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Butyl stearate is a fatty acid ester acting as a lubricant. A fatty acid ester that is the butyl ester of stearic acid.Butyl stearate are oily liquids or waxy solids. Ethylhexyl Stearate may also be called Octyl Stearate. In cosmetics and personal care products, stearate esters are used most frequently in the formulation of eye makeup, skin makeup, lipstick and skin care products.
CAS NO: 123-95-5
SYNONYMS: 123-95-5; N-Butyl stearate; Butyl octadecanoate; Octadecanoic acid, butyl ester; Kesscoflex BS;Stearic acid; butyl ester; n-Butyl octadecanoate; Butyl octadecylate; Kessco BS;Stearic; Acid n-Butyl Ester; Polycizer 332; Wickenol 122; Witcizer 200; Witcizer 201; Starfol BS-100; Emerest 2325; Tegester butyl stearate; RC plasticizer B-17; Uniflex BYS; Groco 5810; APEX 4; butylstearate; NSC 4820; octadecanoic acid butyl ester;UNII-6Y0AI5605C; 6Y0AI5605C; MFCD00026669; BS;Wilmar butyl stearate; FEMA Number 2214; FEMA No. 2214; Fatty acids; C18; Bu esters; HSDB 942; Estrex 1B 54; 1B 55; Stearic acid butyl ester; EINECS 204-666-5; BRN 1792866; n-butylstearate; AI3-00398; (C18) Fatty acid; butyl ester; Kessco BS;Unimate BYS; Uniflex BYS-tech; Oleo-Coll LP;Stearic acid butyl; EINECS 268-908-1; Kemester 5510; Priolube 1451;Witconol 2326; Butyl stearate (NF); ACMC-1BSLH; Radia 7051;Butyl stearate, ~99%; ADK STAB LS-8; Stearic acid-n-butyl ester; SCHEMBL28437; 68154-28-9; KSC492E9L;n-Butyl stearate; Butyl stearate
Acts as a emollient and skin conditioning agent in personal care formulations. Functions as a effective plasticizer in nail varnishes. As a masking agent in fragrances. Butyl stearate has no odor or a faintly fatty odor. Reported found in fresh apple and boiled mutton. Butyl stearate is a stearic acid used in very small quantities in cosmetic preparations as an emulsifier for creams and lotions. Butyl stearate has been shown to cause allergic reactions. Solvent, spreading and softening agent in plastics, textiles, cosmetics, rubber industries. A fatty acid ester that is the butyl ester of stearic acid. By reacting silver state with butyl iodide at 100°C by transesterification of glyceryl tristearate (tristearin) with butyl alcohol. Acidic impurities are removed by shaking with 0.05M NaOH or a 2% NaHCO3 solution, followed by several water washes, then purified by fractional freezing of the melt and fractional crystallisation from solvents with boiling points below 100o.
Butyl Stearate can be prepared by the reaction of silver stearate with butyl iodide at 1 OO°C(11.12) or by the transesterification of glyceryl tristearate (tristearin) with butyl alcohol.('2) This ester may also be prepared by the alcoholysis of glycerol stearate (stearin). Butyl Stearate, as used in cosmetics, is a liquid mixture of butyl esters consisting of a minimum of 90 percent butyl palmitate and butyl stearate, with lesser amounts of butyl laurate, myristate, pentadecanoate, heptadecanoate, and oleate. Butyl Stearate is a stable, colorless, oily liquid. Butyl stearate is resistant to oxidation and undergoes no appreciable degradation when exposed to a temperature of 205°C for 3 hours. At about 19OC, the ester solidifies. Butyl Stearate is slightly soluble to insoluble in water (0.2 percent) and is soluble in acetone, chloroform, ether, alcohol, ketones, ethyl acetate, aromatic and aliphatic hydrocarbons, fats, waxes, mineral oils, and many plasticizer The chemical and physical properties of this compound have been reviewed.
