Natural emulsifying agent

Abstract

A natural emulsifier is described, which consists of fat acids of olive oil esterified with 6 mol ethoxylated cetyl stearyl alcohol. Such an emulsifier is particularly suitable for the cosmetic field.

Description

FIELD OF THE INVENTION

The present invention refers to a natural emulsifying agent, exhibiting a pleasant silk touch, good hydrating properties and a good smoothness, particularly for the use in the cosmetic field.

BACKGROUND OF THE INVENTION

Most cosmetic products include simultaneously water soluble and oil soluble compounds, which should be mixed together and which cannot separate into two or more phases, since otherwise the action is no longer so effective as in mixed form. Therefore, they should form an emulsion. The formation of an emulsion often requires the use of an emulsifier.

Up to now a lot of synthetic emulsifiers have been used. Among them, emulsifier based on alcohols, fat acids or ethoxylated esters are usually employed. The use of such substances can be harmful for human skin and their viscosity is sometimes too high. The advantage of using a functional ingredient derived from olive oil is due to the high similarity of fatty acids contained in olive oil with the acids in the skin. This is the reason why the product has a high compliance with the human skin, good absorption and a light skin feeling.

A few natural emulsifiers have been tested, but either they are not so effective as the synthetic ones or they should be used in large amounts.

ABSTRACT OF THE INVENTION

The above problems can be overcome by means of this invention, concerning a natural emulsifying agent, characterised in that it consists of fat acids of olive oil esterified with 5 to 8 (preferably 6) mol ethoxylated cetyl stearyl alcohol.

Particularly, this invention refers to the use of such emulsifying agent in the cosmetic field.

BEST WAY OF CARRYING OUT THE INVENTION

This invention refers to a natural emulsifier, consisting of fat acids of olive oil esterified with 5 to 8 mol ethoxylated cetyl stearyl alcohol. Particularly effective is an emulsifier wherein the said fat acids are esterified with 6 mol ethoxylated cetyl stearyl alcohol. The inventive emulsifier can be used in emulsified, hyperfluid, fluid and consistent oil/water systems and it can be used in emulsified and non-emulsified products for use on skin, hair and mucous membranes.

According to this invention, the emulsifying agent can be used as coemulsifying agent in silicone containing mixtures, in water/oil mixtures and/or in water/oil/water mixtures.

It could be used in any kind of cosmetics, particularly in cosmetic creams, creams for hair, creams for hand, foot and nail care, sun protection products, after sun products, professional cosmetic and aesthetics products, dyes, zinc oxide creams, shave creams, liquid and solid soaps and hair-removing creams.

The emulsifying agent according to this invention can also be used in make-ups, like compact powders, sticks, lip-sticks, mascara, eyeliner, fluid and creamy foundations. It can be used also for shampoos and masks for hair.

According to a particular aspect of the present invention, it can be used as consistent wax in anhydrous products. Examples of such products are lipid gels, lipsticks and masks for hair. Moreover, it can be used as wax for modifying the smoothness or as an emollient.

The preparation of the emulsifying agent according to this invention starts from pure olive oil esterified with 6 mol ethoxylated cetylstearilic acid according to the conventional methods of organic chemistry.

The obtained ester is able to perform a gel network into water, which stabilises the emulsion, provides a fast absorption effect and hinders the skin water loss.

It can be added in an amount between 0.5 and 8%, with 0-30% of a lipid phase, having different polarity values.

Under 0.5%, the emulsifying agent has no effect, whilst an addition over 8% is unuseful, since no improvement is noticed.

A low viscosity emulsion can be particularly appreciated, containing 0.5 to 1% of the emulsifying agent of this invention (hyperfluid systems). Also particularly preferred is a 5-30% lipid phase, containing 2 to 3% of the emulsifying agent (very fluid structures). Particularly preferred is also an emulsion containing 3 to 5% of the emulsifying agent of the invention (consistent emulsion).

The emulsifying agent of the present invention can be used as unique emulsifying, with no gelling in the aqueous phase, up to 8%.

The use as unique emulsifying agent is very simple: the fat phase is molten at 70-75° C.; the aqueous phase is mixed at 70° C.; under stirring and homogenisation, the fat phase is added to the aqueous one, then it is homogenised for 5-10 minutes, then it is cooled under stirring.

This invention is now described more in depth by the following examples, which are by no means intended to limit the invention.

EXAMPLE 1

A day cream was prepared by mixing the following phases :

	PHASE A:	Emulsifying agent according	5.0%
		to the invention:
		Octyldodecanol:	5.0%
		Isodecyl neopentanoate:	5.0%
		Dimethicone:	2.0%
		Miristyl Miristate:	2.0%
		Cetearyl alcohol:	2.0%
	PHASE B:	Demineralised water	bal. to 100%
		Carbomer:	0.2%
		Propylene glycol:	3.0%
		Preservatives:	as needed
		30% NaOH:	as needed
	PHASE C:	Perfume:	as needed.

