% borate salt; 0.OOwt% to O,Swt% sodium molybdate; 0.001 wt to 1.OOwt% preservative.
5. An aerosol composition according to claim 1 wherein the composition consists essentially of: 90.Owt% to 95.Owt% water: 1.OOwt% to 7.OOwt% low MW alcohol; 0,Olwt to 3OOwt% surfactant; 0.OO5wt to 3.OOwt% fragrance; 0 OOSwt to 1.OOwt% borate salt; 0,00wt% to 0.Swt% sodium molybdate; 0,00Th4 to 1.OOwt% preservative: wherein the wt% of the composition adds up to exactly lOOwt%.
6. An aerosol composition according to claim 1, wherein the composition consists essentially of: g3,lwt% to 93,Swt% water; substantially 5.Owt% ethanol; I JJwt% to O.Swt% surfactant; substantiafly O2Swt% fragrance; substantially O4wt% sodium borate; S 025wt% preservative; 4ierein the wt% of the compusUion adds up to exactly 1 Oflwt% An aerosol composition according to any preceding claim, wherein the compressed gas propellant used with the composition is compressed air or compressed nitrogen or a I 0 mixture thereof, 8. An aerosol composition according to any preceding claitn, wherein the composition is orovided in one of a steel aerosol canister a tin-plated steel canistet or another metal canisters that is capable of rusting.9. An aerosol dispenser wherein the dispenser is a steel aerosol canister, tin-plated steel canister or other metal canister capable of corrosion and wherein the composition is an air freshener propelled, in use, by compressed gas propellant that is free of hydrocarbon propellants, the air freshener composition compdsing; 85.Owt% to 980wt% water; O.Olwt% to lOJJOwt% low MW alcohol; 0.OOIwt to 5.OOwt% surfactant; 0.QOlwt to 5.OOwt% fragrance; 0.OOlwt to 5XJOwt% sodium borate; O.OOlwt to 5.OOwt% preservative.10. An aerosol dispenser as claimed in claim 9, wherein the composition is as claimed in claim 1 or any claim dependent thereon.11. An anti-corrosion air freshening composition for use with a compressed gas propellant in a steel aerosol canister, tin-plated steel canister or other metal canister capable of corrosion wherein the composition comprises: 85.Owt% to 98.Owt% water; 0.Oiwt% to 1O.OOwt% low MW alcohol; 0,00Iwt to 5.OOwt% surfactant; 0.OOlwt to 5M0wt% fragrance; OOOIwt to 5.OOwt% sodium borate; O.OOlwt to 5.OOwt% preservative.12. A method of preventing corrosion of a meta aerosol canister capable of corrosion wherein the method involves the step of introducing a composition according to any of claims 1-8 or 11 into said aerosol container along with a compressed gas propellant that is free of hydrocarbon propeilants. Dispensers containing said composition is also described, c 1 (1