Butyl Stearate is reported to be “compatible” with a number of materials, includ i ng butad iene/styrene rubber, butad ienelacrylonitri le rubber, benzyl cel I ulose, copal esters, cellulose nitrate, cellulose acetate butyrate, cellulose acetate propionate, chlorinated rubber, ester gums, ethyl cellulose, nitrocellulose, polystyrene, and phenolic resins.Butyl Stearate is used as a solvent for dyes in wax polishes, as a spreading and softening agent in plastics, textiles and rubber, as a plasticizer for inks, cellulose acetate butyrate, cellulose nitrate, ethyl cellulose, polystyrene, laminated fiber products, rubber hydrochloride, chlorinated rubber and cable lacquers, as a lubricant in textiles, molding, metals, and in the extrusion and molding of polyvinylchloride, as a waterproofing agent for concrete, as an emollient in pharmaceuticals, and as an ingredient of carbon paper, inks, and special lubricants and coatings.
IUPAC NAME:
butyl hexadecanoate butyl octadecanoate; Butyl stearate; EC: 287-039-9 CAS:85408-76-0; Fatty acids C16-18 (even numbered) ester; with alcohol C4 (1-Butanol); Fatty Acids, C16-18 (even numbered), Bu Esters; Fatty acids, C16-18 (even numbered), Bu esters; Fatty acids, C16-18 (even numbered), Bu esters; Fatty acids, C16-18, Bu esters; Fatty acids, C16-18, Bu esters; n-butyl stearate
TRADE NAME:
Dub SB; LASEMUL 74 NP; RADIA 7051; RADIA 7058; RADIA 7752
OTHER NAME:
85408-76-0; 287-039-9
Stearate esters act primarily as lubricants on the skin's surface, which gives the skin a soft and smooth appearance. Butyl Stearate also decreases the thickness of lipsticks, thereby lessening the drag on lips, and imparts water repelling characteristics to nail polishes. Butyl Stearate and Isopropyl Stearate dry to form a thin coating on the skin. Isocetyl Stearate can also be used to dissolve other substances, usually liquids. Used as a flavor and solvent for flavors. As plasticizer for cellulose acetate butyrate.Cellulose nitrate, ethyl cellulose,polystyrene,laminated fiber products. As lubricant in extrusion and molding of polyvinyl chloride. As emollient in creams, lotions, and lipsticks. As solvent, spreading agent, and softening agent in plastics, textiles, cosmetics, and rubber industries. To make leather cloth and leather varnishes; in polishes, special lubricants, and coatings. İn carbon paper and inks. As damp-proofer for concrete. İn propellants; as water proofing agent and defoamer. Butyl stearate is a fatty acid ester, which has application in cosmetics, personal care products, and as an emollient in food industries.
Butyl stearate may be used as an analytical standard for the determination of the analyte in cosmetic products and fruit-based baby foods by various chromatography techniques. Butyl stearate may be used as an internal standard for the determination of fungicides in fruit juice and wine samples by capillary gas chromatography and for the analysis of lysinoalanine in food proteins by gas-liquid chromatography (GLC). Butyl Stearate is a colorless, oily liquid with several industrial, technical, and cosmetic applications. Butyl stearate is often used in the production of cable lacquers, laminated fiber products, nail varnishes, chlorinated rubber, and PVC copolymers. This version of stearate plasticizers is also used as an emollient in various pharmaceutical or cosmetic products.Like forexample, creams, lotions, and lipstick.
Butyl Stearate is an organic chemical compound belonging to the family of alkyl esters of fatty acids. Butyl stearate is the butyl ester of stearic acid,butyl stearate is also known by the names such as Octadecanoic acid, Butyl octadecanoate, Butyl stearate etc. Butyl Stearate is synthesized by the reaction of stearic acid with butyl alcohol. Butyl stearate has the inimitable properties such as low viscosity and high stability. Owing to Butyl stearate is distinguished properties, Butyl stearate forms hydrophobic, non-greasy film when used for skin care.
Butyl Stearate is usually in the form of oily liquids or waxy solids. Butyl Stearate is finding Butyl stearate is application in various industries as a plasticizer in plastic and polymer processing, as an emollient in cosmetics & personal care products such as skin cream, lotions & lipsticks etc. Butyl Stearate is also gaining significant attraction emulsifying agent or oiling agent in food & beverage industry. Butyl stearate is also finding Butyl stearate is applications in spin finishes & textiles, Butyl stearate is also used as lubricants in metalworking, butyl stearate is also used as an additive for Paints and printing inks Butyl stearate can be also used as surfactants and base material for perfumer. Butyl stearate is also gaining attraction as a solvent or oil carriers in agriculture industry.
