CN110897931A - Transparent shower gel adopting cold blending process and preparation method thereof - Google Patents

Abstract

The invention discloses transparent shower gel which comprises the following raw materials in percentage by weight: 10-80% of liquid soap base, 0-2% of acrylate copolymer, 0-1% of potassium hydroxide, 0-0.8% of buffering agent, 0-0.2% of chelating agent and the balance of water, wherein the pH value of the transparent shower gel is 9.5-10; according to the invention, the transparent shower gel is obtained by compounding the liquid soap base added with the acrylate copolymer and the specific raw materials in proportion, and the corresponding cold preparation process is adopted, so that the preparation method of the transparent shower gel is simple and strong in practicability, and the prepared shower gel product has the advantages of transparent appearance, abundant foam, strong cleaning power, easiness in washing, mild moisture, no stimulation and the like.

Description

Transparent shower gel adopting cold blending process and preparation method thereof

Technical Field

The invention belongs to the technical field of shower gel, and particularly relates to transparent shower gel adopting a cold compounding process and a preparation method thereof.

Background

The description of the background of the invention pertaining to the related art to which this invention pertains is given for the purpose of illustration only and for the purpose of facilitating an understanding of the contents of the present invention, and should not be taken as an admission or admission that the applicant expressly considered or assumed that the applicant considered prior art to the filing date of the first filing date of the present application.

The bath lotion is a liquid cleaning agent used in bathing. The national standards of body wash classify body washes into two categories, soap-based and non-soap based, based on the type of primary surfactant used in their formulation. The soap-based shower gel is modified based on a soap making principle, has the advantages of rich foam, strong cleaning power, easiness in cleaning and the like, but also has the defects of skin irritation, insufficient moisture and the like caused by high degreasing power and water loss rate. The soap-based shower gel has development difficulty in stability. Firstly, the paste is easy to form at low temperature and is not easy to be matched with an outer packaging material for use; the cleaning agent is easily divided into a plurality of layers at low temperature, so that the cleaning effect is reduced; and the soap base shower gel is difficult to thicken and difficult to meet the user experience.

The soap base is used as one of the main raw materials of the soap base bath lotion and can be divided into two types according to the forms, namely a liquid soap base and a solid soap base, the existing liquid soap base generally contains fatty acid potassium, in a system with freely moving chemical molecules, fatty acid radicals in the fatty acid potassium are easy to contact with hydrogen ions in the system to form fatty acid, the fatty acid formed by the fatty acid radicals is easy to combine with the hydrogen ions along with the reduction of the solubility of the fatty acid under the low temperature state, and the fatty acid is separated out of the system, so that the layering phenomenon is generated, the existing liquid soap base has the defects of poor stability, easy separation of paste under the low temperature state, difficult stable storage and the like, so the soap base is difficult to be widely popularized and used in the market, the solid soap base exists in the solid form, the stability of the soap base is ensured, but the main component of the solid soap base is a sodium octadecanoate, the alkalinity is, when the soap is applied, solid soap base needs to be stirred strongly, converted into heat energy through mechanical energy, heated and softened and then extruded and molded to form soap blocks, so that when the solid soap base is used for preparing products, energy for softening the solid soap base needs to be increased, and the injection molding and demolding time needs to be prolonged, so that the production cost of the products is increased. The liquid soap-based shower gel is convenient to use, good in cleaning power, rich in foam, easy to wash, moist and comfortable after use, and has excellent use experience of consumers, so that the liquid soap-based shower gel is deeply loved by the consumers.

Modern consumers prefer individual care cleansing products with transparent packaging and transparent texture. Consumers can see the content substances more intuitively, and the purchasing desire is enhanced. However, the soap-based bath lotion with a transparent appearance has poor stability at low temperature, is easy to precipitate, fog and the like, and is particularly obvious for transparent soap-based bath lotions containing high content of fatty acid. In order to achieve the transparent effect of the bath lotion, in terms of fatty acid composition, the dosage of long-carbon-chain fatty acid is required to be controlled as much as possible, the neutralization degree of the soap base is required to be improved (even more than 100%, and the pH is at least more than 10), so that the content of the soap anionic surfactant is increased and the content of free fatty acid is reduced, which can also cause irritation of the product. Can not meet the pH value in the national standard GB/T34857-2017 bathing agent: 4.0-10.0.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the transparent shower gel adopting the cold compounding process.

