LOOSE WAX POWDER AND PROCESS FOR MANUFACTURING SUCH A POWDER

Abstract

The present invention relates to a loose wax powder obtained from renewable materials, in which the particles have a particle size such that: the D90v is less than 20 microns the SPAN calculated by the formula (D90-D10)/D50 is less than 1.8 the volume percentage of particles with a diameter of at least 30 microns is less than 5%. The present invention also relates to a process for preparing such a powder.

Claims

1. A loose wax powder obtained from renewable materials, wherein particles of said loose wax powder have a particle size such that: the D90v is less than 20 micron the (D90-D10)/D50 result is less than 1.8 the volume percentage of particles with a diameter of at least 30 micron is less than 5%, and wherein the wax is selected from the group consisting of fatty acids, fatty acid esters, fatty acid amides, hydrogenated oils, and mixtures thereof.

2. The powder as claimed in claim 1, wherein the volume-median diameter D50v is within the range from 2 to 20 microns.

3. The powder as claimed in claim 1, wherein the SPAN is less than 1.5.

4. The powder as claimed in claim 1, wherein the content of particles with a diameter of at least 30 micron is less than 3%, preferably less than 2%, preferably less than 1%.

5. The powder as claimed in claim 1, wherein the particles are of substantially spherical shape.

6. The powder as claimed in claim 5, wherein said particles have a sphericity index Is within the range from 1 to 1.2, the Is being measured by the ratio between the largest diameter of the particle to the smallest diameter of the particle, the diameters being measured by SEM.

7. The powder as claimed in claim 1, wherein the surface of the wax particles is smooth.

8. The powder as claimed in claim 1, wherein the fatty acids included in the composition of the wax are of plant origin.

9. The powder as claimed in claim 1, wherein the wax has a melting point Tm of greater than 70° C.

10. The powder as claimed claim 1, wherein the wax comprises at least 70% of ricinoleic acid.

11. The powder as claimed in claim 1, wherein the wax includes hydrogenated castor oil and/or hydroxystearamide monoethanolamine.

12. The powder as claimed in claim 1, wherein the particles have an apparent specific surface area within the range from 1 to 20 m2/g.

13. The powder as claimed in claim 1, wherein the oil uptake of said powder, measured according to the standard NF ISO 787-5:1980 is within the range from 0.3 to 0.9 g of oil/g of powder.

14. The powder as claimed in claim 1, wherein it contains at least one additive chosen from cosmetic raw materials, preferably of renewable origin.

15. The powder as claimed in claim 1, wherein it is totally derived from renewable materials.

16. A process for manufacturing wax-based loose powder particles as defined in claim 1, said process comprising the following successive steps: melting a wax at a temperature above the melting point Tm of the wax, to ensure that all of the material is molten; spraying the molten wax through a nozzle in a spraying tower; cooling the sprayed wax in less than 5 seconds so that the wax sets in the form of loose powder particles under the effect of a cooling carrier gas; separating the powder from the carrier gas; recovering the loose wax powder.

17. The process as claimed in claim 16, in which the nozzle is a rotary nozzle or a twin-fluid nozzle.

18. The process as claimed in claim 16, wherein the spraying step is performed in the presence of a co-injection of hot gas with a temperature in the range from Tm to Tm+180° C., Tm being the melting point of the wax.

19. The process as claimed in claim 16, in which the spraying tower is fed with a cooling carrier gas with a temperature in the range from 10° C. to 50° C., preferably from 10 to 35° C., preferably from 15 to 25° C.

20. The process as claimed in claim 16, wherein said cooling comprises spray-cooling, cold spraying or cold atomization of said molten wax.

21. (canceled)

22. (canceled)

23. The cosmetic, pharmaceutical or perfumery composition of claim 27, wherein said composition is a reinforcing and/or spreading agent in cosmetic formulations, in stick form.

24. The cosmetic, pharmaceutical or perfumery composition of claim 27, wherein said composition is a compacting agent in cosmetic formulations, in pressed powder form.