Butyl stearate added as auxiliary agents hardy PVC is widely used in PVC transparent soft board, cable, leather and rolling film. Amount of 5-10%. This product is widely used as an internal lubricant PVC sheet, plate, pipe, pipe fittings, profiles and bottle pellets, shrink film, twist, the amount of 1-3%. As nitrocellulose, ethyl cellulose, plasticizer, when used in coatings, the film can be improved gloss, water resistance and scratch resistance, if this product was dissolved in a solvent-based plasticizer re-use, plasticizing efficiency can be improved. Butyl stearate can also improve polystyrene, vinyl chloride - vinyl acetate copolymer and acrylonitrile-butadiene rubber, and many resins workability and releasability. In addition, the product can be used as a metal foil rolling and spinning lubricants. As a cosmetic additives, as cream. Lipstick products moisturizer. This product is a variety of resin processing lubricant and release agent, widely used in PVC transparent soft and rigid extrusion, injection molding and calendering products and polystyrene products. Also lubricants for metal and fabric, waterproof and lubricants, shoe polish, cosmetic additives. Also be used as nitrocellulose, ethyl fibrous plasticizer and paint film modifier.
Butyl Stearate is a highly compatible solvent used in many industrial areas. Butyl stearate is used as a raw material for emulsifiers and lubricating agents in the food industry. In addition, Butyl stearate is found in lubricants, textile chemicals, dye and dye additives, surfactants and perfume-essence ingredients. Butyl Stearate is used as a solvent, spreading and softening agent in plastics, textiles, cosmetics, rubber industries. Ungraded products supplied by Spectrum are indicative of a grade suitable for general industrial use or research purposes and typically are not suitable for human consumption or therapeutic use. Butyl stearate Cas 123-95-5 - used as finishing agents, lubricants and lubricant additives. Butyl stearate Cas 123-95-5 - used as a plasticizer, food packaging material and as a dye solvent. Butyl stearate acts as a reactant and involved in the preparation of octadecanoic acid methyl ester by reacting with methanol.
Butyl Stearate is a chemical compound which is prepared by reacting stearic acid with an appropriate amount of alcohol. Butyl stearate has the unique properties of low viscosity and is oily in nature. Due to Butyl stearate is significant characteristics, Butyl Stearate results in a non-greasy, hydrophobic film when applied to the skin or lips. Butyl Stearate is usually in the form of oily liquids or waxy solids. Butyl stearate is acid value is of maximum 1.0 and the saponification value ranges between 160 to 175. And Butyl stearate is specific gravity value is approximately 0.85. To maintain Butyl stearate is quality standards, Butyl Stearate is usually stored and maintained away from heat and direct sunlight.
Butyl Stearate has widely being used in various industries. They act as a green chemical alternative to potentially hazardous ingredients, notably personal care, flavor & fragrance, and plastics industries. Butyl stearate acts as an emollient and skin conditioning agent in personal care formulations. Butyl stearate functions as an effective plasticizer in nail varnishes. Butyl stearate also acts as a masking agent in fragrances for the perfume industry. In the metal industry, Butyl stearate has been used as the prime ingredient for cutting oil. Their application includes flavoring, lubrication in plastic production, proofing for concrete production, texturing in ink and in various surfactant systems. Hence these above mentioned critical factors can help drive the demand for Butyl Stearate in various industries, especially in cosmetic industries.
Butyl Stearate can be prepared by the reaction of silver stearate with butyl iodide at 1 OO°C(11.12) or by the transesterification of glyceryl tristearate (tristearin) with butyl alcohol.('2) This ester may also be prepared by the alcoholysis of glycerol stearate (stearin). Butyl Stearate, as used in cosmetics, is a liquid mixture of butyl esters consisting of a minimum of 90 percent butyl palmitate and butyl stearate, with lesser amounts of butyl laurate, myristate, pentadecanoate, heptadecanoate, and oleate. (l3.l4) According to cosmetic ingredient specifications published by the Cosmetic. Butyl Stearate is a stable, colorless, oily liquid. Butyl stearate is resistant to oxidation and undergoes no appreciable degradation when exposed to a temperature of 205°C for 3 hours. At about 19OC, the ester solidifies. Butyl Stearate is slightly soluble to insoluble in water (0.2 percent) and is soluble in acetone, chloroform, ether, alcohol, ketones, ethyl acetate, aromatic and aliphatic hydrocarbons, fats, waxes, mineral oils, and many plasticizer^. Th e chemical and physical properties of this compound have been reviewed by Lower.(") The infrared spectrum of Butyl Stearate is available in cosmetic specifications published by the Cosmetic, Toiletry and Fragrance Association.
The Stearate ingredients are used in cosmetics primarily as emollients for the skin."' In lipstick formulations, Butyl Stearate reduces the viscosity of the oil phase, thereby lessening the drag of the stick on the lips. Butyl Stearate may also function in lipsticks as a color-suspending agent. The low viscosity and oily nature of the compound allow Butyl stearate to wet and dissolve pigments more efficiently than oils of greater viscosity. (8,'0.11.18.21,52) In nail varnishes, Butyl Stearate may be used as a water-repelling plasticizer. In hand creams and lotions, Butyl and Isopropyl Stearate function as spreading agents. When these 2 compounds are applied to the skin, a thin, oily film is deposited. The film is nongreasy and nontacky and is both continuous and hydrophobic in nature. lsopropyl Stearate also serves to increase the gelatin characteristics of hand product forrnulations.(18,21) lsocetyl Stearate is used in cosmetics as a lubricant, fixative, and solvent.
Data submitted to the Food and Drug Administration (FDA) in 1981 by cosmetic firms participating in the voluntary cosmetic registration program indicated that Butyl, Cetyl, Isocetyl, Isopropyl, Myristyl, and Octyl Stearate were used in a total of 116, 4, 58, 16, 1, and 10 cosmetic formulations, respectively. Product types in which the Stearate esters were most frequently used included eye makeup preparations, skin makeup preparations, lipstick, and skin care preparations. Concentrations of the Stearate esters in cosmetic products generally ranged from 1 to 25 percent, although there were a few reported instances of higher and lower concentration^.'^^,^^) No product formulation data were available for lsobutyl Stearate.
Butyl Stearate (50 percent in mineral oil) and mineral oil were each applied to 1 ear of 2 rabbits 5 days a week for 2 weeks. The treated sites were excised at 14 days, and comedogenicity was graded on a scale of 0 to 3. For 50 percent Butyl Stearate in mineral oil, scores were 2 and 3, indicating moderate and strong comedogenicity, respectively. Mineral oil produced reactions of grade 1 in both rabbits, indicating slight comedogenicity. These materials were only weakly comedogenic in relation to potent acnegens, such as tars and chlorinated oils. The authors discussed the possibility that daily use of Butyl Stearate for several years could produce low-grade comedonal reactions in susceptible women. (57) The CIR Panel recognizes that currently available tests are inadequate to predict the potential for human comedogenicity of a cosmetic ingredient as used in a product formulation. However, comedogenicity is a potential health effect that should be considered when the stearate ingredients are used in cosmetic formulations.
Here, reactions were carried out using Novozym 435 as biocatalyst, considering different stirring levels and substrates molar ratios, to determine optimal conditions to produce both esters. The kinetics under optimized conditions, varying the substrates molar ratio was performed and the influence of the fractional addition of the alcohol in the reaction was also verified. Butyl stearate was observed for butyl and ethyl stearate that satisfactory results (92%) occurred when batch kinetics was carried out for 24 h at 60 °C, 1% (by weight of substrates) of the enzyme, agitation of 250 rpm and molar ratio of 1:2 and 1:5, respectively. Enzyme reuse up to five and three cycles led to satisfactory results for butyl stearate and ethyl stearate, respectively. This work represents, therefore, a novelty in the production of these esters by enzymatic route, leading to a high conversion of products, using a low amount of biocatalyst, proving the relevance of the production of these esters by enzymatic means, which makes the process ecologically correct and still add value to the final product.
Using of phase change materials (PCM) for increasing energy savings in sustainable buildings is receiving a lot of interest in commercial applications. Butyl stearate (BS), as PCM, can be used to maintain ambient temperature in the human comfort zone and prevent temperature fluctuations by enhancing the thermal properties of concrete. The long‐term effects of Butyl stearate on concrete are not well known. In this study, the applicability of Butyl stearate, as a smart concrete additive, by direct incorporation in the concrete structure was investigated comprehensively including thermal, rheological, and corrosion behaviour. The thermal characterization of PCM was achieved using DSC, TGA, thermal conductivity, and thermal buffering experiments.
Thermal storage capacity of Butyl stearate was measured to be 134.2 J/g, which is high enough to be used for passive solar energy storage in buildings. The fresh concrete experiments revealed that workability and flowability of fresh concrete mixes were improved. The maximum hydration temperature was reduced, and a retarding effect was observed by the addition of Butyl stearate. Moreover, the corrosion behaviour of steel embedded in concrete with Butyl stearate as PCM was studied in a solution of NaCl (3.5 wt%) representing an aggressive environment by utilizing electrochemical impedance spectroscopy (EIS) for long‐term corrosion tests that lasted for 1 year. The open circuit potential of steel in concrete with Butyl stearate showed noble potential indicating low corrosion probability. The FESEM images and polarization resistance (Rp) values showed that the addition of Butyl stearate in concrete decreases corrosion of the rebar in comparison with concrete without Butyl stearate. Addition of Butyl stearate not only enhances thermal capacity but also exhibits corrosion protection of rebar by hindering penetration of chloride ions into the concrete.
Butyl Stearate is a chemical compound which is prepared by reacting stearic acid with an appropriate amount of alcohol. Butyl stearate has the unique properties of low viscosity and is oily in nature. Due to Butyl stearate is significant characteristics, Butyl Stearate results in a non-greasy, hydrophobic film when applied to the skin or lips. Butyl Stearate is usually in the form of oily liquids or waxy solids. Butyl stearate is acid value is of maximum 1.0 and the saponification value ranges between 160 to 175. And Butyl stearate is specific gravity value is approximately 0.85. To maintain Butyl stearate is quality standards, Butyl Stearate is usually stored and maintained away from heat and direct sunlight.
The Butyl Stearate Market is usually segmented into Butyl stearate is form, application and end use. On the basis of form, the Butyl Stearate market can be segmented into Oily liquid and Waxy solids. Among these forms, Butyl stearate market has been anticipated to higher volume share in oil liquid sector due to Butyl stearate is wide application in various industries. On the basis of application, the Butyl Stearate market can be segmented into Plasticizer, Lubricant, Spinning compound and Emollient. Lubricant and emollient applications of Butyl stearate are expected to have higher value sales due to Butyl stearate is large use in cosmetics and food industry. Butyl Stearate's Lubricant application in cosmetic industry has been surging significant growth. On the basis of end use, Butyl Stearate market can be segmented into the food industry, beverage industry, cosmetics industry, textile industry, personal care, paper industry and metal industry.
The food industry can be further sub-segmented into baked goods, confectionery, desserts, and gelatin. Similarly, beverage industry segment can be further sub-segmented into alcoholic and non-alcoholic beverages. Due to Butyl stearate is popularity and large applications in food and cosmetics industry, these two industries holds the largest share in terms of volume sales as compared to other industry. A regional segment for the market of Butyl Stearate is divided into five different regions: North America, Latin America, Europe, Asia Pacific, and Middle East & Africa. The L’Oreal Group, Procter and Gamble Company, Unilever are some of the big players in the global cosmetic industry. And most of these companies have their highest value share in European regions. And for obvious reasons, the volume sales of the cosmetic industry in Europe region has been growing significantly every year.
As a result, butyl stearate market will have the highest value sales in these regions to come up as a prime ingredient in many cosmetic products. North America and Asia-Pacific region especially Japan has been considered to be the emerging market for the cosmetic industry due to consumer's desire for cosmetic products. Butyl Stearate has widely being used in various industries. They act as a green chemical alternative to potentially hazardous ingredients, notably personal care, flavor & fragrance, and plastics industries. Butyl stearate acts as an emollient and skin conditioning agent in personal care formulations. Butyl stearate functions as an effective plasticizer in nail varnishes. Butyl stearate also acts as a masking agent in fragrances for the perfume industry. In the metal industry, Butyl stearate has been used as the prime ingredient for cutting oil. Their application includes flavoring, lubrication in plastic production, proofing for concrete production, texturing in ink and in various surfactant systems. Hence these above mentioned critical factors can help drive the demand for Butyl Stearate in various industries, especially in cosmetic industries.
Butyl Stearate is an organic chemical compound belonging to the family of alkyl esters of fatty acids. Butyl stearate is the butyl ester of stearic acid, Butyl stearate is also known by the names such as Octadecanoic acid, Butyl octadecanoate, Butyl stearate etc. Butyl Stearate is synthesized by the reaction of stearic acid with butyl alcohol. Butyl stearate has the inimitable properties such as low viscosity and high stability. Owing to Butyl stearate is distinguished properties, Butyl stearate forms hydrophobic, non-greasy film when used for skin care. Butyl Stearate is usually in the form of oily liquids or waxy solids. Butyl Stearate is finding Butyl stearate is application in various industries as a plasticizer in plastic and polymer processing, as an emollient in cosmetics & personal care products such as skin cream, lotions & lipsticks etc.
Butyl Stearate is also gaining significant attraction emulsifying agent or oiling agent in food & beverage industry. Butyl stearate is also finding Butyl stearate is applications in spin finishes & textiles, Butyl stearate is also used as lubricants in metalworking, butyl stearate is also used as an additive for Paints and printing inks Butyl stearate can be also used as surfactants and base material for perfumer. Butyl stearate is also gaining attraction as a solvent or oil carriers in agriculture industry. Growing urban population has up surged consumer spending capabilities in developing countries, owing to which there is rise in the consumption of cosmetics and personal care products. Rising consumption of cosmetics & personal care products will fuel the demand for butyl stearate. Rise in youth inclination towards the use of cosmetics and personal care products and also changing lifestyle has elevated the consumption of cosmetics products, which will positively influence the butyl stearate. Changing food preferences due to changing lifestyle has led to the growth of processed food industry, increasing demand for processed food will substantially impact the butyl stearate market.
With butyl stearate (BS) as the core material and melamine-formaldehyde resin (MF) as the wall material, Butyl stearate-MF resin microcapsules were synthesized under in situ polymerization method. The microcapsules were characterized using FTIR, SEM and other methods. The four-ball friction method was performed to test the tribological property of the microcapsules when polyethylene glycol was taken as the base fluid. The results showed that base fluid with 3% microcapsules had a friction coefficient as small as 0.053 and the wear scar diameter could be 0.326mm (4%) under 314N. The microcapsules were ruptured under the action of friction and then the reactive group formed physical adsorption film. The physical adsorption film, together with the subsequently formed friction polyester film, presented a synergistic lubricating effect.
Butyl Stearate Market” report provides a basic overview of the industry including definitions, classifications, applications and industry chain structure. The Butyl Stearate (Bs) market size analysis is provided for the international market including development history, competitive landscape analysis, major regions’ development status, manufacturing processes and cost structures. Also, the research gives economic trends, investment environment, supply and demand, industry capacity, and market structure, marketing channels and Butyl Stearate (Bs) market growth opportunities. Butyl stearate, also known as butyl ethanoate, is an ester which is a colorless flammable liquid at room temperature. Butyl stearate is found in many types of fruit, where along with other chemicals Butyl stearate imparts characteristic flavors and has a sweet smell of banana or apple. Butyl stearate is used as a synthetic fruit flavoring in foods such as candy, ice cream, cheeses, and baked goods. Butyl stearate is often used as a high-boiling solvent of moderate polarity.