First of all phase A and B were prepared, then they were both heated up to 60° C. The phases were mixed and homogenised, at the same temperature, then they were cooled down quickly under stirring. Subsequently, phase C was added.

The obtained mixture was odourless, white, in even chips and exhibited a drop point at 63° C. After stabilisation at 40° C., the mixture did not exhibit any change in properties after two months.

EXAMPLE 2

A consistent cream was prepared, containing the following components:

	PHASE A:	Emulsifying agent according	5.0%
		to the invention:
		GMS/PEG 100 stearate:	2.0%
		Cetyl palmitate:	2.0%
		Cetearyl alcohol:	1.0%
		Oil of sweet almond:	5.0%
		Isononyl nonanoate:	10.0%
		Dimethicone:	2.8%
		Refined olive oil:	3.0%
	PHASE B:	Demineralised water:	Balance
			to 100%
		Glycerin:	3.0%
		Carbomer Ultrez 10:	0.3%
		Panthenol:	0.5%
		Aloe:	0.2%
	PHASE C:	30% NaOH:	to pH
			5.5 ± 0.3
	PHASE D:	EUROL BT ™	0.3%
	PHASE E:	Perfume:	as needed
		Preservatives:	as needed

Phases A and B were heated up to 70-75° C. subsequently phase A was added to phase B and they were homogenised for 5 minutes. The mixture was cooled down slowly under stirring and phases C, D and E were added.

EXAMPLE 3

A Light cream was prepared, which contained the following phases:

	PHASE A:	Emulsifying agent	2.0%
		according to the invention:
		Jojoba oil:	6.0%
	PHASE B:	Demineralised water:	balance to 100%
		Xanthan gum:	0.2%
		Hydroxypropyl starch	2.0%
		phosphate:
	PHASE C:	Preservatives:	as needed
		perfume	as needed

Phase A and phase B were prepared separately and heated up to 70° C. They were mixed and homogenised at 70° C. for 5 minutes. Subsequently, the obtained compound was cooled down quickly under stirring and phase C was added.

EXAMPLE 4

A natural emulsion was prepared, containing the following phases:

	PHASE A:	Emulsifying agent according	5.0%
		to the invention:
		oil of peanuts:	4.0%
		oil of grape seeds:	3.0%
		oil of corn:	2.0%
		oil of jojoba:	5.0%
		tocopherol acetate:	0.5%
		ceramide III:	0.3%
	PHASE B:	demineralised water:	balance to
			100%
		hydroxypropyl	2.0%
		starch phosphate:
		xanthan gum:	0.4%
		glycerin:	3.0%
		aloe 10:1:	0.3%
	PHASE C:	Preservatives:	as needed
		bisabolol:	0.2%
		perfume:	as needed

Phases A and B were separately prepared and heated up to 70° C. They were mixed and homogenised for 5 minutes, the they were cooled down quickly under stirring. Finally, phase C was added.

EXAMPLE 5

A fluid emulsion was prepared, which contained the following components

	PHASE A:	Emulsifying agent according	2.0%
		to the invention:
		isononyl isononanoate:	6.0%
	PHASE B:	Demineralised water:	balance
			to 100%
		xanthan gum:	0.4%
	PHASE C:	Preservatives:	as needed
		perfume:	as needed

Phases A and B were separately prepared and heated up to 70° C. They were mixed and homogenised for 5 minutes, then cooled down quickly under stirring. Finally, phase C was added.

EXAMPLE 6

An oil-free cream was prepared, which contained the following components:

	PHASE A:	Emulsifying agent according	2.0%
		to the invention:
		OLIVEM 900 ™	0.5%
		Sorbitan palmitate	0.4%
		Cetyl palmitate	0.9%
		Cetyl alcohol	0.2%
		Isononyl isononanoate	6.0%
	PHASE B:	Demineralised water:	balance
			to 100%
		Xanthan gum:	0.45
	PHASE C:	Preservatives:	as needed
		Perfume:	as needed

Phases A and B were separately prepared and heated up to 70° C. They were mixed and homogenised for 5 minutes, then cooled down quickly under stirring. Finally, phase C was added.

EXAMPLE 7

A hydrating lotion was prepared, which contained the following components:

	PHASE A:	Emulsifying agent	4.0%
		according to the invention:
		Oil of jojoba:	5.0%
		Oil of wheat germ:	10.0%
	PHASE B:	Demineralised water:	balance to 100%
		Aqua algae:	10.0%
		Xanthan gum:	0.3%
	PHASE C:	Preservatives:	as needed
		Perfume:	as needed

Phases A and B were separately prepared and heated up to 70° C. They were mixed and homogenised for 5 minutes, then cooled down quickly under stirring. Finally, phase C was added.