25. The cosmetic, pharmaceutical or perfumery composition of claim 27, wherein said composition is a mattifying agent.

26. The cosmetic, pharmaceutical or perfumery composition of claim 27, wherein said composition is a covering agent.

27. A cosmetic, pharmaceutical or perfumery composition, wherein said composition comprises powder particles as defined in claim 1.

28. The composition as claimed in claim 27, said composition being a colored, uncolored or transparent product selected from the group of products consisting of: makeup products for the human face and body, such as foundation, tinted cream, loose or compact powder, eyeshadow, mascara, eyeliner, lipstick; care products for the human face and body, cream, milk, lotion, mask, scrubbing product, cleansing and/or makeup-removing products, deodorants, antiperspirants, antiperspirants, shaving products, hair-removing products; haircare products, shampoos, hairsetting products, hairstyle hold products, antidandruff products, products for preventing hair loss, products for combating dryness of the hair, hair dyes, bleaching products; perfumery products, fragrance, milk, cream, and loose or compact fragranced powder.

Description

DETAILED DESCRIPTION

[0030] More precisely, one subject of the present invention is thus a loose wax powder obtained from renewable materials, in which the particles have a particle size such that: [0031] the D90v is less than 20 micron [0032] the SPAN calculated by the formula (D90-D10)/D50 is less than 1.8 [0033] the volume percentage of particles with a diameter of at least 30 microns is less than 5%.

[0034] Advantageously, the volume-median diameter D50v is within the range from 2 to 20 microns, preferably from 5 to 18 microns, preferably from 7 to 15 microns, preferably from 10 to 15 microns.

[0035] Advantageously, the SPAN is less than 1.5, preferably less than or equal to 1.2.

[0036] Advantageously, the content of particles with a diameter of at least 30 microns is less than 3%, preferably less than 2%, preferably less than 1%.

[0037] Advantageously, the powder particles according to the invention are of substantially spherical shape, and preferably of spherical shape.

[0038] Advantageously, said particles have a sphericity index Is within the range from 1 to 1.2, preferably from 1 to 1.1, preferably substantially equal to 1, the Is being measured by the ratio between the largest diameter of the particle to the smallest diameter of the particle, the diameters being measured by SEM.

[0039] Advantageously, the wax particles have a smooth surface. In particular, the surface of the particles of the invention is free of roughness such as that which may be observed in the case of milled particles.

[0040] Advantageously, the wax is chosen from natural hydrocarbon-based waxes comprising one or more of the following functions: ester, amide, acid and/or hydroxyl.

[0041] Advantageously, the wax is chosen from fatty acids, fatty acid esters, fatty acid amides, hydrogenated oils, and mixtures thereof.

[0042] Advantageously, the fatty acids included in the composition of the wax are of plant origin.

[0043] Advantageously, the wax has a melting point Tm of greater than 70° C., preferably within the range from 70 to 160° C., preferably from 75 to 150° C., preferably from 80 to 140° C., preferably from 80 to 130° C., preferably from 80 to 120° C.

[0044] Advantageously, the wax includes at least 70% of ricinoleic acid, preferably at least 80%, preferably at least 90%, preferably at least 95% of ricinoleic acid.

[0045] The wax includes hydrogenated castor oil and/or hydroxystearamide monoethanolamine.

[0046] Advantageously, the particles have an apparent specific surface area within the range from 1 to 20 m2/g, preferably from 1 to 10 m2/g, preferably from 1 to 5 m2/g.

[0047] Advantageously, the powder according to the invention has an oil uptake, measured according to the standard NF ISO 787-5:1980 which is within the range from 0.3 to 0.9 g of oil/g of powder, preferably from 0.4 to 0.7 g of oil/g of powder, preferably from 0.4 to 0.6 g of oil/g of powder.

[0048] Advantageously, the powder contains at least one additive chosen from cosmetic raw materials, preferably of renewable origin.

[0049] Advantageously, the powder is entirely derived from renewable materials.