The other three isomers of butyl stearate are, isobutyl acetate, tert-butyl acetate, and sec-butyl acetate.
In Regional Analysis, the Butyl Stearate (Bs) market is also categorised into North America, Europe, China, Japan, the middle East, India, South America, Others. North America, Europe is expected to account for a distinguished share, in terms of price and extent, of the Butyl Stearate market throughout the forecast length. The Butyl Stearate market within the Asia Pacific is projected to extend throughout the forecast period. Evolving markets that include China and Asian country are expected to play a significant position within the boom in producing the surrounding area. The In-depth industry chain includes analysis value chain analysis, porter five forces model analysis and cost structure analysis.
This Butyl Stearate Market report describes present situation, historical background and future forecast. Butyl stearate Comprehensive data showing Butyl Stearate sale, consumption, trade statistics, and prices in the recent years are provided. The Butyl Stearate report indicates a wealth of information on Butyl Stearate vendors.Butyl Stearate Market forecast for next five years, including Market volumes and prices is also provided. Raw material supply and downstream consumer information is also included. At last, report on Butyl Stearate Market is a comprehensive analysis of the Market providing you with the latest industry data and future Market trends. The facts and information in the report will allow you to identify significant factors in the Market which are products, revenue, and growth cost-effectiveness. However, Butyl stearate is expected that there will be a remarkable growth in the demand of Butyl Stearate Market from 2020 to 2025.
On investigation for the solubility and mass transfer coefficient of butyl stearate through hydrotropy has been studied. This study was carried out using hydrotropes such as citric acid, urea, nicotinamide, sodium salicylate under the influence of a wide range of hydrotrope concentrations [(0 to 3) mol •L-1] and different system temperatures [(303 to 333) K]. Butyl stearate has been distinctively observed and noted that the solubility of butyl stearate increases with an increase in hydrotrope concentration and also with system temperature likely similar to the several organic compounds and drugs A Minimum Hydrotrope Concentration (MHC) in the aqueous phase was required to initiate significant solubilization of butyl stearate.
Consequent to the increase in the solubilization of butyl stearate, the mass transfer coefficient was also found to increase with increase in hydrotrope concentration at 303 K. A threshold value similar to MHC is to be maintained to have an appreciable enhancement in mass transfer coefficient. The maximum enhancement factor, which is the ratio of the value in the presence and absence of a hydrotrope, has been determined for all sets of experimentations. To ascertain the hydrotropic aggregation behavior of butyl stearate, thermodynamic parameters such as gibb’s free energy, enthalpy, and entropy of butyl stearate were determined. The gibb’s free energy decreases with an increase in system temperature. The aggregation of hydrotropes was found to be exothermic in nature and favored by a positive value of entropy.
Butyl Stearate Market report strategically analyzes each submarket with respect to individual growth trend and their contribution to the market. Global “Butyl Stearate Market” report presenting the detailed analysis of trends, drivers, challenges and unmet demand in respectively market forecast to 2026. Amidst recovery from several challenges confronting the Butyl Stearate industry, these reports existing comprehensive visions into critical short- and long-term factors set to shape the outlook. Butyl Stearate Market report Provide Operational and planned Infrastructure, trade analysis and competition across multiple countries for each segment across the value chain is analysed. Our proprietary databases use cultured forecast modelling method to provide comprehensive and reliable analysis for your decision-making needs. The report can help to understand the market and strategize for business expansion accordingly. In the strategy analysis, Butyl stearate gives insights from marketing channel and market positioning to potential growth strategies, providing in-depth analysis for new entrants or exists competitors in the Butyl Stearate industry.
Butyl stearate as a phase change material was microencapsulated within melamine-formaldehyde resin using emulsion polymerization. Morphology and thermal specification of produced microcapsules were studied by Fourier transform infrared spectroscopy, FT-IR, scanning electron microscopy, SEM, and Differential scanning calorimetry analysis, DSC. FT-IR spectra validated the existence of the butyl stearate in the core of microcapsules. SEM graphs showed that melamine formaldehyde polymer without core was spherical and almost uniform with an approximate size of 2µm and microcapsules of butyl stearate in melamine formaldehyde shell were also spherical with the average diameter of 4µm. DSC results showed that microencapsulation reduced the latent heat of melting and freezing of butyl stearate and increased melting point. The performance of the produced microcapsules was obtained 36.64%. Moreover, the efficiency of energy storage by the microcapsules was obtained about 40%. Butyl stearate was observed that the rate of thermal energy conservation was high during the phase change process of micro melting process.
This section of the Butyl Stearate report identifies various key manufacturers of the market. Butyl stearate helps the reader understand the strategies and collaborations that players are focusing on combat competition in the market. The comprehensive report provides a significant microscopic look at the market. The reader can identify the footprints of the manufacturers by knowing about the global revenue of manufacturers, the global price of manufacturers, and production by manufacturers. With tables and figures helping analyze worldwide Global Butyl Stearate Market Forecast provides key statistics on the state of the industry and is a valuable source of guidance and direction for companies and individuals interested in the market.
The chemical formula of Butyl Stearate shown above is based on the molecular formula indicating the numbers of each type of atom in a molecule without structural information, which is different from the empirical formula which provides the numerical proportions of atoms of each type. The above chemical formula is the basis of stoichiometry in chemical equations, i.e., the calculation of relative quantities of reactants and products in chemical reactions. The law of conservation of mass dictates that the quantity of each element given in the chemical formula does not change in a chemical reaction. Thus, each side of the chemical equation must represent the same quantity of any particular element based on the chemical formula.
The global “Butyl Stearate Market” report offers a planned observation of analyzed data associated to Butyl Stearate market. The Butyl Stearate market report offers multiple opportunities to various industries, vendors, associations, and organizations offering items and administrations KLK OLEO, Zibo Zhengye, Kao Corporation, Croda International, Fine Organics, Allan Chemical by providing a huge platform for their overall expansion by competing among themselves and supplying reliable services to the consumers. The most recent report includes extensive coverage of the significant impact of the COVID-19 pandemic on the Heated Jacket division. The coronavirus epidemic is having an enormous impact on the global economic landscape and thus on this special line of business. Therefore, the report offers the reader a clear concept of the current scenario of this line of business and estimates the aftermath of COVID-19.
On the basis of demand and methodologies currently used by the market holders, the global Butyl Stearate Market report delivers in-depth and thoroughly analyzed forecast concerning the growth rate pattern of the market in the several coming years. Furthermore, The report presents a detailed segmentation Liquid Butyl Stearate, Solid Butyl Stearate, Market Trend by Application Lubricant & Waterproofing Agent, Cosmetics, Spices, Packaging Materials, Other of the global market based on technology, product type, application, and various processes and systems. The market report delivers detailed information about the alterations in the types of product, Butyl stearate is innovation and advancements that may be caused as a result of a minor deviation in the profile of the item. The analysis of quality and efficiency of the global Butyl Stearate market are based on the quantitative and subjective methods to obtain a crystal-clear perception of the present and expected growth patterns.
The report also includes the bifurcation of the market based on geological areas. The global Butyl Stearate market report brings comprehensive data about key factors escalating or slowing down the growth of the business. The report incorporates altering competitive dynamics study. The report provides precise knowledge that helps in opting correct business choices. The global market report systematically represents the information as flowcharts, facts, statistical graphs, diagrams, figures, and assurance which display the status of the particular trade at the global and regional platform.
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The Butyl Stearat market report covers the analysis of various regions such as North America, Europe, Asia-Pacific, Latin America, Middle East, and Africa. Market trends change by region and result in changes due to their physical environment. The report, therefore, covers key regions with sales, revenue, market share and growth rate of Butyl Stearat in these regions from 2021 to 2026. Butyl stearate analyzes the region with the highest market share as well as the fastest growing region of the Butyl Stearat market. The report by region is then broken down into analyzes at the country level. For example, North America is divided into the United States and Canada. Europe includes the UK, France, and Germany, followed by APAC, which includes countries like China, India, and Japan. Latin America is made up of countries like Mexico and Brazil, and the MEA countries included in the Butyl Stearat market are the GCC countries and South Africa.
