HEXYL LAURATE

HEXYL LAURATE

HEXYL LAURATE

 

CAS No. : 34316-64-8

EC No. : 251-932-1

Synonyms:

Hexyl laurate; Hexyl dodecanoate; 34316-64-8; Dodecanoic acid, hexyl ester; UNII-4CG9F9W01Q; 4CG9F9W01Q; WE(6:0/12:0); Hexyl dodecanoat; Laurinsaeurehexylester; Cetiol A; EINECS 251-932-1; hexyl dodecanoic acid; lauric acid hexyl ester; dodecanoic acid hexyl ester; Dodecanoic acid, hexylester; EC 251-932-1; SCHEMBL15252; DTXSID6067830; CHEBI:88837; CTK4H2124; LMFA07010466; ZINC85659455; AKOS028111090; KS-000002F5; AS-56437; NS00010334; W-110842; Q27160826; HEXYL LAURATE;Hexyl dodecanoate;Hexyl dodecanoate ;hexyl laurate; benzyl laurate; amyl laurate; isoamyl laurate; butyl laurate; citronellyl laurate; para-cresyl laurate; Hexyl laurate; Hexyl dodecanoate; heksil lorat; hekzil lorat; hegzil lorat; heksil laurat; hekzil laurat; 34316-64-8; Dodecanoic acid, hexyl ester; UNII-4CG9F9W01Q; 4CG9F9W01Q; WE(6:0/12:0); Hexyl dodecanoat; Laurinsaeurehexylester; Cetiol A; EINECS 251-932-1; hexyl dodecanoic acid; lauric acid hexyl ester; dodecanoic acid hexyl ester; Dodecanoic acid, hexylester; EC 251-932-1; SCHEMBL15252; DTXSID6067830; CHEBI:88837; CTK4H2124; LMFA07010466; ZINC85659455; AKOS028111090; KS-000002F5; AS-56437; NS00010334; lauric acid; DODECANOIC ACID; 143-07-7; n-Dodecanoic acid; Dodecylic acid; Vulvic acid; Laurostearic acid; Dodecoic acid; Duodecylic acid; 1-Undecanecarboxylic acid; Aliphat No. 4; Neo-fat 12; C12 fatty acid; Ninol AA62 Extra; Wecoline 1295; Neo-fat 12-43; Hydrofol acid 1255; Hydrofol acid 1295; Duodecyclic acid; Hystrene 9512; Dodecylcarboxylate; Univol U-314; Lauric acid, pure; Lauric acid (natural); Coconut oil fatty acids; ABL; Undecane-1-carboxylic acid; Laurinsaeure; n-Dodecanoate; Philacid 1200; Dodecanoic Acid Anion; CHEBI:30805; Prifrac 2920; HSDB 6814; Lunac L 70; Emery 651; dodecylate; laurostearate; vulvate; DODECANOIC ACID (LAURIC ACID); Lauric acid, 99%; DSSTox_CID_1590; 1-undecanecarboxylate; DSSTox_RID_76223; DSSTox_GSID_21590; CAS-143-07-7; SMR001253907; lauricacid; Dodecanoic acid(Lauric acid); dodecanic acid; Acide Laurique; dilauric acid;; Dodecanoic Acid.; 3uil; Lauric acid (NF); Lauric Acid 652; Kortacid 1299; Lauric Acid, Reagent; Nissan NAA 122; Emery 650; Lunac L 98; Prifac 2920; Univol U 314; Dodecanoic acid, 98%; Dodecanoic acid, 99%; ACMC-1BTHL; Dodecanoic (Lauric) acid; Lauric Acid (12:0); bmse000509; dodecanoic acid ester group; Dodecanoic acid (lauric acid); Dodecanoic acid, >=99.5%; Edenor C 1298-100; Dodecanoic acid, analytical standard; Lauric acid, >=98%, FCC, FG; W-110842; Q27160826; HEXYL LAURATE;Hexyl dodecanoate; Hexyl dodecanoate ;hexyl laurate; benzyl laurate; amyl laurate; isoamyl laurate; butyl laurate; citronellyl laurate; para-cresyl laurate; decyl laurate; ethyl laurate; 2-methyl butyl laurate; methyl laurate; nonyl laurate; octyl laurate; propyl laurate; isopropyl laurate; Hexyl decanoate; Decanoic