The technical scheme adopted by the invention for solving the technical problems is as follows:

1) the transparent shower gel comprises the following raw materials in percentage by weight:

10-80% of liquid soap base;

0-2% of an acrylate copolymer;

0-1% of potassium hydroxide;

0-0.8% of a buffering agent;

0-0.2% of a chelating agent;

the balance of water;

the pH value of the transparent shower gel is 9.5-10;

2) the liquid soap base is prepared from the following raw materials in percentage by weight:

0.3-2.4% of acrylate copolymer;

1-10% of potassium hydroxide;

3-30% of dodecanoic acid;

0-15% of myristic acid;

the balance of water;

the total amount of dodecanoic acid and tetradecanoic acid is not more than 30%;

the pH value of the liquid soap base is 9.5-10;

3) the acrylate copolymer is prepared from the following raw materials in percentage by weight:

1-5% of acrylic acid;

8-12% of methacrylic acid;

7-11% of ethyl acrylate;

5-8% of butyl acrylate;

0.05 to 0.2 percent of cross-linking agent

0.05-0.2% of an initiator;

1-3% of an emulsifier;

the balance being water.

Further, the transparent shower gel can also be prepared from the following raw materials in percentage by weight:

10-80% of liquid soap base;

0-2% of an acrylate copolymer;

0-1% of potassium hydroxide;

0-0.8% of a buffering agent;

0-0.2% of a chelating agent;

0 to 4 percent of thickening agent

0.1-2% of essence;

0-10% of a surfactant;

the balance of water;

the surfactant includes a nonionic surfactant and a zwitterionic surfactant.

Further, the chelating agent is one or two of hydroxyethyl diphosphoric acid (also known as etidronic acid, hydroxyethylidene diphosphoric acid and hydroxyethyl diphosphonic acid) or EDTA.

The nonionic surfactant is at least one of cocamide DEA and cocamide methyl MEA, and the zwitterionic surfactant is cocamidopropyl betaine.

Further, the buffer is dipotassium hydrogen phosphate.

Further, the thickener is at least one of potassium chloride and sodium chloride.

Further, the water is deionized water with the conductivity of less than 2 mu s/cm.

The invention also aims to provide a preparation method of the transparent shower gel, which comprises the following steps:

s1, adding the acrylate copolymer and water into a stirring pot at normal temperature, uniformly stirring, and neutralizing the acrylate with a proper amount of potassium hydroxide until the liquid is transparent;

s2, sequentially adding a buffering agent, a chelating agent, a thickening agent and a surfactant into the stirring pot; s3, adjusting the pH value to 9-9.5 by using a 20% potassium hydroxide aqueous solution;

s4, adding liquid soap base into the stirring pot, and uniformly stirring to obtain a material body;

s5, taking out 5 g of the material body, preparing the material body and pure water into a 10% solution according to the ratio of 1:9, and measuring the pH value;

s6, adjusting the pH value of the material body to 9.5-10 by using a potassium hydroxide solution with the concentration of 20%.

Further, the preparation of the liquid soap base comprises the following steps:

t1, adding the acrylate copolymer into water at normal temperature, stirring and mixing, and adding potassium hydroxide to form uniform thick transparent liquid;

t2, heating the uniform thick transparent liquid in the T1 to 80 ℃, preserving the heat for 30-40 minutes, adding dodecanoic acid, and stirring and mixing;

t3, after all the dodecanoic acid is reacted, the solution becomes uniform transparent viscous liquid;

t4, adding tetradecanoic acid;

t5, after all the myristic acid is reacted, the solution becomes uniform transparent viscous liquid;

t6, 5 g of the homogeneous, transparent and viscous liquid obtained in T5 were taken out, and mixed with pure water at a ratio of 1:9 preparing 10% solution, and measuring the pH value;

t7, adjusting the pH to 9.5-11 by using a potassium hydroxide solution with the concentration of 20%;

and T8, cooling to normal temperature to obtain liquid soap base.

Further, the preparation of the acrylate copolymer comprises the following steps:

u1, adding a proper amount of initiator into a proper amount of water, mixing, and fully dissolving to obtain a water phase;

u2, mixing acrylic acid, methacrylic acid, ethyl acrylate, butyl acrylate and a cross-linking agent to obtain an oil phase;

u3, putting the emulsifier, the rest of the initiator and the rest of the water into an emulsification reactor, heating to 80 ℃, slowly pumping the water phase and the oil phase into the emulsification reactor in equal proportion under stirring, stirring and mixing, and carrying out polymerization reaction to form microemulsion;

u4, cooling the microemulsion to 50 ℃ and filtering to obtain a semi-finished product;

u5, dehydrating and purifying the semi-finished product to obtain the acrylate copolymer.

In a transparent shower gel system, the solubility of free fatty acid is extremely low at low temperature, and the free fatty acid is easy to separate out from the system to cause the product to be layered. The acrylate copolymer has strong suspension capacity, can prevent chemical molecules from freely moving, effectively prevents free fatty acid from precipitating out of a system, and avoids product layering, so that the shower gel is presented in a transparent form.

The liquid soap base is introduced into the transparent shower gel, the saponification is carried out by adopting fatty acid and potassium hydroxide, and the acrylic ester copolymer is added as a suspending agent to keep the liquid soap base stable, so that the problems that the soap base is difficult to apply to a transparent system and the thickening is difficult are solved, meanwhile, the low temperature resistance of the transparent shower gel is greatly improved by the suspending capacity of the acrylic ester copolymer, in the raw material formula of the transparent shower gel, as the liquid soap base contains the acrylic ester copolymer, the weight percentage of the acrylic ester copolymer in the formula is correspondingly reduced along with the increase of the weight percentage of the liquid soap base in the formula, when the weight percentage of the liquid soap base in the formula reaches a certain value, the weight percentage of the acrylic ester copolymer in the system meets the formula requirement, the acrylic ester copolymer does not need to be added, but when the suspending capacity needs to be enhanced in the system, the amount of the acrylate copolymer can be increased in a proper amount, and if suspended particles are added into the system and need to be suspended in the system, more acrylate copolymer needs to be added to improve the suspending capacity of the system.

The potassium hydroxide is used for neutralizing the acrylate copolymer and free fatty acid, so that the acrylate copolymer expands after absorbing water, and the suspending and thickening capabilities of the acrylate copolymer are realized. And the fatty acid is neutralized to form fatty acid potassium, so that free fatty acid in the system is reduced, and the phenomenon that the product is layered due to the fact that the system is separated out along with the reduction of the solubility of the fatty acid when the temperature is reduced is avoided.

When the pH value of the transparent shower gel is adjusted, the adjustment of the pH value is stabilized through the action of a buffering agent in a system, so that the adjustment of the pH value is stably carried out, the phenomenon of sudden drop or sudden rise in the adjustment of the pH value of the shower gel is avoided, the adjustment operation of the pH value is simpler, and the adjustment precision is improved.

The metal ion exists the transparency that can influence the shower bath and makes the shower bath mix metal ion's color in the shower bath to metal ion concentration is too high can strengthen the irritability of shower bath, through adding the chelant in the system, the chelant chelates with the metal ion in the system, thereby reduces the concentration of metal ion in the system, makes the stability of shower bath improve, and the shower bath is gentler, and moist effect improves.

Meanwhile, in order to improve the consistency of the shower gel, a thickening agent can be added into the system, and the consistency of the shower gel can be blended according to different consistency requirements. In addition, in order to enable the shower gel to carry various fresh fragrances, a proper amount of essence can be added into the system, and the types of the essence can be added according to the preference of various people, including fruit essence, flower essence, milk essence and the like. When the viscosity and the transparency in the system are not well adjusted, the surfactant can be added into the system, the stability of the system is further improved through the micelle action of the surfactant, the transparent shower gel can be thickened through the micelle action among the surfactants, and the problem that the transparent system is difficult to thicken is solved.

The invention has the beneficial effects that: according to the invention, the transparent shower gel is obtained by compounding the liquid soap base added with the acrylate copolymer and the specific raw materials in proportion, and the corresponding cold preparation process is adopted, so that the preparation method of the transparent shower gel is simple and strong in practicability, and the prepared shower gel product has the advantages of transparent appearance, abundant foam, strong cleaning power, easiness in washing, mild moisture, no stimulation and the like.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention are clearly and completely described below.

The first embodiment is as follows:

the embodiment discloses transparent shower gel adopting a cold blending process, which is prepared from the following raw materials in percentage by weight:

liquid soap base: 30 percent;

acrylate copolymer (solid content 30%): 1.5 percent;

20% strength potassium hydroxide solution: 3.1 percent;

30% strength dipotassium hydrogen phosphate solution: 2 percent;

cocamidopropyl betaine: 5 percent;

cocamide DEA: 3.6 percent;

20% strength potassium chloride solution: 20 percent;

hydroxyethyl diphosphate: 0.1 percent;

essence: proper amount;

the balance is deionized water with the conductivity less than 2 mu s/cm;

wherein the hydroxyethyl diphosphonic acid is neutralized to a solution with a pH value of 8.5-10.0 by using a potassium hydroxide solution with a concentration of 20%.

The transparent shower gel is prepared by the following steps:

s1, adding 1.5% of acrylate copolymer (with solid content of 30%) and water into a stirring pot at normal temperature, uniformly stirring, and adding a proper amount of potassium hydroxide solution with concentration of 20% to neutralize the acrylate until the liquid is transparent;

s2, sequentially adding 30% dipotassium hydrogen phosphate solution, hydroxyethyl diphosphate, 20% potassium chloride solution, cocamidopropyl betaine and cocamide DEA into the stirring pot, and uniformly mixing and stirring;

s3, adjusting the pH value to 9-9.5 by using a potassium hydroxide solution with the concentration of 20%;

s4, adding liquid soap base into the stirring pot, and uniformly stirring to obtain a material body;

s5, taking out 5 g of the material body, preparing the material body and pure water into a 10% solution according to a ratio of 1:9, measuring the pH value, and calculating the amount of the potassium hydroxide solution to be added for adjusting the pH value of the material body;

s6, adjusting the pH value of the material body to 9.5-10 by using a potassium hydroxide solution with the concentration of 20% to obtain a transparent shower gel product with the soap base content of 30%.

Wherein the acrylate polymer is prepared by the following steps,

raw materials:

acrylic acid: 3 percent;

methacrylic acid: 10 percent;

ethyl acrylate: 9.5 percent;

butyl acrylate: 7.8 percent;

a crosslinking agent: 0.1 percent;

0.1% of an initiator;

1% of an emulsifier;

the balance is deionized water with the conductivity less than 2 mu s/cm;

the preparation method of the acrylate polymer comprises the following steps:

u1, adding 0.05% of initiator into a proper amount of water, mixing, and fully dissolving to obtain a water phase, wherein the initiator is potassium persulfate;

u2, mixing 3% of acrylic acid, 10% of methacrylic acid, 9.5% of ethyl acrylate, 7.8% of butyl acrylate and 0.1% of cross-linking agent to obtain an oil phase;

u3, putting 1% of emulsifier, 0.05% of initiator and the rest water into an emulsion reactor, heating to 80 ℃, slowly and uniformly pumping a water phase and an oil phase into the emulsion reactor in equal proportion, stirring and mixing, carrying out polymerization reaction to generate and form microemulsion, wherein a small amount of slag particles may be generated temporarily in the system during the polymerization and emulsion reaction process, and filtering and removing after the reaction;

u4, cooling the microemulsion to 50 ℃ and filtering to obtain a semi-finished product;

u5, dehydration purification of the microemulsion obtained in U4 to give an acrylate copolymer.

The results of the acrylate copolymer tests are shown in the following table:

inspection item	Measured value	Analytical method
			Appearance (25 ℃ C.)	Meets the requirements	Visual inspection of
Smell(s)	Meets the requirements	Normal sense of sight
			pH (10% aqueous solution)	2.75	GB/T6368
Solid content (%)	30.1	QBT1974
			Bacterium (CFU/g)	N.D	GB7918.2
Mold (CFU/g)	N.D	GB7918.2

The water in the microemulsion can be evaporated by heating, the main component of the solid matter existing in an evaporation pan after evaporation is the acrylate copolymer, the solid content of the microemulsion can be calculated by the mass ratio of the solid matter to the microemulsion, the mass of the acrylate copolymer in the microemulsion can be calculated by the solid content of the microemulsion, when the liquid soap base is prepared, the acrylate copolymer can be added by the microemulsion, the microemulsion can be added by the mass conversion of the solid content of the acrylate copolymer, the dehydration and purification steps are not needed, the working flow is simplified, and the corresponding potassium hydroxide and the corresponding fatty acid can also be converted by the mass conversion of the corresponding solution. And the acrylic acid, the methacrylic acid, the ethyl acrylate, the butyl acrylate and the cross-linking agent are subjected to copolymerization reaction under the action of an initiator to form an acrylate copolymer, and the acrylate copolymer is stably existed.

The liquid soap base is prepared by the following steps,

acrylate copolymer (solid content 30%): 5 percent;

potassium hydroxide: 8.5 percent;

dodecanoic acid: 20 percent;

myristic acid: 4 percent;

the balance is deionized water with the conductivity less than 2 mu s/cm;

the preparation of the liquid soap base comprises the following steps:

t1, adding 5% acrylate copolymer (solid content is 30%) into water at normal temperature, stirring and mixing, and adding potassium hydroxide to form uniform thick transparent liquid;

t2, heating the uniform thick transparent liquid in the T1 to 80 ℃, preserving the heat for 30-40 minutes, adding dodecanoic acid, and stirring and mixing;

t3, after all the dodecanoic acid is reacted, the solution becomes uniform transparent viscous liquid;

t4, adding tetradecanoic acid;

t5, after all the myristic acid is reacted, the solution becomes uniform transparent viscous liquid;

t6, 5 g of the homogeneous, transparent and viscous liquid obtained in T5 were taken out, and mixed with pure water at a ratio of 1:9 preparing 10% solution, measuring the pH value, and calculating the amount of the potassium hydroxide solution to be added for adjusting the pH value of the liquid;

t7, adjusting the pH to 9.5-11 by using a potassium hydroxide solution with the concentration of 20%;

and T8, cooling to normal temperature to obtain liquid soap base.

The weight percentage content of the raw materials is added into the system by adopting the solution of the substance, and the percentage content of the substance can be counted and converted through the solid content, so that the mixture ratio of the substance added into the system is consistent.

The transparent shower gel of the embodiment is prepared by adopting the liquid soap base as one of the raw materials, and is not required to be softened by converting mechanical energy into heat energy like a solid soap base, so that the processing process is simplified, and the transparent shower gel product prepared by adopting the specially-prepared liquid soap base and other corresponding raw materials of the embodiment by adopting the preparation method has good stability, can be stably stored in low-temperature and high-temperature states, and keeps various effects.

Example two:

the embodiment discloses transparent shower gel adopting a cold blending process, which is prepared from the following raw materials in percentage by weight:

liquid soap base: 45 percent;

acrylate copolymer (solid content 30%): 4.3 percent;

20% strength potassium hydroxide solution: 1.7 percent;

30% strength dipotassium hydrogen phosphate solution: 1.5 percent;

cocamidopropyl betaine: 10 percent;

hydroxyethyl diphosphate: 0.1 percent;

suspending particles: proper amount;

essence: proper amount;

the balance is deionized water with the conductivity less than 2 mu s/cm;

wherein the hydroxyethyl diphosphonic acid is neutralized to a solution with a pH value of 8.5-10.0 by using a potassium hydroxide solution with a concentration of 20%.

The suspended particles can be various petal substances and the like, the petal suspended particles can be suspended in a system to improve the beauty of the transparent shower gel, and meanwhile, the petals contain a plurality of natural nutrient substances, so that the transparent shower gel can help the skin to recover vitality and promote the renewal process, and can nourish and provide mineral substances required by the skin; increasing skin elasticity, moisturizing and preventing skin from aging in advance; the dry skin is improved, and the skin shows tender and smooth touch and has various effects;

the transparent shower gel is prepared by the following steps:

step one, adding soap base into a stirring pot, then adding a proper amount of deionized water (10%), cocamidopropyl betaine, 30% dipotassium hydrogen phosphate solution and 20% potassium hydroxide solution while stirring, and fully reacting under the stirring action to obtain a component A;

adding the rest deionized water and the acrylate copolymer into another stirring pot, and uniformly stirring to obtain a component B;

slowly adding the component B into the component A under rapid stirring (the stirring speed is 500-700 r/min), and mixing to obtain a component C after the liquid in the stirring pot is completely transparent;

adding the suspended particles, essence and hydroxyethyl diphosphonic acid into the component C, and uniformly stirring to uniformly suspend the suspended particles in the system to obtain a component D;

and step five, adding a proper amount of 20% potassium hydroxide solution into the component D to adjust the pH value to 9.9-10.0, so as to obtain a transparent shower gel product with 45% of soap base content and suspended particles.

Since suspended particles are added in this example, more acrylate copolymer (> 2%) needs to be added to improve the suspendability of the system.

The preparation methods of the acrylate copolymer and the liquid soap base in the embodiment are the same as those in the first embodiment.

The petals are added in the embodiment to serve as the suspended particles, so that the appearance of the shower gel product is more attractive, meanwhile, the petal suspended particles contain a large amount of mineral substances beneficial to the human body, and the mineral substances are absorbed by the skin of the human body after the shower gel product is used, so that the skin feeling of the skin is better, and the shower gel product is suitable for young women.

Example three:

the embodiment discloses transparent shower gel adopting a cold blending process, which is prepared from the following raw materials in percentage by weight:

liquid soap base: 50 percent;

acrylate copolymer (solid content 30%): 0.5 percent;

20% strength potassium hydroxide solution: 1 percent;

30% strength dipotassium hydrogen phosphate solution: 2 percent;

20% strength potassium chloride solution: 20 percent of

Cocamidopropyl betaine: 5 percent;

cocoamide methyl MEA: 2.5 percent;

hydroxyethyl diphosphate: 0.1 percent;

essence: proper amount;

the balance is deionized water with the conductivity less than 2 mu s/cm;

wherein the hydroxyethyl diphosphonic acid is neutralized to a solution with a pH value of 8.5-10.0 by using a potassium hydroxide solution with a concentration of 20%.

The transparent shower gel is prepared by the following steps:

step one, adding an acrylate polymer and deionized water into a stirring pot, mixing and stirring uniformly, and adding a potassium hydroxide solution with the concentration of 20% for neutralization until the solution is transparent;

step two, sequentially adding liquid soap base, dipotassium hydrogen phosphate, cocamidopropyl betaine, cocamide MEA and 20% potassium chloride solution into a stirring pot, and uniformly mixing and stirring;

adding essence and a hydroxyethyl diphosphoric acid solution into the stirring pot, and mixing and stirring uniformly;

and step four, adding a proper amount of 20% potassium hydroxide solution to adjust the pH value of the bath cream to 9.9-10.0, and obtaining a transparent bath cream product with the soap base content of 50%.

The preparation methods of the acrylate copolymer and the liquid soap base in the embodiment are the same as those in the first embodiment.

Each index of this embodiment is moderate, and the mildness, the spreadability and the foaminess of shower gel product are better, have stronger stability, and the irritability of the transparent shower gel product of this embodiment is lower simultaneously, and the cleaning capacity is stronger, is fit for masses consumer and uses.

Example four:

the embodiment discloses transparent shower gel adopting a cold blending process, which is prepared from the following raw materials in percentage by weight:

liquid soap base: 60 percent;

30% strength dipotassium hydrogen phosphate solution: 2 percent;

20% strength potassium chloride solution: 20 percent of

Cocamidopropyl betaine: 5 percent;

cocoamide methyl MEA: 2.5 percent;

hydroxyethyl diphosphate: 0.1 percent;

essence: proper amount;

20% strength potassium hydroxide solution: proper amount;

the balance is deionized water with the conductivity less than 2 mu s/cm;

wherein the hydroxyethyl diphosphonic acid is neutralized to a solution with a pH value of 8.5-10.0 by using a potassium hydroxide solution with a concentration of 20%.

The transparent shower gel is prepared by the following steps:

step one, sequentially adding liquid soap base, deionized water, dipotassium hydrogen phosphate, cocamidopropyl betaine, cocamide MEA and a 20% potassium chloride solution into a stirring pot, and uniformly mixing and stirring;

secondly, adding essence and a hydroxyethyl diphosphonic acid solution into the stirring pot, and uniformly mixing and stirring;

and step three, adding a proper amount of 20% potassium hydroxide solution to adjust the pH value of the bath cream to 9.9-10.0, and obtaining a transparent bath cream product with 60% of soap base content.

The preparation methods of the acrylate copolymer and the liquid soap base in the embodiment are the same as those in the first embodiment.

The transparent shower gel product of this embodiment is whole consistency higher, has stronger stability, and the foam is abundant, and the cleaning ability is stronger, and is particularly effective to the cleaning ability of some stubborn stains, is applicable to the crowd who works in adverse circumstances and uses.

Comparative example one:

the material is prepared from the following raw materials in percentage by weight:

liquid soap base: 9 percent;

acrylate copolymer (solid content 30%): 2 percent;

20% strength potassium hydroxide solution: 4 percent;

30% strength dipotassium hydrogen phosphate solution: 2 percent;

cocamidopropyl betaine (active content 35%): 5 percent;

cocamide MEA: 2.5 percent;

20% strength potassium chloride solution: 20 percent;

hydroxyethyl diphosphate: 0.1 percent;

essence: proper amount;

the balance is deionized water with the conductivity less than 2 mu s/cm;

wherein the hydroxyethyl diphosphonic acid is neutralized to a solution with a pH value of 8.5-10.0 by using a potassium hydroxide solution with a concentration of 20%.

The transparent shower gel is prepared by the following steps:

step one, adding 2% of acrylate polymer (with the solid content of 30%) and deionized water into a stirring pot, mixing and stirring uniformly, and adding a potassium hydroxide solution with the concentration of 20% for neutralization until the solution is transparent;

step two, adding the following components into a stirring pot in sequence: mixing 9% liquid soap base, 2% 30% dipotassium hydrogen phosphate solution, cocamidopropyl betaine, cocamide MEA, and 20% potassium chloride solution, and stirring;

adding essence and a hydroxyethyl diphosphonic acid solution into a stirring pot, and uniformly mixing and stirring;

and step four, adding a proper amount of 20% potassium hydroxide solution to adjust the pH value of the bath cream to 9.9-10.0, and obtaining a transparent bath cream product with the soap base content of 9%.

Comparative example two:

the material is prepared from the following raw materials in percentage by weight:

liquid soap base: 81 percent;

30% strength dipotassium hydrogen phosphate solution: 2 percent;

cocamidopropyl betaine: 5 percent;

cocoamide methyl MEA: 2.5 percent;

hydroxyethyl diphosphate: 0.1 percent;

essence: proper amount;

20% strength potassium hydroxide solution: proper amount;

the balance is deionized water with the conductivity less than 2 mu s/cm;

wherein the hydroxyethyl diphosphonic acid is neutralized to a solution with a pH value of 8.5-10.0 by using a potassium hydroxide solution with a concentration of 20%.

The transparent shower gel is prepared by the following steps:

step one, adding liquid soap base, deionized water, dipotassium hydrogen phosphate, cocamidopropyl betaine and cocamide MEA into a stirring pot in sequence, and mixing and stirring uniformly;

secondly, adding essence and a hydroxyethyl diphosphonic acid solution into the stirring pot, and uniformly mixing and stirring;

and step three, adding a proper amount of 20% potassium hydroxide solution to adjust the pH value of the bath cream to 9.9-10.0, and obtaining a transparent bath cream product with the soap base content of 81%.

The preparation methods of the acrylate copolymer and the liquid soap base in the embodiment are the same as those in the first embodiment.

The transparent shower gel obtained in the four examples and the two comparative examples is subjected to use feeling, microorganism index and sensory index detection, wherein the use feeling evaluation method comprises the following steps: 60 testers (equal male and female, age range 18-65 years) are selected, 10 testers are extracted from each example and comparative example respectively, and blind tests are carried out on the examples and comparative examples. Each example and comparative example were measured in parallel 3 times. The testers evaluate the product according to the use feeling of the testers, and the product mainly comprises six directions of mildness, spreadability, rich foam, foam texture, water flushing skin feeling and dry skin feeling. The evaluation result is the average score of all testers, the higher the average score is, the better the effect is, the comprehensive scoring standard adopts 10 scores, 1 score is the worst, and 10 score is the best. The using method comprises the following steps: wetting the body; 20 g of the sample is put on one wet hand, the hands are soft, the body skin is coated evenly and bubbles are formed, and finally the body is washed clean by clear water and wiped dry.

The following table is a table of evaluation results of the use feeling of examples and comparative examples:

usage perception scoring	Mildness property	Spreadability	Rich foam feeling	Foam texture	Skin feel by flushing	Dry skin feel
							Example one	9.7	9.2	9.3	9.0	9.1	9.0
Example two	9.0	9.1	8.6	8.4	9.3	9.5
							EXAMPLE III	9.5	9.1	9.4	9.0	9.4	8.6
Example four	9.3	9.5	9.6	9.1	9.1	8.5
							Comparative example 1	7.6	8.5	7.8	6.5	8.2	6.8
Comparative example No. two	8.1	7.5	8.6	7.2	7.6	7.5

The sensory indexes of the shower gel obtained in the examples and the comparative examples are detected, the detection items comprise appearance, smell and stability, six groups of transparent shower gel obtained in the examples and the comparative examples are placed in seven different temperature environments of-15 ℃, 5 ℃, 15 ℃, 25 ℃, 35 ℃ and 45 ℃ for one month, and then the transparent shower gel is recovered to the normal temperature state (15 ℃ to 25 ℃) for detection, wherein the stability analysis of the shower gel product is a transparent shower gel product, the result can be obtained through visual sensory analysis, and the test results are shown in the following table:

and (4) conclusion: the invention adopts the raw materials of liquid soap base, acrylate copolymer, potassium hydroxide, dipotassium hydrogen phosphate, hydroxyethyl diphosphonic acid, potassium chloride, surfactant and the like to prepare according to the synergistic proportion, so that the stability, low temperature resistance and high temperature resistance of the product are obviously improved, the antibacterial capability is enhanced, and meanwhile, the invention has the characteristics of simple preparation and high production efficiency.

The above description is only a preferred embodiment of the present invention, and the technical solutions that achieve the objects of the present invention by substantially the same means are within the protection scope of the present invention.

Claims (10)

1. A transparent shower gel adopting a cold compounding process is characterized in that,

1) the transparent shower gel comprises the following raw materials in percentage by weight:

10-80% of liquid soap base;

0-2% of an acrylate copolymer;

0-1% of potassium hydroxide;

0-0.8% of a buffering agent;

0-0.2% of a chelating agent;

the balance of water;

the pH value of the transparent shower gel is 9.5-10;

2) the liquid soap base is prepared from the following raw materials in percentage by weight:

0.3-2.4% of acrylate copolymer;

1-10% of potassium hydroxide;

3-30% of dodecanoic acid;

0-15% of myristic acid;

the balance of water;

the total amount of dodecanoic acid and tetradecanoic acid is not more than 30%;

the pH value of the liquid soap base is 9.5-10;

3) the acrylate copolymer is prepared from the following raw materials in percentage by weight:

1-5% of acrylic acid;

8-12% of methacrylic acid;

7-11% of ethyl acrylate;

5-8% of butyl acrylate;

0.05 to 0.2 percent of cross-linking agent

0.05-0.2% of an initiator;

1-3% of an emulsifier;

the balance being water.

2. The transparent shower gel adopting the cold compounding process according to claim 1, wherein the transparent shower gel comprises the following raw materials in percentage by weight:

10-80% of liquid soap base;

0-2% of an acrylate copolymer;

0-1% of potassium hydroxide;

0-0.8% of a buffering agent;

0-0.2% of a chelating agent;

0-4% of a thickening agent;

0.1-2% of essence;

0-10% of a surfactant;

the balance of water;

the surfactant includes a nonionic surfactant and a zwitterionic surfactant.

3. The clear body wash adopting the cold-mix technology as claimed in claim 1, wherein the chelating agent is hydroxyethyl diphosphate or EDTA.

4. The clear body wash using cold-mix process according to claim 2, wherein the non-ionic surfactant is at least one of cocamide DEA and cocamide methyl MEA, and the zwitterionic surfactant is cocamidopropyl betaine.

5. The clear body wash using the cold-mix process of claim 2, wherein the buffering agent is dipotassium hydrogen phosphate.

6. The transparent shower gel adopting a cold-mix technology according to claim 2, wherein the thickener is at least one of potassium chloride and sodium chloride.

7. The transparent body wash adopting a cold-mix process as claimed in claim 1, wherein the water is deionized water with conductivity less than 2 μ s/cm.

8. The method of preparing clear body wash according to any one of claims 2 to 7, comprising the steps of:

s1, adding the acrylate copolymer and water into a stirring pot at normal temperature, uniformly stirring, and neutralizing the acrylate with a proper amount of potassium hydroxide until the liquid is transparent;

s2, sequentially adding a buffering agent, a chelating agent, a thickening agent and a surfactant into the stirring pot; s3, adjusting the pH value to 9-9.5 by using a 20% potassium hydroxide aqueous solution;

s4, adding liquid soap base into the stirring pot, and uniformly stirring to obtain a material body;

s5, taking out 5 g of the material body, preparing the material body and pure water into a 10% solution according to the ratio of 1:9, and measuring the pH value;

s6, adjusting the pH value of the material body to 9.5-10 by using a potassium hydroxide solution with the concentration of 20%.

9. The method for preparing transparent body wash according to claim 8, wherein the preparation of the liquid soap base comprises the following steps:

t1, adding the acrylate copolymer into water at normal temperature, stirring and mixing, and adding potassium hydroxide to form uniform thick transparent liquid;

t2, heating the uniform thick transparent liquid in the T1 to 80 ℃, preserving the heat for 30-40 minutes, adding dodecanoic acid, and stirring and mixing;

t3, after all the dodecanoic acid is reacted, the solution becomes uniform transparent viscous liquid;

t4, adding tetradecanoic acid;

t5, after all the myristic acid is reacted, the solution becomes uniform transparent viscous liquid;

t6, 5 g of the homogeneous, transparent and viscous liquid obtained in T5 were taken out, and mixed with pure water at a ratio of 1:9 preparing 10% solution, and measuring the pH value;

t7, adjusting the pH to 9.5-11 by using a potassium hydroxide solution with the concentration of 20%;

and T8, cooling to normal temperature to obtain liquid soap base.

10. The method for preparing transparent body wash according to claim 9, wherein the preparation of the acrylate copolymer comprises the following steps:

u1, adding a proper amount of initiator into a proper amount of water, mixing, and fully dissolving to obtain a water phase;

u2, mixing acrylic acid, methacrylic acid, ethyl acrylate, butyl acrylate and a cross-linking agent to obtain an oil phase;

u3, putting the emulsifier, the rest of the initiator and the rest of the water into an emulsification reactor, heating to 80 ℃, slowly pumping the water phase and the oil phase into the emulsification reactor in equal proportion under stirring, stirring and mixing, and carrying out polymerization reaction to form microemulsion;

u4, cooling the microemulsion to 50 ℃ and filtering to obtain a semi-finished product;

u5, dehydrating and purifying the semi-finished product to obtain the acrylate copolymer.