[0050] A subject of the present invention is also a process for manufacturing loose wax-based powder particles, said process comprising the following successive steps: [0051] melting of the wax at a temperature above the melting point Tm of the wax, preferably at a temperature above Tm+10 to ensure that all of the material is molten; [0052] atomization or spraying of the molten wax through a nozzle in a spraying tower; [0053] cooling of the sprayed wax in less than 5 seconds so that the wax sets in the form of loose powder particles under the effect of a cooling carrier gas; [0054] separation of the powder from the carrier gas, notably by a cyclone and/or a filter of suitable granulometry which allows the separation of the gas and the powder; [0055] recovery of the loose wax powder.

[0056] Advantageously, the nozzle is designed to ensure the fluidity of the wax during its spraying in the form of microdroplets, said nozzle being a rotary nozzle or a twin-fluid nozzle, preferably a rotary nozzle.

[0057] Advantageously, the spraying step is performed in the presence of a co-injection of hot gas, such as hot air, with a temperature in the range from Tm to Tm+180° C., Tm being the melting point of the wax, preferably from Tm to Tm+175° C., preferably from Tm to Tm+150° C.

[0058] Advantageously, the spraying tower is fed with a cooling carrier gas with a temperature in the range from 10° C. to 50° C., preferably from 10 to 35° C., preferably from 15 to 25° C.

[0059] Advantageously, the loose wax powder according to the invention is manufactured by spray-cooling, cold spraying or cold atomization of said molten wax, preferably according to the spray-cooling process described above according to the invention.

[0060] A subject of the present invention is also the use of powder according to the invention in cosmetic, pharmaceutical or perfumery products.

[0061] For example, the powder may be used: [0062] as a reinforcing and/or spreading agent in cosmetic formulations, notably those in stick form; [0063] as a compacting agent in cosmetic formulations, notably those in pressed powder form; [0064] as a mattifying agent; and/or [0065] as a covering agent.

[0066] A subject of the present invention is also a cosmetic, pharmaceutical or perfumery composition, characterized in that it comprises powder particles as defined above.

[0067] Said composition is advantageously a colored, uncolored or transparent product chosen from the following products: [0068] makeup products for the human face and body, such as foundation, tinted cream, loose or compact powder, eyeshadow, mascara, eyeliner, lipstick; [0069] care products for the human face and body, such as cream, milk, lotion, mask, scrubbing product, cleansing and/or makeup-removing products, deodorants, antiperspirants, antiperspirants, shaving products, hair-removing products; [0070] haircare products, such as shampoos, hairsetting products, hairstyle hold products, antidandruff products, products for preventing hair loss, products for combating dryness of the hair, hair dyes, bleaching products; [0071] perfumery products, such as fragrance, milk, cream, loose or compact fragranced powder.

[0072] The powder of the invention has sebum-controlling properties, and also a mattifying effect. It is thus perfectly suitable for cosmetic products intended for making up and/or caring for human skin, in particular of the face, the neck and the body, and also pharmaceutical or perfumery products (fragrancing powder for the body or the feet, for example).

[0073] Advantageously, the powders of the invention afford, by virtue of their spherical shape, their particle size, their smooth surface and their apparent specific surface area, improved sensory properties and also improved reinforcing and compacting properties and improved spreading properties, when compared with the powders of the prior art.

EXAMPLES

[0074] The examples that follow illustrate a preferred embodiment of the invention without, however, limiting it.

Powders Tested

According to the Invention

[0075] HCO test 1 or HCO 1: hydrogenated castor oil powder obtained by spray-cooling

[0076] HCO test 5 or HCO 5: hydrogenated castor oil powder obtained by spray-cooling

[0077] J100 test 5C: hydroxystearamide MEA powder obtained by spray-cooling

[0078] J100 test 6 L: hydroxystearamide MEA powder obtained by spray-cooling

Not according to the Invention

[0079] Orgasol® Green Touch: Porous spheroidal PA 11 powder (8-15 microns) obtained by milling

[0080] Orgasol® 2002 EXD Nat Cos: Porous spheroidal PA 12 powder (10 microns) obtained directly by anionic polymerization

[0081] Milled Jagrowax-100 or milled J100 is hydroxystearamide MEA obtained by milling in an air jet mill.

[0082] Crayvallac PC nonspherical hydrogenated castor oil powder (10 microns), obtained by milling in an air jet mill

TABLE-US-00001 TABLE 1 Particle size distribution of the powders tested Not according to the invention According to the invention J100 Orgasol ® Orgasol ® J100 J100 air jet Green 2002 EXD Crayvallac test test HCO HCO mill Touch NAT COS PC 5C 6L test 1 test 5 DIO 3.0 μm 9.9 μm 7.6 μm 3.9 μm 5.3 μm 5.2 μm 3.0 μm 6.4 μm D50 7.5 μm 14.5 μm 10.7 μm 11.6 μm 11.0 μm 10.5 μm 8.0 μm 14.8 μm D90 18.1 μm 19.4 μm 12.9 μm 24.2 μm 18.5 μm 18.3 μm 15.3 μm 26.5 μm SPAN 2 0.66 0.48 1.7 1.2 1.66 1.5 1.4 <30 97.6% 100% 100% 95.5% 99.5% 98.9% 97.9% 94.3% micron

[0083] Powders with a diameter substantially equal to 10 microns of PA 12 (not of renewable origin) and of PA 11 (of renewable origin) and of wax according to the invention or not according to the invention were evaluated in loose form by a trained sensory panel composed of 10 people

TABLE-US-00002 TABLE 2 Sensory analysis of the powders according to the invention: Study conditions: 0.006 g of each powder (±0.0002 g)/deposition of this amount on the forearm over an area S = 4.5 × 2 (cm) Evaluation scale: from 0 (lowest score) to 5 (best score) The Color criterion was evaluated between 0 (=white) and 5 (=yellow) HCO test HCO test Powder tested: J100 5c J100 6L 1 5 Parameter tested Color 4 5 1 2 Adhesion on uptake 4 4 5 5 Softness 2 2 3 3 Coverage 2 2 3 3 Mattness 4 4 5 5 Spreading 1 1 1 2

TABLE-US-00003 TABLE 3 Sensory profile of the powders according to the invention compared with the powders of the prior art: Evaluation scale: from 0 (lowest score) to 100 (best score) Orgasol ® Orgasol ® J100 J100 HCO HCO 2002 EXD Green 5C 6L test 1 test 5 NAT COS Touch Parameter tested Spreading 5 4 2 30 23 33 Coverage 20 16 30 20 26 24 Roughness 15 25 18 15 2 18 Creaminess 35 40 30 10 29 10 Velvet feel 25 15 20 25 20 15

[0084] FIG. 1 represents the sensory profile of the powders according to the invention compared with that of the powders of the prior art.

TABLE-US-00004 TABLE 4 Oil uptake of the powders tested and of the powders of the prior art Not according to the invention According to the invention J100 Orgasol ® Orgasol ® J100 J100 air jet Green 2002 EXD Crayvallac test test HCO HCO mill Touch NAT COS PC 5C 6L test 1 test 5 Oil — 85 80 50 44 34 40 56 uptake (g/100 g)

Formulation 1: Rich Day Cream

[0085] A

[0086] Demineralized water (73% by mass)

[0087] Chlorphenesin in phenoxyethanol sold under the reference Microcare PHC by the company Thor (1.0% by mass)

[0088] Glycerol sold by the company Interchimie (3% by mass)

[0089] B1

[0090] Cetearyl Alcohol and Cetearyl Glucoside sold under the reference Montanov 68 by the company SEPPIC (5.0% by mass)

[0091] Butyrospermum parkii butter sold under the reference Lipex Shea by the company

[0092] Unipex (3.0% by mass)

[0093] B2

[0094] Caprylic/capric triglycerides sold by the company Interchimie (10.0% by mass)

[0095] C

[0096] Sodium Acrylate/Sodium Acryloyldimethyl Taurate Copolymer & Isohexadecane & Polysorbate 80 sold under the reference Simulgel EG by the company SEPPIC (1.0% by mass)

[0097] D

[0098] Demineralized water (1 to 4% by mass)

[0099] D2

[0100] HCO or Jagrowax sensory powder (1 to 3% by mass)

Procedure

[0101] The ingredients of phase A are weighed out and added successively with stirring at 250 rpm at room temperature. The mixture is stirred for 1 hour to obtain a fluid texture and is then heated to 75° C. Phase B1 is heated to 75° C. and then added to phase A with stirring (250 rpm).

[0102] The mixture is stirred with an Ultra-Turrax blender (2510 rpm) so as to introduce phase B2 over a few minutes. After the introduction, the solution is returned to gentle stirring (300 rpm) and the temperature is reduced to 35° C. Phase C is added with vigorous stirring at 1280 rpm. The mixture is then placed at room temperature for the addition of phase D1, followed by D2 until the formulation is homogeneous.

Result

[0103] The day cream containing the experimental powders of HCO (or of Jagrowax J100) applies very well and has good glidance.

[0104] The result is uniform and matt, with no powdery effect. The feel is soft and not tacky.

TABLE-US-00005 TABLE 5 Analysis of the sensory properties of the rich day cream (emulsion): HCO HCO HCO HCO HCO HCO J100 J100 J100 test test test test test test Placebo: 2002 Green Crayvallac (5C) - (5C) - (5C) - 1 - 1 - 1 - 5 - 5 - 5 - Water EXD Touch PC 1% 2% 3% 1% 2% 3% 1% 2% 3% Gloss 8 4 5 5 6 5 4 6 5 4 6 5 6 Spreadability 8 8 8 8 5 5 4 7 6 6 7 6 5 Thickness/ 3 5 5 4 6 6 7 5 6 7 5 5 5 density Tackiness 7 4 4 5 6 5 4 5 4 4 5 4 4 Speed of 3 7 7 7 4 5 6 6 7 7 5 5 5 penetration

[0105] Compared with the placebo (without powder, percentage replaced simply with water), the introduction of Jagrowax J100 (5C) according to the invention into the rich day cream brings about a strong decrease in the gloss. The gloss effect decreases when the Jagrowax concentration increases and gives rise to a matt effect.

[0106] Just like the Orgasol® multifunctional powders, the introduction of Jagrowax brings about a slight increase in the density of the cream and thus improvement of the texture.

[0107] The tackiness is also reduced proportionately to the addition of Jagrowax to the formulation on account of its oil-absorbing properties.

[0108] The speed of penetration is also increased with the proportion of Jagrowax and brings about a decrease in the tackiness.

[0109] Similarly, for the HCO powder with a diameter D50v of 15 μm (HCO test 5): [0110] increase in the speed of penetration relative to the placebo [0111] decrease in the tackiness [0112] slight increase in the texture/density [0113] spreadability [0114] decrease in the gloss

[0115] Similarly, for the HCO powder of small diameter (HCO test 1—of diameter D50v 8 μm):

[0116] Sensory profile similar to that of Green Touch for 3%. Only the texture is different and a slight decrease in the spreadability is observed.

Formulation 2: Lipstick

[0117] A [0118] Octyldodecanol sold under the reference DUB ODOL by the company Stearinerie Dubois (18.1% by mass) [0119] Candelilla wax sold under the reference Cerilla Raffinée Paillettes by the company Univar (11.1% by mass) [0120] Carnauba wax sold under the reference Cerauba T1 by the company Univar (1.5% by mass) [0121] White beeswax sold under the reference Cerabeil Blanche by the company Univar (7.6% by mass) [0122] Caprylic/capric triglycerides sold under the reference DUB MCT by the company Stearinerie Dubois (3.5% by mass) [0123] Isostearyl isostearate sold under the reference DUB ISIS by the company Stearinerie Dubois (9.0% by mass) [0124] Pentaerythrityl tetraisostearate sold under the reference DUB PTIS by the company Stearinerie Dubois (30.7% by mass) [0125] VP/Hexadecene copolymer sold under the reference Antaron V216 by the company Stearinerie Dubois (4.0% by mass)

[0126] B [0127] Experimental powder of HCO or of Jagrowax J100 (Arkema)—3% by mass

[0128] C [0129] Iron oxide and mica pigment sold under the reference Colorona Bordeaux by the company Merck (3% by mass)

Procedure

[0130] The constituents of phase A are weighed out and then placed on a water bath (90° C.) with stirring. When the mixture is homogeneous, the Arkema sensory powder is added with stirring (410 rpm). After the addition, stirring is maintained for 15 minutes. Phase C is then added with stirring (580 rpm, 10 min). The lipstick is maintained at 90° C. and then poured into a mold heated beforehand at 42° C. for 2 hours. After having been cast, the mold is stored for 15 minutes at room temperature and then for 1 hour at −18° C.

Result

Sensory Properties:

[0131] The lipstick containing the experimental powders of HCO (or of Jagrowax J100) applies very well and has good glidance.

[0132] The result is uniform and matt, the color is homogeneous. The feel is soft and not tacky.

TABLE-US-00006 TABLE 6 criteria for evaluating the sensory powders in the lipsticks Criterion Definition Evaluation technique Long-lasting Ability of the lipstick Apply the lipstick in a line of 5 cm effect to resist over time to the forearm, applying a constant pressure. Make three return trips. Pass a handkerchief over and see whether or not the color has diminished. Application Ease of application and Apply the lipstick in a line of 5 cm spreadability of the to the forearm, applying a constant lipstick pressure. Make three return trips. Evaluate the ease or difficulty of applying the lipstick. Fondant nature/ The product melts on Apply the lipstick in a line of 5 cm creaminess contact with the lips to the forearm, applying a constant and changes in pressure. viscosity during Make three return trips. application. Evaluate the fondant nature, noting any change in texture. Coverage The product does not Apply a pen mark to the forearm allow the applied and then apply the lipstick in a line surface to show of 5 cm, applying a constant through. pressure. Make three return trips. See if the pen mark is visible. Evaluate the residual intensity of the mark. Tackiness The product sticks to Apply the lipstick in a line of 5 cm the lips after to the forearm, applying a constant application. pressure. Make three return trips. Press the index finger once on the application. Evaluate the tackiness on removing the finger. Color Lipstick deposit which Apply the lipstick in a line of 5 cm homogeneity covers the lips to the forearm, applying a constant uniformly. pressure. Make three return trips. Evaluate whether or not the deposit is uniform.

[0133] FIG. 2 shows the sensory evaluation of the sensory powders in the lipstick formulations.

TABLE-US-00007 TABLE 7 Sensory evaluation of the sensory powders in the lipstick formulations. Orgasol ® Orgasol ® 2002 EXD Green Crayvallac J100 HCO HCO Placebo* NAT COS Touch PC (5C) (test 1) (test 5) Properties Long-lasting 3 4 3 4 4 4 4 effect Application 3 4 4 3 4 3 4 Fondant 3 4 4 3 4 3 4 nature/ creaminess Coverage 1 2 2 0.5 1.5 0.5 1.5 Tackiness 4 4 4 3 4 3 3 Color 3 4 4 4 4 3 4 homogeneity *the placebo contains 3% of octyldodecanol, sold under the reference DUB ODOL by the company Stearinerie Dubois

Breaking Strength Test of the Lipstick Stalk:

[0134] The lipstick is held horizontally by clamps, with the stalk fully extended out. The handle of an empty bucket is placed 0.5 mm from the base of the stalk. The bucket is filled with water continuously until the stalk breaks. The final amount of water added is weighed. The test is repeated five times and the average value is retained.

[0135] The graph of FIG. 3 demonstrates better resistance of the lipstick stalk for the powders according to the invention (HCO test 1 and HCO test 5) compared with the blank and also with the Orgasol® Green Touch and Orgasol® 2002 EXD NAT COS powders. The nonspherical Crayvallac PC powder, obtained by milling with an air jet mill, also has a high breaking strength, but this value proves to be too high since it prevents good spreading of the lipstick because the lipstick stalk is too compact, and the color is not homogeneous. In the latter case, it is observed that the lipstick is difficult to apply, or even is impossible to apply.

[0136] The sensory properties obtained for the HCO test 1 and 5 and Jagrowax J100 5C and 6 L powders according to the invention are similar to those for Orgasol® Green Touch, i.e. homogeneity of the color and a long-lasting effect.

[0137] The powders according to the invention show excellent reinforcing properties, which are visible via improvement of the breaking strength of the lipstick stalk.

Formulation 3: Pressed Powder

[0138] A [0139] Talc, sold under the reference Emprove Parteck LUB Talc by the company Merck (46.2% by mass) [0140] Mica, sold under the reference Mica Concord Grade 700 by the company Sciama (30% by mass) [0141] Salicylic acid, sold under the reference Salicylic Acid Pharma by the company Cooper Industries (0.2% by mass) [0142] Experimental powder of HCO or of Jagrowax J100 (Arkema)—10% by mass [0143] Pigments, sold under the reference Unipure by the company Sensient (yellow 0.6% by mass, read 0.4% by mass, black 0.1% by mass and white 3% by mass)

[0144] B [0145] Octyldodecanol and octyldodecyl xyloside, sold under the reference Fluidanov 20× by the company SEPPIC (5.5% by mass) [0146] Isostearyl isostearate, sold under the reference Crodamol ISIS by the company Croda (4% by mass)

Procedure

[0147] The constituents of phase A are weighed out and then mixed until homogeneous. When the mixture is homogeneous, the Arkema sensory powder is added and then mixed. Phase B is then added to the surface of the powder and mixed (3×5 s). The powder obtained is screened and compacted.

Result

[0148] Sensory test of the pressed powders

[0149] Study conditions: uptake by five rotations on pressed powder/deposition of this amount onto the forearm S=4.5×2 cm

[0150] Evaluation scale: from 0 (lowest score) to 5 (highest score)

TABLE-US-00008 TABLE 8 Sensory profile of the powders in the pressed powder formulations according to the invention compared with the powders of the prior art Orgasol ® 2002 HCO HCO Placebo* EXD NAT COS (test 1) (test 5) Properties Color 3.5 3 3 3 Adhesion on uptake 5 2.5 3 3 Homogeneity after 2.5 4.5 2 2 spreading Softness 3.5 4.5 2 2 Coverage 3 2 2.5 3.5 Mattness 4 3.5 4.5 4.5 *The placebo contains 10% of talc, sold under the reference Emprove Parteck LUB Talc by the company Merck (56.2%).

[0151] The pressed powders containing the HCO experimental powders apply well. The result is uniform, matt and covering.

Drop Test

[0152] The protocol which was followed to define the drop strength of the compact powders consists in [0153] standing over a metal plate and holding a 30 cm graduated ruler vertically in one hand, [0154] holding the pot horizontally in the other hand—the bottom of the pot facing downwards—over the plate, [0155] releasing the pot and repeating the operation until the first crack or break appears, and recording the number of drops performed, [0156] repeating the operation on at least two or three pots, and then taking an average of the results.

[0157] The results show that the pressed powders containing the HCO experimental powders have much better compaction than the powders of the prior art.

TABLE-US-00009 TABLE 9 drop tests of the powders in the pressed powder formulations according to the invention compared with the powders of the prior art Number of drops before breaking Placebo 35 Orgasol ® 2002 EXD NAT COS 38 HCO (test 1) 70 HCO (test 5) 72

[0158] In summary, the process for manufacturing the powder of the invention makes it possible to dispense with the consumption of oil, to reduce the energy consumption and to make use of raw materials obtained from plant crops. It also has a lower manufacturing cost and a favorable energy balance.