acid hexyl ester; Hexyl laurate; Decanoic acid, hexyl ester; 10448-26-7; UNII-D2D42X538B; D2D42X538B; WE(6:0/10:0); Hexyl decanoate #; EINECS 233-932-3; Capric acid hexyl ester; heksil lorat; hekzil lorat; hegzil lorat; heksil laurat; hekzil laurat; Decanoic acid, hexylester; SCHEMBL333241; DTXSID9065079; CTK4A3077; LMFA07010456; NS00021466; Q27276012; Hexyl acetate; n-Hexyl acetate; 142-92-7; Hexyl ethanoate; ACETIC ACID, HEXYL ESTER; 1-Hexyl acetate; Acetic Acid Hexyl Ester; n-Hexyl ethanoate; Hexyl alcohol, acetate; l-Hexyl acetate; FEMA No. 2565; Hexanol, acetate, branched and linear; Hexyl acetate (natural); Hexylester kyseliny octove; Acetic acid n-hexyl ester; decyl laurate; ethyl laurate; heksil lorat; hekzil lorat; hegzil lorat; heksil laurat; hekzil laurat; 2-methyl butyl laurate; methyl laurate; nonyl laurate; octyl laurate; propyl laurate; isopropyl laurate; Hexyl decanoate; Decanoic acid hexyl ester; Hexyl laurate; Decanoic acid, hexyl ester; 10448-26-7; UNII-D2D42X538B; D2D42X538B; WE(6:0/10:0); Hexyl decanoate #; EINECS 233-932-3; lauric acid; DODECANOIC ACID; 143-07-7; n-Dodecanoic acid; Dodecylic acid; Vulvic acid; Laurostearic acid; Dodecoic acid; Duodecylic acid; 1-Undecanecarboxylic acid; Aliphat No. 4; Neo-fat 12; C12 fatty acid; Ninol AA62 Extra; Wecoline 1295; Neo-fat 12-43; Hydrofol acid 1255; Hydrofol acid 1295; Duodecyclic acid; Hystrene 9512; Dodecylcarboxylate; Univol U-314; Lauric acid, pure; Lauric acid (natural); Coconut oil fatty acids; ABL; Undecane-1-carboxylic acid; Laurinsaeure; n-Dodecanoate; Philacid 1200; Dodecanoic Acid Anion; CHEBI:30805; Prifrac 2920; HSDB 6814; Lunac L 70; Emery 651; dodecylate; laurostearate; vulvate; DODECANOIC ACID (LAURIC ACID); Lauric acid, 99%; DSSTox_CID_1590; 1-undecanecarboxylate; DSSTox_RID_76223; DSSTox_GSID_21590; CAS-143-07-7; SMR001253907; lauricacid; Dodecanoic acid(Lauric acid); dodecanic acid; Acide Laurique; dilauric acid;; Dodecanoic Acid.; 3uil; Lauric acid (NF); Lauric Acid 652; Kortacid 1299; Lauric Acid, Reagent; Nissan NAA 122; Emery 650; Lunac L 98; Prifac 2920; Hexyl laurate; Univol U 314; Dodecanoic acid, 98%; Dodecanoic acid, 99%; ACMC-1BTHL; Dodecanoic (Lauric) acid; Lauric Acid (12:0); bmse000509; dodecanoic acid ester group; Dodecanoic acid (lauric acid); Dodecanoic acid, >=99.5%; Edenor C 1298-100; Dodecanoic acid, analytical standard; Lauric acid, >=98%, FCC, FG; heksil lorat; hekzil lorat; hegzil lorat; heksil laurat; hekzil laurat; Capric acid hexyl ester; Decanoic acid, hexylester; SCHEMBL333241; DTXSID9065079; CTK4A3077; LMFA07010456; NS00021466; Q27276012; Hexyl acetate; n-Hexyl acetate; 142-92-7; Hexyl ethanoate; ACETIC ACID, HEXYL ESTER; 1-Hexyl acetate; Acetic Acid Hexyl Ester; n-Hexyl ethanoate; Hexyl alcohol, acetate; l-Hexyl acetate; FEMA No. 2565; Hexanol, acetate, branched and linear; Hexyl acetate (natural); Hexylester kyseliny octove; Acetic acid n-hexyl ester