EXAMPLE 8

An anti-age fluid was prepared, which contained the following components:

	PHASE A:	Emulsifying agent	3.0%
		according to the invention:
		Isopropyl miristate:	4.0%
		Cyclomethicone:	1.0%
		Shea butter:	1.0%
		Dimethicone:	1.5%
		Mineral oil:	12.0%
		Ceramide III:	0.5%
		Tocopheryl acetate:	0.5%
	PHASE B:	Demineralised water:	balance to 100%
		Glycerin:	3.0%
		Carbomer 2050:	0.5%
		NaOH:	as needed
	PHASE C:	Eurol BT ™:	0.25%
		Soja extract:	2.0%
		Preservatives:	as needed
		Perfume:	as needed

Phases A and B were separately prepared and heated up to 70° C. They were mixed and homogenised for 5 minutes, then cooled down quickly under stirring. Finally, phase C was added.

EXAMPLE 9

A hair-care cream was prepared, which contained the following components:

	PHASE A:	Emulsifying agent	5.0%
		according to the invention:
	PHASE B:	Demineralised water:	balance to 100%
		aloe:	0.2%
		citric acid:	to pH 4.5
		hydroxypropyl guar:	0.3%
		panthenol:	0.5%
		hydroxyethylcellulose:	0.6%
	PHASE C:	DC 2-8177 ™:	2.0%
	PHASE D:	preservatives:	as needed

Phases A and B were separately prepared, dispersed in hot water and heated up to 70° C. They were mixed and homogenised for 5 minutes, then cooled down quickly under stirring. Finally, phases C and D were added.

EXAMPLE 10

A hyper-fluid system was prepared,which contained the following components:

	PHASE A:	Emulsifying agent	2.0%
		according to the invention:
		Oil of sweet almonds:	5.0%
	PHASE B:	Demineralised water:	balance to 100%
		Glycerin:	5.0%
		Microcrystalline cellulose,	1.5%
		carboxy
		Methylcellulose:
		Xanthan gum:	0.15%
	PHASE C:	Preservative	as needed

Phase A and phase B were prepared separately and heated at 75-80° C. Phase A was slowly added to phase B. The mixture was homogeinised for a couple of minutes. The compound was cooled under slow stirring to 30-35° C. and phase C was added.

Claims

1. A natural emulsifier, characterised in that it consists in fat acids of olive oil esterified with 5 to 8 mol ethoxylated cetyl stearyl alcohol.

2. A natural emulsifier as in claim 1., characterised in that it consists of fat acids of olive oil esterified with 6 mol ethoxylated cetyl stearyl alcohol.

3. Use of an emulsifier as claimed in claim 1. in the cosmetic field.

4. Use of an emulsifier as claimed in claim 1., for the preparation of emulsified, hyperfluid, fluid and consistent oil/water systems.

5. Use as in claim 3. in emulsified and non-emulsified products for use on skin, hair and mucous membranes.

6. Use as in claim 3. as coemulsifying agent in silicone containing mixtures, in water/oil mixtures and/or in water/oil/water mixtures.

7. Use as in claim 3. in cosmetic creams, creams for hair, creams for hand, foot and nail care, sun protection products, after sun products, professional cosmetic and aesthetics products, dyes, zinc oxide creams, shave creams, liquid and solid soaps and hair-removing creams.

8. Use as in any claim 3. in make-ups, like compact powders, sticks, lip-sticks, mascara, eyeliner, fluid, creamy foundations shampoos and masks for hair.

9. Use as in any claim 3. as consistent wax in anhydrous products.

10. Use as in claim 9, for the preparation of lipid gels, lipsticks, masks for hair, wax for modifying the smoothness and emollients.

11. Process for the preparation of an emulsifier according to claim 1, characterised in that it comprises reacting pure olive oil with 6 mol ethoxylated cetylstearilic, so as to obtain an ester product.

12. Use as in any claim 3, characterised in that such an emulsifier is added in an amount between 0.5 and 8%, with 0-30% of a lipid phase, having different polarity values.

13. A day cream characterised in that it contains

14. A consistent cream, characterised in that it contains the following components:

15. A Light cream, characterised in that it contains the following phases:

16. A natural emulsion, characterised in that it contains the following phases:

17. A fluid emulsion, characterised in that it contains the following components

18. An oil-free cream, characterised in that it contains the following components:

19. A hydrating lotion, characterised in that it contains the following components:

20. A n anti-age fluid, characterised in that it contained the following components:

21. A hair-care cream, characterised in that it contains the following components:

22. A hyper-fluiid system characterised in that it contains the following components: