JP2015221785A - Hair-perming composition - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hair-perming composition which can be used for permanent treatment to hair, and which can keep the hair in a state of providing voluminous feeling and firmness/stiffness for a long time.SOLUTION: A hair-perming composition 100 has an emulsion structure including granular first phases 11 and a second phase 12 where the first phases 11 are dispersed. The hair-perming composition 100 contains: an inorganic particle dispersion 1 constituting one of the first phases 11 and the second phase 12, which comprises hydrophobic inorganic particles 2 whose average particle diameter in primary particles is 1 nm to 15 μm, and an oil-soluble dispersant 5 where the hydrophobic inorganic particles 2 are dispersed; an aqueous solvent 10 constituting the other one of the first phases 11 and the second phase 12; a surfactant 9 for forming a boundary surface between the first phases 11 and the second phase 12; and hair-perming components included in the first phases 11, the second phase 12, or both the first phases 11 and the second phase 12. The content ratio of the hydrophobic inorganic particles 2 is 0.03 to 15.9 mass% of the total mass, and the content ratio of the oil-soluble dispersant 5 is 1.5 to 20 mass% of the total mass.

Description

  The present invention relates to a permanent composition, and more particularly, to a permanent composition that can perform permanent treatment on hair, and can maintain long hair with a sense of volume and firmness.

  Conventionally, a permanent agent (perm composition) is known for use in performing permanent treatment on hair (for example, see Patent Document 1).

JP 2008-56614 A

  In the permanent agent described in Patent Document 1, the component in the permanent agent elutes interstitial substances such as keratin in the hair from the hair in the operation of performing permanent treatment on the hair. As a result, there is a problem that the sense of volume and firmness of hair are lost. When the firmness and stiffness are lost from the hair, the hair shape retention ability is lost, and it becomes difficult to style the hair into a desired hairstyle, for example.

  The cause of loss of volume and firmness from hair may be due to birth or aging.

  For this reason, there has been a strong demand for the development of a permanent composition that can perform permanent treatment on the hair and can keep the hair in a state of volume and firmness for a long time.

  The present invention has been made in view of such problems of the prior art, and the problem is that the hair can be subjected to permanent treatment, and has a sense of volume and firmness. The hair can be held for a long time.

  According to the present invention, the following permanent composition is provided.

[1] It has an emulsion structure composed of a granular first phase and a second phase in which the first phase is dispersed, and constitutes one of the first phase or the second phase to form primary particles An inorganic particle dispersion comprising hydrophobic inorganic particles having an average particle size of 1 nm to 15 μm and an oil-soluble dispersant in which the hydrophobic inorganic particles are dispersed, and the other of the first phase and the second phase An aqueous solvent that forms an interface, a surfactant for forming an interface between the first phase and the second phase, the first phase, the second phase, or the first phase and the second phase A permanent component contained in both, the content of the hydrophobic inorganic particles is 0.03 to 15.9% by mass of the total mass, and the content of the oil-soluble dispersant is The composition for permanents which is 1.5-20 mass% of mass.

[2] The permanent composition according to [1], wherein an average particle size of primary particles of the hydrophobic inorganic particles is 1 nm to 1 μm.

[3] The content ratio of the hydrophobic inorganic particles is 0.1 to 15.9 mass% of the total mass, and the content ratio of the oil-soluble dispersant is 3 to 20 mass% of the total mass. The composition for permanents as described in 1] or [2].

[4] The permanent composition according to any one of [1] to [3], wherein the content ratio of the aqueous solvent is 20 to 96.9% by mass of the total mass.

[5] The permanent composition according to any one of [1] to [4], wherein the hydrophobic inorganic particles are hydrophobic silica particles.

  The permanent composition of the present invention can perform permanent treatment on the hair and can keep the hair in a voluminous and firm state for a long time.

It is explanatory drawing which shows typically one Embodiment of the composition for permanents of this invention. It is the photograph in evaluation of the hair after performing a permanent process to hair using the composition for permanents of Example 1. FIG. It is a photograph in evaluation of hair after performing permanent treatment to hair using the composition for permanents of comparative example 1. It is an electron micrograph of hair after treating hair using a model system composition. It is an electron micrograph of hair after treating hair using a model system composition (it does not contain hydrophobic inorganic particles). It is an electron micrograph of hair after treating hair using a model system composition which contains hydrophilic inorganic particles and does not contain hydrophobic inorganic particles.

  Hereinafter, embodiments of the present invention will be described. However, the present invention is not limited to the following embodiments, and based on ordinary knowledge of those skilled in the art without departing from the spirit of the present invention. It should be understood that modifications, improvements, and the like appropriately added to the embodiments described above fall within the scope of the present invention.

[1] Perm composition:
One embodiment of the permanent composition of the present invention is a permanent composition 100 shown in FIG. The permanent composition 100 has an emulsion structure composed of a granular first phase 11 and a second phase 12 in which the first phase 11 is dispersed, and one of the first phase 11 and the second phase 12 is present. And an inorganic particle dispersion 1 comprising a hydrophobic inorganic particle 2 having an average particle diameter of 1 nm to 15 μm in primary particles and an oil-soluble dispersant 5 in which the hydrophobic inorganic particle 2 is dispersed, An aqueous solvent 10 constituting the other of the phase 11 or the second phase 12, a surfactant 9 for forming an interface between the first phase 11 and the second phase 12, a first phase 11, a second phase 12, Or it is 0.03-15.9 mass% contained in both the 1st phase 11 and the 2nd phase 12, and the content rate of the oil-soluble dispersing agent 5 is 1.5-20 mass% of a total mass. .

  Such a permanent composition 100 can perform permanent treatment on the hair by blending the permanent component. Further, in the permanent composition 100, the hydrophobic inorganic particles 2 are “fine particles having an average particle diameter of 1 nm to 15 μm in primary particles”, and therefore “particles having an average particle diameter of 1 nm to 1 μm in primary particles”. In this case, it is possible to satisfactorily penetrate between the cuticle edge exposed to the outside in the hair and the inner cuticle covered with the cuticle edge (gap). Further, in the case of “particles having an average particle diameter of more than 1 μm and not more than 15 μm in the primary particles”, a part of the particles can be fitted into the voids to block the voids. As will be described later, the average particle diameter of the primary particles of the hydrophobic inorganic particles 2 is preferably 1 nm to 1 μm, and when the particle diameter is such, the pores can be satisfactorily penetrated.

  Here, when the permanent treatment is performed on the hair, the components in the permanent composition cause the intercalation substance in the hair to be eluted from the hair. As a result, there is a problem that the sense of volume and firmness of hair are lost. Therefore, in the permanent composition 100, particularly in the case of “particles having an average particle diameter of 1 nm to 1 μm in the primary particles”, the inorganic particle dispersion 1 (hydrophobic inorganic particles 2) is exposed to the outside in the hair. It enters (space) between the edge and the inner cuticle covered with the cuticle edge to fix in the hair and reinforce the hair (see FIG. 4). Therefore, the hydrophobic inorganic particles 2 can fill the voids and give the hair a sense of volume and firmness. Furthermore, since the hydrophobic inorganic particles 2 are buried and fixed in the voids, it is possible to prevent components that have entered the hair from being released outside the hair. Therefore, a state with a sense of volume and elasticity is sustained for a long time.

  In the case of “particles having an average particle diameter of primary particles of more than 1 μm and 15 μm or less”, a part of the particles can be fitted into the voids to block the voids. When the particles thus block the voids, the hair can be reinforced. As a result, the hair can be given a sense of volume and firmness.

  In particular, the permanent treatment is damaging to hair and tends to cause cuticle curl and split ends. Therefore, when the permanent composition 100 is used, the hydrophobic inorganic particles 2 can reinforce the hair, and as a result, it is possible to suppress hair damage or repair hair damage, Further, it becomes possible to prevent the occurrence of split ends.

  Moreover, the composition 100 for permanents has the above-described configuration, so that the rising property of the hair is improved and the hair stiffness is reduced.

[1-1] Emulsion structure:
The permanent composition of the present invention has an emulsion structure composed of a granular first phase 11 and a second phase 12 in which the first phase 11 is dispersed. By having the emulsion structure in this way, when the permanent composition of the present invention is applied to the hair, all or part of the inorganic particle dispersion (hydrophobic inorganic particles) is satisfactorily separated from the cuticle edge. , And the inside of the cuticle covered with the edge of the cuticle.

  In the permanent composition of the present invention, the granular first phase 11 may be composed of an inorganic particle dispersion or may be composed of an aqueous solvent. The second phase 12 may be made of an inorganic particle dispersion or may be made of an aqueous solvent. That is, the inorganic particle dispersion 1 including the hydrophobic inorganic particles 2 may constitute either the first phase 11 or the second phase 12.

  In the permanent composition of the present invention, the second phase 12 is preferably an aqueous solvent. This is because in the case of “particles having an average particle diameter of 1 nm to 1 μm in the primary particles”, the hydrophobic inorganic particles 2 are easily maintained in a state of primary particles and / or secondary particles having an average particle diameter of 5 μm or less. As a result, it becomes easy to introduce the hydrophobic inorganic particles 2 between the cuticle edge exposed to the outside and the inside cuticle covered with the cuticle edge.

[1-2] Inorganic particle dispersion:
The inorganic particle dispersion of the composition for permanents of the present invention is composed of hydrophobic inorganic particles having an average particle diameter of 1 nm to 15 μm in primary particles and an oil-soluble dispersant in which the hydrophobic inorganic particles are dispersed. is there. Hereinafter, the hydrophobic inorganic particles and the oil-soluble dispersant will be described.

  The inorganic particle dispersion is one in which hydrophobic inorganic particles are dispersed in an oil-soluble dispersant. However, in this specification, the number of hydrophobic inorganic particles in the oil-soluble dispersant is not particularly limited. Absent. That is, in many cases, it is considered that a plurality of hydrophobic inorganic particles are present in the oil-soluble dispersant, but one hydrophobic inorganic particle is present in the oil-soluble dispersant. Even in this case, it is assumed that “hydrophobic inorganic particles are dispersed in the oil-soluble dispersant”.

[1-2a] Hydrophobic inorganic particles:
The permanent composition of the present invention contains hydrophobic inorganic particles dispersed in an oil-soluble dispersant. In the case of the hydrophobic inorganic particles, the particles are easily fixed between the cuticle edge exposed to the outside in the hair and the inner cuticle covered with the cuticle edge. In other words, the hydrophobic inorganic particles can be temporarily fixed between the cuticle edge exposed to the outside in the hair and the inner cuticle covered with the cuticle edge (void). In this way, once the hydrophobic inorganic particles are fixed between the cuticles, the hydrophobic inorganic particles and the cuticles are not easily released to the outside of the hair due to the high affinity between the hydrophobic inorganic particles and the cuticles. Become. As a result, the hair can be maintained in a state with a sense of volume and elasticity. Since the inorganic particles are hydrophobic, the hydrophobic inorganic particles are fixed in the voids even in the case of “particles having an average particle diameter of more than 1 μm and not more than 15 μm in the primary particles”.

  Furthermore, the hydrophobic inorganic particles and the aggregates (hydrophobic particles) of the hydrophobic inorganic particles straddle between the cuticle edge exposed to the outside in the hair and the inner cuticle covered with the cuticle edge. (Sometimes referred to as inorganic particles) can be fixed between them. When the hydrophobic inorganic particles and the like are fixed between the above in such a form, combined with the high affinity between the hydrophobic inorganic particles and the cuticle, a state where the overlapping cuticles are cross-linked (binding) is created. Can do. When such a cross-linked state is created, it becomes possible to suppress the curling of the cuticle and repair the curling of the cuticle. As a result, it is possible to suppress hair damage, repair hair damage, and prevent the occurrence of split ends.

  Examples of the hydrophobic inorganic particles include the following inorganic particles exhibiting hydrophobic properties. Examples thereof include silica particles, calcium phosphate particles, calcium carbonate particles, titanium oxide particles, carbon particles, talc particles, mica particles, and sodium silicate particles. Among these, silica particles are preferable. That is, the hydrophobic inorganic particles are preferably hydrophobic silica particles.

  Examples of the hydrophobic silica particles among the hydrophobic inorganic particles include those obtained by treating the hydroxyl group (—OH) appearing on the surface of the silica particles with a treatment such as dimethylsilylation or trimethylsilylation. it can.

  The properties of the hydrophobic silica particles have been described by exemplifying treatment methods such as dimethylsilylation. Of course, this explanation is limited to those obtained by the above-described treatment methods. It doesn't mean.

  Examples of commercially available hydrophobic silica particles include AEROSIL-R972, AEROSIL-R974, AEROSIL-R104, AEROSIL-R106, AEROSIL-R202, AEROSIL-R805, AEROSIL-R812, AEROSIL-R812S, AEROSIL-R816, AEROSIL-R R7200, AEROSIL-R8200, AEROSIL-R9200, AEROSIL-R711, AEROSIL-R972 Pharma (Japan Aerosil), VM-2270 Aerofine Fine Particles (Dow Corning), HDK H2000, HDK H15K, HDK H18HD H30 (above Asahi Kasei Wacker Silicone) .

  The hydrophobic inorganic particles have a primary particle average particle diameter of 1 nm to 15 μm, preferably 1 nm to 1 μm, more preferably 1 to 900 nm, and particularly preferably 1 to 500 nm. Preferably, the thickness is 1 to 50 nm. Since the fine particles have such a size, the hydrophobic inorganic particles are exposed to the cuticle edge exposed to the outside of the hair and the inner cuticle covered by the cuticle edge (specifically, the cuticle adjacent to the tip side). ) All or part of the particles can enter.

  In the present specification, the average particle size is measured by the dynamic scattering method (photon correlation method) when the average particle size is 1 μm or less, and the particle size analysis method “CONTIN method” is used. It is a measured value (mode diameter) derived from the number distribution. Further, the average particle diameter referred to in the present specification is a value (median diameter) measured by a laser diffraction method when the average particle diameter is measured at more than 1 μm.

  The hydrophobic inorganic particles are not limited to being dispersed alone in the oil-soluble dispersant, but may be dispersed in the oil-soluble dispersant in a form in which a plurality of particles are aggregated (secondary particles). In the case of “particles having an average particle diameter of 1 nm to 1 μm in the primary particles”, the average particle diameter of the secondary particles is preferably 15 μm or less, more preferably 5 μm or less, and further preferably 2 μm or less. It is preferably 50 nm to 1.5 μm, and most preferably 50 nm to 1.0 μm.

  The content ratio of the hydrophobic inorganic particles can be assumed to be 0.03 to 20% by mass of the total mass, but is 0.03 to 15.9% by mass of the total mass, and 0.1 to 15% of the total mass. 0.9 mass%, more preferably 0.5 to 15 mass% of the total mass, particularly preferably 1 to 10 mass% of the total mass, and 2 to 5 mass% of the total mass. Most preferably. By setting the content ratio of the hydrophobic inorganic particles in the above range, the permanent composition of the present invention can permanently treat the hair, and can keep the hair in a voluminous and firm state for a long time. it can. In other words, the permanent composition of the present invention used as a permanent agent for the permanent treatment of hair exhibits the above-mentioned effects when the content ratio of the hydrophobic inorganic particles satisfies the above range.

[1-2b] Oil-soluble dispersant:
The oil-soluble dispersant has an action of suppressing aggregation of the hydrophobic inorganic particles. Therefore, in the case of “particles having an average particle diameter of 1 nm to 1 μm in the primary particles”, even if the hydrophobic inorganic particles form aggregates (secondary particles), the average particle diameter at that time is maintained in a state of 5 μm or less. It becomes easy. If the average particle diameter is 5 μm or less, it is possible to enter between the cuticle edge exposed to the outside of the hair and the inner cuticle (specifically, the cuticle adjacent to the tip side) covered with the cuticle edge. is there.

  When the average particle size of the secondary particles is 5 μm or less, when the permanent composition of the present invention is applied to the hair, the secondary particles are disintegrated by an external force applied to the hair, and the average particle size is 1 μm or less. Primary particles and secondary particles having an average particle diameter of 1 μm or less are formed. Therefore, the hair is applied between the edge of the cuticle exposed to the outside in the hair and the inside cuticle (specifically, the cuticle adjacent to the tip side) covered with the cuticle edge. Thus, in the permanent composition of the present invention, in particular, in the case of “particles having an average particle diameter of 1 nm to 1 μm in the primary particles”, the hydrophobic inorganic particles are exposed to the cuticle edge and the inside thereof. It becomes easy to get into the cuticle.

  In addition, the oil-soluble dispersant has the property of being easily compatible with the cuticle. Therefore, the oil-soluble dispersant serves to assist in introducing inorganic particles between the cuticle edge exposed to the outside and the cuticle adjacent to the front end side covered with the cuticle edge. For this reason, when the hydrophobic inorganic particles are introduced and fixed between the cuticle edge exposed to the outside and the cuticle adjacent to the front end side covered with this, the hair is reinforced from the inside, and the hair has a sense of volume and elasticity.・ It becomes possible to give stiffness.

  If all or part of the hydrophobic inorganic particles have entered between the cuticle edge exposed to the outside and the inner cuticle covered with the cuticle edge, the hydrophobic inorganic particles will aggregate. Aggregates may be formed. In this way, when the aggregate of the hydrophobic inorganic particles is formed in a state of being sandwiched between the outer cuticle and the inner cuticle, and the aggregate is fixed at this site, the hair is reinforced. More effective. As a result, it becomes possible to impart firmness and firmness to the hair better. The cohesive force of the hydrophobic inorganic particles at this time is weak enough to be dissolved when an external force is applied by bending the hair. Therefore, according to the present invention, even when the aggregate of inorganic particles is fixed in a state of being sandwiched between the outer cuticle and the inner cuticle, the hair is not excessively hardened and is moderately Can be held in a soft state.

  Examples of the oil-soluble dispersant include polyols and higher alcohols.

  Examples of the polyols include glycerin, concentrated glycerin, pentylene glycol, butylene glycol, 1.3-butylene glycol, ethylene glycol, diethylene glycol, propylene glycol, polyethylene glycol, and ethoxydiglycol.

  Examples of the higher alcohol include isostearic acid, isostearyl alcohol, oleyl alcohol, hexyl decanol, octyl decanol, decyl alcohol, cetanol, cetostearyl alcohol, stearyl alcohol, behenyl alcohol, hydrogenated rapeseed oil alcohol, misty alcohol, aralkyl alcohol, Lauryl alcohol, chimyl alcohol, cholesterol, lanolin alcohol, hexyl decanol, 2-octyl decanol, ceralkyl alcohol (monooleyl glyceryl ether), batyl alcohol (glyceryl monostearyl ether), phytosterol (phytosterin), hydrogenated lanolin alcohol, Capryl alcohol, linoleyl alcohol, POE stearic ether, POE cetis , And the like ether.

  Oil-soluble dispersants include vegetable oils such as hydrogenated rapeseed oil alcohol and isostearic acid hydrogenated castor oil; esters such as tri (caprylic acid / capric acid) glyceryl and cetyl 2-ethylhexanoate; lower alcohols such as isopropanol; Hydrocarbons such as liquid paraffin and liquid isoparaffin; waxes such as beeswax; fatty acids such as lauric acid, myristic acid and lauric acid; silicone oils such as cyclopentasiloxane, dimethicone and cyclomethicone; Can be mentioned.

  The content of the oil-soluble dispersant can be assumed to be 1.5 to 60% by mass of the total mass, but is 1.5 to 20% by mass of the total mass, and 3 to 20% by mass of the total mass. More preferably, it is particularly preferably 3 to 10% by mass of the total mass, and most preferably 5 to 10% by mass of the total mass. By setting the content ratio of the oil-soluble dispersant in the above range, the permanent composition of the present invention can permanently treat the hair, and can keep the hair in a voluminous and firm state for a long time. it can. In other words, the permanent composition of the present invention used as a permanent agent for the permanent treatment of hair exhibits the above-mentioned effects when the content ratio of the oil-soluble dispersant satisfies the above range.

[1-3] Surfactant:
The permanent composition of the present invention contains a surfactant for forming an interface between the first phase and the second phase. A conventionally well-known thing can be used as surfactant. Specific examples include anionic (anionic) surfactants, cationic (cationic) surfactants, nonionic surfactants, and amphoteric surfactants.

Examples of the anionic (anionic) surfactant that can be used as a surfactant in the present invention include fatty acid sodium (NS soap, SS-40N, KS soap, OS soap, FR-14, FR-25: Kao), Sodium lauryl sulfate (Emar: Kao), higher alcohol sodium sulfate (Emar: Kao), triethanolamine lauryl sulfate (Emar: Kao), ammonium lauryl sulfate (Latemul: Kao), dodecylbenzene sulfonic acid (Neoperex: Kao), Sodium dodecylbenzenesulfonate (Neoperex: Kao), Dodecylbenzenesulfonate (Neoperex: Kao), Sodium alkylnaphthalenesulfonate (Perex: Kao), Sodium dialkylsulfone succinate (Perex: Kao), Alky Sodium diphenyl ether disulfonate (Perex: Kao), sodium alkane sulfonate (Ramtel: Kao), ammonium polyoxyalkylene alkenyl ether sulfate (Ramtel: Kao), potassium polyoxyethylene alkyl ether phosphate (Electro stripper F: Kao), alkenyl succinate Dipotassium acid (Ramtel ASK: Kao), monoalkyl sulfate, alkyl polyoxyethylene sulfate (Emar: Kao), alkylbenzene sulfonate, monoalkyl phosphate, sodium alphasulfone fatty acid ester, sodium alphaolefin sulfonate, alkyl Sodium sulfonate, linear alkylbenzene sodium sulfonate, sodium alkyl ether sulfate, polyoxylauryl ether Sodium sulfate (TEXAPON N25 manufacturer: BASF Japan), polyoxyethylene alkyl ether sodium sulfate (Emar, Latem: Kao), polyoxyethylene alkyl ether sodium sulfate (Lebenol, Latem: Kao), polyoxyethylene alkyl ether triethanolamine (Emal Kao), sodium octanoate, sodium decanoate, sodium laurate, sodium myristate, sodium palmitate, sodium _{stearate, PFOA (C 7 F 15 COOH} ), perfluoro nonanoic acid, N- lauroyl sarcosine sodium, cocoyl Sodium glutamate, alphasulfo fatty acid methyl ester salt, sodium 1-hexanesulfonate, sodium 1-octanesulfonate , Sodium 1-decane sulfonate, sodium 1-dodecane sulfonate, perfluorobutane sulfonic acid, sodium linear alkylbenzene sulfonate, sodium toluene sulfonate, sodium cumene sulfonate, sodium octyl benzene sulfonate, DBS, sodium naphthalene sulfonate , Disodium naphthalene disulfonate, trisodium naphthalene trisulfonate, sodium butyl naphthalene sulfonate, PFOS (C ₈ F ₁₇ SO ₃ H), sodium myristyl sulfate, sodium laureth sulfate, sodium polyoxyethylene alkylphenol sulfonate, ammonium lauryl sulfate, Examples thereof include lauryl phosphate, sodium lauryl phosphate, and potassium lauryl phosphate.

  Examples of the cationic (cationic) surfactant that can be used as the surfactant in the present invention include alkylamine salts such as coconut amine acetate (acetamine 24: Kao) and stearylamine acetate (acetamin 86: Kao); lauryl Trimethylammonium chloride (Cotamine 24P: Kao), Stearyl trimethylammonium chloride (Cotamine 86P Conch: Kao), Cetyltrimethylammonium chloride (Cotamine 60W: Kao), Stearyl trimethylammonium chloride (Cotamine 86W: Kao), Alkylbenzyldimethylammonium chloride ( The fourth such as Cotamine D86P: Kao), distearyldimethylammonium chloride (Sanisol C, Sanizol B-50: Kao) And ammonium salts can be mentioned.

Examples of the nonionic surfactant that can be used as the surfactant in the present invention include polyoxyethylene lauryl ether (Emulgen: Kao), polyoxyethylene cetyl ether (Emulgen: Kao), and polyoxyethylene stearyl ether (Emulgen: Kao). ), Polyoxyethylene oleyl ether (Emulgen: Kao), polyoxyethylene alkyl ether (Emulgen: Kao), polyoxymyristyl ether (Emulgen: Kao), polyoxyethylene octyldodecyl ether (Emulgen: Kao), polyoxyethylene alkylene Alkyl ether (Emulgen: Kao), Polyoxyethylene distyrenated phenyl ether (Emulgen: Kao), Polyoxyalkylene alkenyl ether (Latemul: Kao), Sorbi Fatty acid esters (leodoles, emazoles: Kao), sorbitan monolaurate (leodoles: Kao), sorbitan monopalmitate (leodoles: Kao), sorbitan monostearate (leodoles: Kao), sorbitan distearate (leodoles: Kao) Sorbitan tristearate (Leodol: Kao), sorbitan monooleate (Leodol: Kao), sorbitan trioleate (Leodol: Kao), sorbitan monolaurate (Leodol Super SP-L10: Kao), sorbitan monostearate ( Leodol: Kao), Sorbitan monooleate (Leodol: Kao), Sorbitan sesquioleate (Leodol: Kao), Polyoxysorbitan fatty acid ester (Leodol: Kao), Polyoxyethylene sol Monolaurate (Rheodol Kao), polyoxyethylene sorbitan monopalmitate (Rheodol Kao)
, Polyoxysorbitan monostearate (Leodol: Kao), polyoxysorbitan tristearate (Leodol: Kao), polyoxyethylene sorbitan monooleate (Leodol: Kao), polyoxyethylene sorbitan trioleate (Leodol: Kao), Polyoxyethylene sorbitan triisostearate (Leodol: Kao), Polyoxyethylene sorbitan monolaurate (Leodol Super: Kao), Tetraoleic acid polyoxyethylene sorbitol (Leodol: Kao), Glycerin fatty acid ester (Leodol: Kao) Glycerol monostearate (Reodol: Kao), glycerol monooleate (Leodol: Kao), self-lactic acid glycerol monostearate (Leodol: Kao), polyoxy Ethylene fatty acid ester (Emanon: Kao), Polyethylene glycol monolaurate (Leodol: Kao), Polyethylene glycol monostearate (Leodol: Kao), Polyethylene glycol distearate (Leodol: Kao), Polyethylene glycol monooleate (Leodol: Kao), polyoxyethylene hydrogenated castor oil (Emanon: Kao), polyoxyethylene alkylamine (Amate: Kao), alkyl alkanolamide (Aminone: Kao), sucrose fatty acid ester, alkyl polyglucoside, fatty acid ethanolamide, alkyl mono Glyceryl ether, polyoxyethylene sorbitan fatty acid ester, fatty acid alkanolamide, polyoxyethylene alkyl ether, polyoxyethylene alkyl Phenyl ether, glyceryl laurate, glyceryl monostearate, polyoxyethylene alkyl ether, pentaethylene glycol monododecyl ether, octaethylene glycol monododecyl ether, polyoxyethylene alkyl phenyl ether, nonoxynol, nonoxynol-9, polyoxyethylene polyoxy Examples thereof include propylene glycol, polyoxyethylene hexitan fatty acid ester, sorbitan fatty acid ester polyethylene glycol, lauric acid diethanolamide, oleic acid diethanolamide, stearic acid diethanolamide, cocamide DEA, octyl glucoside, decyl glucoside, and lauryl glucoside.

  Examples of the amphoteric surfactant that can be used as the surfactant in the present invention include sodium alkylamino fatty acid, alkylbetaine (Amphital: Kao), alkylamine oxide (Amphital: Kao), alkyldimethylamine oxide, alkylcarboxybetaine, alkyl. Amine oxide, lauryl betaine (Amphitole: Kao), stearyl betaine (Amphitol: Kao), 2-alkyl-N-carboxymethyl-N-hydroxyethylisodazolinium betaine (Amphitol: Kao), lauryl dimethylamine oxide (Amphitole: Kao) ), Lauryldimethylaminoacetic acid betaine, stearyldimethylaminoacetic acid betaine, dodecylaminomethyldimethylsulfopropylbetaine, octadecylaminomethyl Methylsulfopropylbetaine, cocamidopropylbetaine, cocamidopropylhydroxysultain, 2-alkyl-N-carboxymethyl-N-hydroxyethylimidazolinium betaine, sodium lauroylglutamate, potassium lauroylglutamate, lauroylmethyl-β-alanine, Examples thereof include lauryl dimethylamine N-oxide and oleyl dimethylamine N-oxide.

  When a surfactant is used in the permanent composition of the present invention, only one type of the various surfactants listed above may be used, or two or more types may be used in combination. In the permanent composition of the present invention, it is preferable to use a combination of two or more surfactants. In that case, it is preferable to include an anionic surfactant and an amphoteric surfactant. The various surfactants listed above may be appropriately selected in consideration of compatibility with oil-soluble dispersants and aqueous solvents. Moreover, it is preferable to use an amphoteric surfactant because the penetration of inorganic particles into the hair is further improved.

[1-4] Aqueous solvent:
The permanent composition of the present invention contains an aqueous solvent. As an aqueous solvent, what is used for a conventionally well-known permanent composition can be selected suitably, and can be used. As an aqueous solvent, the liquid etc. which contain water or water and an additive (for example, pH adjuster, antiseptic | preservative, chelating agent) etc. can be mentioned, for example.

  The content ratio of the aqueous solvent is preferably 20 to 96.9% by mass of the total mass, more preferably 30 to 90% by mass of the total mass, and 50 to 90% by mass of the total mass. More preferably, it is particularly preferably 70 to 90% by mass of the total mass. By setting the content ratio of the aqueous solvent in the above range, the hair can be subjected to permanent treatment, and the hair with a sense of volume and firmness can be maintained for a long time.

[1-5] Perm ingredients:
The permanent composition of the present invention contains a permanent component in the first phase, the second phase, or both the first phase and the second phase. “Perm component” is a component used to perform permanent treatment on hair. Specifically, the hair is waved and maintained, or the eyelashes, curly hair, and wave hair are extended and maintained. It is a component used for performing. In other words, once the bond in the hair (hydrogen bond, ionic bond, cystine bond (SS bond)) is cut once, the shape of the hair is restored after the shape of the hair is deformed and then restored again. Is a component for performing a treatment to change the shape of the hair in a stationary state to a desired shape. The “perm component” is a component for exerting the above-described functions, and the component that cuts the bond in hair once in the two-part permanent agent (the component used for the first agent) and has been cut. It is a concept that includes a component that restores the binding again (a component used in the second agent). Furthermore, it is a concept that includes a component for exhibiting the above-described function in a single-agent type permanent agent.

  Perm ingredients include thio-based warm two-bath perm, cis-warm two-bath perm, thio-cold two-bath permanent, cis-cold two-bath perm, thio-cold one-bath Perm preparation, thio-based first agent preparation, exothermic two-bath type permanent agent, thio-type cold two-bath type hair straightener, thio-type heated two-bath type hair straightener, and thio-type high-temperature hair-styling iron Examples include warm two-bath hair straighteners, sulfite-based permanent agents, cysteamine-based permanent agents, butyrolactone thiol-based permanent agents [e.g. it can. A commercially available permanent agent may be used as the permanent component. Among these, a thio-based permanent agent, a cis-based permanent agent, a cysteamine-based permanent agent, and a butyrolactone thiol-based permanent agent are preferable. Furthermore, the component for permanent contained in the said permanent agent can be employ | adopted suitably. In addition to the above-described permanent agent, the permanent component includes those that can be permanently treated by the same principle.

  The composition for permanents of this invention can be used as the 1st agent of what mixes a 1st agent (perm 1 liquid) and a 2nd agent (2 liquids), and carries out the permanent process of hair.

  The composition for permanents of this invention can be used as the 2nd agent of what mixes a 1st agent (perm 1 liquid) and a 2nd agent (2 liquids), and carries out the permanent process of hair.

  Of course, the permanent composition of the present invention can be a permanent composition for hair (so-called one-part permanent agent) with a single permanent composition. This one-agent type permanent agent performs “oxidation”, which is the role of the second agent in the two-agent type permanent agent, with oxygen in the air.

[1-6] Other components:
The permanent composition of the present invention may contain other components in addition to the above components.

[2] Method for producing permanent composition:
The composition for permanents of this invention can be manufactured as follows. First, hydrophobic inorganic particles having an average particle size of 1 nm to 15 μm in primary particles and oil-soluble dispersant are mixed to obtain a mixture. Thereafter, a permanent component, a surfactant, an aqueous solvent, and the like are added to the mixture and mixed to form an emulsion.

  Another method is as follows. An oil-soluble dispersant for dispersing hydrophobic inorganic particles having an average particle diameter of 1 nm to 15 μm in primary particles, an aqueous solvent, a surfactant, and a permanent component are mixed under heating, and an aqueous phase and an oil phase are mixed. After obtaining a mixture having an emulsion structure consisting of the following, to the obtained mixture, hydrophobic inorganic particles having an average particle size of 1 nm to 15 μm in primary particles are added and mixed, and the hydrophobic inorganic particles are mixed with the oil phase of the mixture. A permanent composition is obtained by dispersing in.

  More specifically, first, an oil-soluble dispersant, an aqueous solvent, a surfactant, and a permanent component are mixed and stirred, and a phase containing an oil-soluble dispersant and a phase containing an aqueous solvent (second phase) are mixed. An emulsion (hereinafter “pre-emulsion”) is formed in advance. Next, inorganic particles are added to the pre-emulsion and stirred vigorously to mix the inorganic particles into the phase containing the oil-soluble dispersant. In this way, a phase (first phase) containing the inorganic particle dispersion can be formed.

  This method of forming a pre-emulsion is particularly suitable when the inorganic particles are silica particles. When the inorganic particles are silica particles, it may be difficult to disperse the silica particles in the oil-soluble dispersant. When it is difficult to disperse such silica particles, a pre-emulsion as described above may be formed in advance, and the silica particles may be added thereto and stirred vigorously. By this method, silica particles can be adsorbed on an oil-soluble dispersant and forcedly introduced and dispersed in the oil-soluble dispersant.

  EXAMPLES Hereinafter, although this invention is demonstrated concretely based on an Example, this invention is not limited to these Examples.

Example 1
In this example, a perm composition (cis perm 1 liquid) was prepared as follows. First, an oil-soluble dispersant and a surfactant were placed in a beaker, and dissolved in a hot water bath at 90 ° C. to 100 ° C. for dissolution. As the oil-soluble dispersant, cetostearyl alcohol (manufactured by Higher Alcohol Industry Co., Ltd.) was used. As the surfactant, distearyldimethylammonium chloride (cation 2ABT manufactured by NOF Corporation) and cetyltrimethylammonium chloride (Kao Cotamine 60W) were used. Thereafter, 100 ° C. purified water was added and stirred to obtain a creamy mixture (emulsion).

  Thereafter, a hair swelling agent was added to the cream mixture and mixed, and then hydrophobic silica (hydrophobic inorganic particles) was added and mixed. As the hair swelling agent, 80% monoethanolamine (manufactured by Sasaki Chemical Co., Ltd.), L-cystine hydrochloride (manufactured by L-cystine hydrochloride C Sasaki Chemical Co., Ltd.) (in the table, sometimes referred to as “L-cysteine”) Was used. As the hydrophobic silica particles, Aerosil R812 (manufactured by Nippon Aerosil Co., Ltd. (Evonik Co., Ltd.), average particle diameter of 7 nm) was used. In this way, a cis-based perm 1 liquid (perm composition) was obtained.

  Next, two liquids were prepared as follows. Add purified water, sodium bromate (sodium bromate Q manufactured by Sasaki Chemical Co., Ltd.), monosodium phosphate (produced by Taiyo Chemical Co., Ltd.), and dipotassium hydrogen phosphate (produced by Taiyo Chemical Co., Ltd.) to the beaker. To obtain two liquids.

  Next, permanent treatment was performed on the hair using these permanent 1 liquid and 2 liquid. First, perm 1 liquid was applied evenly to human hair (hair bundle thickness 5 mm), and then the hair was tightly wound around a perm rod having a diameter of 32 mm. The largest rod “New Ever Extra Big Φ32” was adopted so that the degree of perm could be clearly understood. Thereafter, the hair is left for 15 minutes, and then the hair is washed with water while being wound around the perm rod. Then, the moisture of this hair was wiped off with a towel and 2 liquids were applied. Thereafter, the hair was left for 15 minutes, the hair was removed from the perm rod, and washed with water. Then, it was left to dry for a day. In this way, permanent-treated hair was obtained. The obtained hair was evaluated by the following method. The results are shown in Table 3.

  In addition, FIG. 2 has shown the state of the hair after carrying out the permanent process of hair using the composition for a permanent of a present Example. FIG. 2 is a photograph in the evaluation of the hair after the permanent treatment of the hair using the permanent composition of Example 1.

  FIG. 4 is an electron micrograph of the hair after treating the hair with the model system composition. That is, FIG. 4 is an electron micrograph of the hair surface after the model system composition has been applied to the surface and then washed. The model composition is a permanent composition that does not contain a permanent component.

[Volume]
The obtained hair (hair bundle) was turned upside down as shown in FIG. 2, and the degree of spread of the tip of the hair bundle was measured to evaluate the “volume feeling”. Evaluation was performed according to the following criteria. When the spread of the tip of the hair bundle is 10 cm or more, it is determined as “excellent” because the volume feeling is very high. When the spread of the tip of the hair bundle is 8 cm or more and less than 10 cm, it is judged as “good” because a volume feeling is produced. When the spread of the tip of the hair bundle is 6 cm or more and less than 8 cm, it is judged as “possible” because a sense of volume is slightly produced. When the spread at the tip of the hair bundle is less than 6 cm, it is determined as “impossible” because there is no volume feeling.

[Hari Kosi]
The resulting hair was visually observed for evaluation of “harness and stiffness”. Evaluation was performed according to the following criteria. When there is a lot of bending, it will be marked as “excellent” as Hari Koshi will be very much. When there is a bend, it will be judged as “good” as it will be sharp. When there is a slight bend, it will be judged as “OK” if a slight stiffness appears. When there is no bending, it is determined as “impossible” because there is no elasticity.

[Rise]
The obtained hair (hair bundle) was evaluated by visually observing the “rise” immediately after turning upside down as shown in FIG. Evaluation was performed according to the following criteria. “Excellent” is when the hair rises very much. “Good” is when the hair rises. “Yes” when the hair rises slightly. When the hair does not stand up, “impossible”.

[Stuck]
From the feeling when the obtained hair (hair bundle) was touched with a fingertip, evaluation of “stiffness” was performed. Evaluation was performed according to the following criteria. “Excellent” is when you do not feel any worries. “Good” is when you do not feel stiff. When it does not feel too stiff, it is determined as “OK”. When it is stiff, it is set as “impossible”.

[Sustainability]
After the hair (hair bundle) obtained was turned upside down as shown in FIG. 2, the degree of maintenance of “rise” was visually observed to evaluate “sustainability”. Evaluation was performed according to the following criteria. When the “rise” of the hair bundle is very long (maintained), it is defined as “excellent”. When the “rising” of the hair bundle is sustained (maintained), it is defined as “good”. When the “rise” of the hair bundle is slightly sustained (when maintained), it is determined as “OK”. When the “rise” of the hair bundle does not continue, the “rise” of the hair bundle is set to “impossible”.

[Perm]
The obtained hair was visually observed to evaluate “perm”. Evaluation was performed according to the following criteria. “Excellent” is when the wave is very wave curled. When a wave curl is applied to the hair, it is defined as “good”. When the hair is slightly wave curled, it is determined as “OK”. When the wave curl is not applied to the hair, it is determined as “impossible”.

  In the table, the upper column of each example and comparative example indicates the blending amount (g) of each component.

(Examples 2 to 5, Comparative Example 1)
As shown in the table, a permanent composition was obtained in the same manner as in Example 1 except that the conditions of each component constituting the permanent composition (cis-based permanent liquid 1) were changed. About the obtained composition for permanents, it evaluated by the above-mentioned method like Example 1. FIG. The results are shown in Table 3.

  In Comparative Example 1, a permanent composition containing no inorganic particles (a cis-based permanent liquid 1) was used.

  FIG. 3 shows the state of the hair after the permanent treatment of the hair using the permanent composition of Comparative Example 1. FIG. 3 is a photograph in the evaluation of hair after the permanent treatment using the permanent composition of Comparative Example 1.

  FIG. 5 is an electron micrograph of hair after treating the hair with a model composition (without hydrophobic inorganic particles). That is, FIG. 5 is an electron micrograph of the hair surface after applying the model composition (without the hydrophobic inorganic particles) to the surface and then washing. The model system composition (not including the hydrophobic inorganic particles) is a permanent composition that does not include the hydrophobic inorganic particles and the permanent component.

  It was when the content ratio of the hydrophobic silica particles was 3% by mass that the blending ratio of the hydrophobic silica particles and the component for the permanent was good and the effect was remarkable. When the content ratio of the hydrophobic silica particles exceeded 3% by mass, evaluations such as elasticity, rise and rise were high.

(Example 6)
In this example, a permanent composition (thio-based perm 1 liquid) was prepared. First, an oil-soluble dispersant and a surfactant were placed in a beaker, and dissolved in a hot water bath at 90 ° C. to 100 ° C. for dissolution. As the oil-soluble dispersant, cetostearyl alcohol (manufactured by Higher Alcohol Industry Co., Ltd.) was used. As the surfactant, distearyldimethylammonium chloride (cation 2ABT manufactured by NOF Corporation) and cetyltrimethylammonium chloride (Coatamine 60W manufactured by Kao Corporation) were used. Thereafter, 100 ° C. purified water was added and stirred to obtain a creamy mixture (emulsion).

Thereafter, a hair swelling agent was added to the cream mixture and mixed, and then hydrophobic silica (hydrophobic inorganic particles) was added and mixed. As the hair swelling agent, 28% ammonia water (manufactured by Daiseng Kakko Co., Ltd.) and 50% ammonium thioglycolate liquid (manufactured by Sasaki Chemical Co., Ltd.) were used. As hydrophobic silica particles, Aerosil R812 (manufactured by Nippon Aerosil Co., Ltd. (Evonik))
, Average particle diameter 7 nm) was used. In this way, thio perm 1 liquid (perm composition)
Got.

  Next, two liquids were prepared as follows. Add purified water, sodium bromate (sodium bromate Q manufactured by Sasaki Chemical Co., Ltd.), monosodium phosphate (produced by Taiyo Chemical Co., Ltd.), and dipotassium hydrogen phosphate (produced by Taiyo Chemical Co., Ltd.) to the beaker. To obtain two liquids.

  Next, permanent treatment was performed on the hair using these thio-based permanent liquids 1 and 2. The permanent treatment of hair was performed in the same manner as in Example 1, and then the same evaluation as in Example 1 was performed. The evaluation results are shown in Table 6.

(Examples 7 to 14, Comparative Example 2)
As shown in Table 4, a permanent composition (thio-based perm 1 liquid) was obtained in the same manner as in Example 6 except that the conditions of each component constituting the perm composition (thio-based perm 1 liquid) were changed. Got. Two liquids were prepared according to the formulation shown in Table 5.

  Next, permanent treatment was performed on the hair using these thio-based permanent liquids 1 and 2. The permanent treatment of hair was performed in the same manner as in Example 1, and then the same evaluation as in Example 1 was performed. The evaluation results are shown in Table 6.

  It can be seen that when the content of the hydrophobic silica particles is 15% by mass, the hair has effects such as firmness, firmness, rising, and volume feeling. “Wrinkle” was evaluated as “excellent” until the content of the hydrophobic silica particles was 5% by mass. Further, when the content ratio of the hydrophobic silica particles exceeded 12% by mass, the evaluation of “wrinkle” was “excellent”. A good balance between the degree of permanent permeation and elasticity is when the content of the hydrophobic silica particles is between 3 and 5% by mass.

(Example 15)
In this example, a permanent composition (cysteamine-based permanent liquid 1) was prepared. First, an oil-soluble dispersant and a surfactant were placed in a beaker, and dissolved in a hot water bath at 90 ° C. to 100 ° C. for dissolution. As the oil-soluble dispersant, cetostearyl alcohol (manufactured by Higher Alcohol Industry Co., Ltd.) was used. As the surfactant, distearyldimethylammonium chloride (cation 2ABT manufactured by NOF Corporation) and cetyltrimethylammonium chloride (Kao Cotamine 60W) were used. Thereafter, purified water at 100 ° C. was added and stirred. Thereafter, the mixture was placed in a 5 ° C. water basin and the temperature was lowered to 60 ° C. to obtain a creamy mixture.

  Thereafter, a hair swelling agent was added to the mixture and mixed, and then hydrophobic silica (hydrophobic inorganic particles) was added and mixed. As the hair swelling agent, cysteamine amine (manufactured by Sasaki Chemical Co., Ltd.) and 28% ammonia water (manufactured by Daiseng Kakko Co., Ltd.) were used. As the hydrophobic silica particles, Aerosil R812 (manufactured by Nippon Aerosil Co., Ltd. (Evonik Co., Ltd.), average particle diameter of 7 nm) was used. In this way, a cysteamine-based perm 1 liquid (perm composition) was obtained.

  Next, two liquids were prepared as follows. First, an oil-soluble dispersant and a surfactant were placed in a beaker, and dissolved in a hot water bath at 90 ° C. to 100 ° C. for dissolution. As the oil-soluble dispersant, cetostearyl alcohol (manufactured by Higher Alcohol Industry Co., Ltd.) was used. As the surfactant, stearyltrimonium chloride (cation AB600 manufactured by NOF Corporation) and lauryltrimethylammonium chloride (Coatamine 24P manufactured by Kao Corporation) were used. Thereafter, purified water at 100 ° C. was added and stirred. Thereafter, the mixture was placed in a 5 ° C. water basin and the temperature was lowered to 60 ° C. to obtain a creamy mixture. Then, sodium bromate (sodium bromate Q manufactured by Sasaki Chemical Co., Ltd.), disodium hydrogen phosphate (manufactured by Taiyo Chemical Co., Ltd.), and dipotassium hydrogen phosphate (manufactured by Taiyo Chemical Co., Ltd.) were added to this mixture. Two liquids were obtained.

  Next, permanent treatment was performed on the hair using these thio-based permanent liquids 1 and 2. The permanent treatment of hair was performed in the same manner as in Example 1, and then the same evaluation as in Example 1 was performed. The evaluation results are shown in Table 8.

(Examples 16 to 19, Comparative Example 3)
As shown in Table 7, a permanent composition (cysteamine-based perm 1 liquid) was obtained in the same manner as in Example 15 except that the conditions of each component constituting the permanent composition (cysteamine-based permanent 1 liquid) were changed. Got. Two liquids were prepared according to the formulation shown in Table 8.

  Next, permanent treatment was performed on the hair using these cysteamine-based permanent liquids 1 and 2. The permanent treatment of hair was performed by the same method as in Example 1, and then the same evaluation as in Example 15 was performed. Table 9 shows the evaluation results.

  Even when the content of the hydrophobic silica particles was 0.5% by mass, a sufficient effect was observed. The blending ratio of the hydrophobic silica particles and the permanent component was good, and the remarkable effect was exhibited when the content of the hydrophobic silica particles was 3% by mass and 4% by mass. When the content ratio of the hydrophobic silica particles exceeded 3% by mass, evaluations such as elasticity, rise and rise were high.

(Example 20)
In this example, a permanent composition (butyrolactone thiol-based permanent liquid 1) was prepared. First, an oil-soluble dispersant and a surfactant were placed in a beaker, and dissolved in a hot water bath at 90 ° C. to 100 ° C. for dissolution. As the oil-soluble dispersant, cetostearyl alcohol (manufactured by Higher Alcohol Industry Co., Ltd.) was used. As the surfactant, distearyldimethylammonium chloride (cation 2ABT manufactured by NOF Corporation) and cetyltrimethylammonium chloride (Kao Cotamine 60W) were used. Thereafter, purified water at 100 ° C. was added and stirred. Thereafter, the mixture was placed in a 5 ° C. water basin and the temperature was lowered to 60 ° C. to obtain a creamy mixture.

  Thereafter, a hair swelling agent was added to the cream mixture and mixed, and then hydrophobic silica (hydrophobic inorganic particles) was added and mixed. As the hair swelling agent, butyrolactone thiol (manufactured by Spiela Showa Denko) and disodium monohydrogen phosphate (manufactured by Taiyo Chemical Co., Ltd.) were used. As the hydrophobic silica particles, Aerosil R812 (manufactured by Nippon Aerosil Co., Ltd. (Evonik Co., Ltd.), average particle diameter of 7 nm) was used. In this manner, a butyrolactone thiol-based perm 1 liquid (perm composition) was obtained.

Next, two liquids were prepared as follows. In a beaker, purified water, sodium bromate (sodium bromate Q manufactured by Sasaki Chemical Co., Ltd.), disodium monohydrogen phosphate (manufactured by Taiyo Chemical Co., Ltd.)
And dipotassium hydrogen phosphate (manufactured by Taiyo Chemical Co., Ltd.) were added and stirred to obtain two liquids.

  Next, permanent treatment was performed on the hair using these butyrolactone thiol permanent liquids 1 and 2. The permanent treatment of hair was performed in the same manner as in Example 1, and then the same evaluation as in Example 1 was performed. The evaluation results are shown in Table 12.

(Examples 21, 22 and Comparative Example 4)
As shown in Table 10, the composition for the permanent (butyrolactone thiol-based permanent 1) was changed in the same manner as in Example 20 except that the conditions of the components constituting the composition for the permanent (butyrolactone thiol-based permanent 1 liquid) were changed. Liquid). Moreover, 2 liquids were produced with the formulation shown in Table 11.

  Next, permanent treatment was performed on the hair using these butyrolactone thiol permanent liquids 1 and 2. The permanent treatment of hair was performed in the same manner as in Example 1, and then the same evaluation as in Example 20 was performed. The evaluation results are shown in Table 12.

  Even when the content of the hydrophobic silica particles was 0.5% by mass, a sufficient effect was observed. It was when the content ratio of the hydrophobic silica particles was 3% by mass that the blending ratio of the hydrophobic silica particles and the component for the permanent was good and the effect was remarkable.

(Examples 23 to 46, Comparative Examples 5 to 8)
The composition for permanents as 2 liquids (2nd liquid) was produced by the mixing | blending shown in Table 13 and Table 14. FIG. At this time, the used permanent 1 liquid is shown in Table 13 to Table 15. Table 15 shows the detailed composition of the used permanent 1 liquid.

  The production method of the two liquids which are perm compositions is as follows.

  First, an oil-soluble dispersant and a surfactant were placed in a beaker, and dissolved in a hot water bath at 90 ° C. to 100 ° C. for dissolution. As the oil-soluble dispersant, cetostearyl alcohol (manufactured by Higher Alcohol Industry Co., Ltd.) was used. As the surfactant, stearyltrimonium chloride (cation AB600 manufactured by NOF Corporation) and lauryltrimethylammonium chloride (Coatamine 24P manufactured by Kao Corporation) were used. Thereafter, purified water at 100 ° C. was added and stirred. Thereafter, the mixture was placed in a 5 ° C. water basin and the temperature was lowered to 60 ° C. to obtain a creamy mixture. Then, sodium bromate (sodium bromate Q manufactured by Sasaki Chemical Co., Ltd.), disodium hydrogen phosphate (manufactured by Taiyo Chemical Co., Ltd.), and dipotassium hydrogen phosphate (manufactured by Taiyo Chemical Co., Ltd.) were added to this mixture. To obtain a mixed solution. Thereafter, hydrophobic silica (hydrophobic inorganic particles) was added to the mixed liquid and mixed. As the hydrophobic silica particles, Aerosil R812 (manufactured by Nippon Aerosil Co., Ltd. (Evonik Co., Ltd.), average particle diameter of 7 nm) was used. In this way, “2 liquid” which is a permanent composition was obtained.

  In Examples 23 to 28 (thio-based perm), when the content of the hydrophobic silica particles is 0.5% by mass, elasticity, rise and the like appear. The effect is most apparent when the content of the hydrophobic silica particles is 3% by mass and 4% by mass.

  In Examples 29 to 34 (cis-based permanent), the effect is most significant when the content of the hydrophobic silica particles is about 4% by mass.

  In Examples 35 to 40 (cysteamine-based permanent), the effect is most significant when the content ratio of the hydrophobic silica particles is about 7% by mass.

  In Examples 41 to 46 (butyrolactone thiol permanent), the balance of the effects is the highest when the content ratio of the hydrophobic silica particles is 3% by mass.

(Examples 47 to 85, Comparative Examples 9 to 16)
As shown in Table 19 to Table 21, a permanent composition (thio-based perm) was obtained in the same manner as in Example 6 except that the conditions of each component constituting the permanent composition (thio-based perm 1 liquid) were changed. 1 liquid) was obtained. Two liquids were prepared according to the formulation shown in Table 18.

  Next, permanent treatment was performed on the hair using these thio-based permanent liquids 1 and 2. The permanent treatment of hair was performed in the same manner as in Example 1, and then the same evaluation as in Example 1 was performed. The evaluation results are shown in Table 19 to Table 21.

  In Table 20, “titanium oxide TTO55 (C)” is hydrophobic inorganic particles (titanium oxide TTO-55 (C)) manufactured by Ishihara Sangyo Co., Ltd. having an average particle diameter of 30 to 50 nm. In Tables 19 to 21, “HDK H2000” is hydrophobic inorganic particles manufactured by Asahi Kasei Wacker Co., Ltd., having an average particle size of 10 to 100 nm. “VM2270” is hydrophobic inorganic particles manufactured by Dow Corning having an average particle size of 5 to 15 μm.

(Examples 86 to 125, Comparative Examples 17 to 24)
As shown in Table 22 to Table 24, a permanent composition (cis-based perm) was prepared in the same manner as in Example 1 except that the conditions of each component constituting the permanent composition (cis-based perm 1 liquid) were changed. 1 liquid) was obtained. Two liquids were prepared according to the formulation shown in Table 18.

  Next, permanent treatment was performed on the hair using these cis-based permanent liquids 1 and 2. The permanent treatment of hair was performed in the same manner as in Example 1, and then the same evaluation as in Example 1 was performed. The evaluation results are shown in Table 22 to Table 24.

(Examples 126 to 248, Comparative Examples 25 to 48)
As shown in Table 26 to Table 33, a permanent composition as two liquids (second liquid) was obtained in the same manner as in Example 23, except that the conditions of the constituent components were changed. At this time, the permanent 1 liquid used is shown in Table 25. In Table 25, “thio-based first agent” indicates the first liquid for the permanent composition (second liquid) described in Table 26 and Table 30. In Table 25, “cis-based first agent” indicates the first liquid for the permanent composition (second liquid) described in Table 27 and Table 31. In Table 25, “cysteamine first agent” indicates the first liquid with respect to the permanent composition (second liquid) described in Table 28 and Table 32. In Table 25, “Butyrolactone thiol-based first agent” refers to the first liquid with respect to the permanent composition (second liquid) described in Table 29 and Table 33.

  Next, permanent treatment was performed on the hair using these 1 and 2 liquids. The permanent treatment of hair was performed in the same manner as in Example 1, and then the same evaluation as in Example 1 was performed. The evaluation results are shown in Table 26 to Table 33.

(Examples 249 to 287, Comparative Examples 49 to 56)
As shown in Tables 35 to 37, a permanent composition (cysteamine-based permanent) was obtained in the same manner as in Example 15 except that the conditions of each component constituting the permanent composition (cysteamine-based permanent liquid 1) were changed. 1 liquid) was obtained. Two liquids were prepared according to the formulation shown in Table 34.

  Next, permanent treatment was performed on the hair using these cysteamine-based permanent liquids 1 and 2. The permanent treatment of hair was performed by the same method as in Example 1, and then the same evaluation as in Example 15 was performed. The evaluation results are shown in Tables 35 to 37.

(Examples 288 to 326, Comparative Examples 57 to 64)
As shown in Table 39 to Table 41, a permanent composition (butyrolactone thiol) was prepared in the same manner as in Example 20 except that the conditions of each component constituting the permanent composition (butyrolactone thiol-based permanent liquid 1) were changed. System perm 1 liquid) was obtained. Moreover, 2 liquids were produced with the formulation shown in Table 38.

  Next, permanent treatment was performed on the hair using these butyrolactone thiol permanent liquids 1 and 2. The permanent treatment of hair was performed in the same manner as in Example 1, and then the same evaluation as in Example 1 was performed. The evaluation results are shown in Table 39 to Table 41.

(Reference Example 1)
A model system composition containing hydrophilic inorganic particles and no hydrophobic inorganic particles was prepared. This model composition comprises 2.0% by weight hydrophilic silica Aerosil 300 as hydrophilic inorganic particles, 12.4% by weight cetostearyl alcohol, 0.9% by weight distearyldimethylammonium chloride as an oil-soluble dispersant. , 6.1% by mass of lauryltrimethylammonium chloride, and 78.6% by mass of purified water. This model composition was applied to the surface of the hair, and then the surface of the hair after washing with water was observed with an electron micrograph. FIG. 6 is an electron micrograph of hair after the hair has been treated with the model composition (model composition containing hydrophilic inorganic particles and not containing hydrophobic inorganic particles).

  As shown in FIG. 6, in the case of using the “model composition containing hydrophilic inorganic particles and not containing hydrophobic inorganic particles”, the cuticle edge exposed to the outside in the hair, and the cuticle edge It remained a cavity between the covered inner cuticle. In addition, no voluminous feel or firmness was obtained in the hair.

  As is apparent from Examples 1 to 326, the composition for permanent use of Examples 1 to 326 can perform permanent treatment on the hair, and can keep the hair in a state of volume and firmness for a long time. Can do.

  The permanent composition of the present invention can be suitably used as a permanent agent for permanent treatment of hair.

1: inorganic particle dispersion, 2: hydrophobic inorganic particles, 5: oil-soluble dispersant, 9: surfactant, 10: aqueous solvent, 11: first phase, 12: second phase, 100: composition for permanent .

Claims (5)

Having an emulsion structure composed of a granular first phase and a second phase in which the first phase is dispersed;
An inorganic material comprising one of the first phase and the second phase and comprising hydrophobic inorganic particles having an average particle diameter of 1 nm to 15 μm in primary particles and an oil-soluble dispersant in which the hydrophobic inorganic particles are dispersed. A particle dispersion;
An aqueous solvent constituting the other of the first phase or the second phase;
A surfactant for forming an interface between the first phase and the second phase;
A permanent component contained in the first phase, the second phase, or both the first phase and the second phase,
The content ratio of the hydrophobic inorganic particles is 0.03 to 15.9% by mass of the total mass,
The composition for permanents whose content rate of the said oil-soluble dispersing agent is 1.5-20 mass% of the total mass.   The permanent composition according to claim 1, wherein an average particle diameter of primary particles of the hydrophobic inorganic particles is 1 nm to 1 μm. The content ratio of the hydrophobic inorganic particles is 0.1 to 15.9% by mass of the total mass,
The permanent composition according to claim 1 or 2, wherein the content of the oil-soluble dispersant is 3 to 20% by mass of the total mass.   The content ratio of the said aqueous solvent is 20-96.9 mass% of the total mass, The composition for permanents as described in any one of Claims 1-3.   The permanent composition according to any one of claims 1 to 4, wherein the hydrophobic inorganic particles are hydrophobic silica particles.