 

 

Hexyl Laurate

 

 

Hexyl Laurate is a fast spreading emollient ester (hexyl alcohol + lauric acid) that’s used in water in oil emulsions or in water-free formulas. Hexyl Laurate gives a light skin feel. 

About Hexyl Laurate

Hexyl Laurate has not been registered under the REACH Regulation, therefore as yet ECHA has not received any data about Hexyl Laurate from registration dossiers.

Hexyl Laurate is used by consumers, in articles, by professional workers (widespread uses), in formulation or re-packing, at industrial sites and in manufacturing.

Consumer Uses about Hexyl Laurate

Hexyl Laurate is used in the following products: washing & cleaning products, lubricants and greases, adhesives and sealants, polishes and waxes, fertilisers, plant protection products and coating products. Other release to the environment of Hexyl Laurate is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners), outdoor use, indoor use in close systems with minimal release (e.g. cooling liquids in refrigerators, oil-based electric heaters) and outdoor use in close systems with minimal release (e.g. hydraulic liquids in automotive suspension, lubricants in motor oil and break fluids).

Article service life of Hexyl Laurate

Other release to the environment of Hexyl Laurate is likely to occur from: outdoor use in long-life materials with low release rate (e.g. metal, wooden and plastic construction and building materials), indoor use in long-life materials with low release rate (e.g. flooring, furniture, toys, construction materials, curtains, foot-wear, leather products, paper and cardboard products, electronic equipment), outdoor use in long-life materials with high release rate (e.g. tyres, treated wooden products, treated textile and fabric, brake pads in trucks or cars, sanding of buildings (bridges, facades) or vehicles (ships)) and indoor use in long-life materials with high release rate (e.g. release from fabrics, textiles during washing, removal of indoor paints).

Hexyl Laurate can be found in complex articles, with no release intended: vehicles.

Hexyl Laurate can be found in products with material based on: plastic (e.g. food packaging and storage, toys, mobile phones).

Hexyl Laurate is intended to be released from scented: clothes.

Widespread uses by professional workers of Hexyl Laurate

Hexyl Laurate is used in the following products: washing & cleaning products, polishes and waxes and plant protection products.

Hexyl Laurate is used in the following areas: printing and recorded media reproduction.

Other release to the environment of Hexyl Laurate is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners) and outdoor use.

Formulation or re-packing of Hexyl Laurate

Hexyl Laurate is used in the following products: polymers, lubricants and greases, textile treatment products and dyes, inks and toners and cosmetics and personal care products.

Release to the environment of Hexyl Laurate can occur from industrial use: formulation of mixtures and formulation in materials.

Uses at industrial sites of Hexyl Laurate

Hexyl Laurate is used in the following products: washing & cleaning products, metal surface treatment products, polymers, textile treatment products and dyes, pH regulators and water treatment products and leather treatment products.

Hexyl Laurate is used in the following areas: printing and recorded media reproduction.

Release to the environment of Hexyl Laurate can occur from industrial use: in processing aids at industrial sites, in the production of articles, as processing aid, as processing aid and as an intermediate step in further manufacturing of another substance (use of intermediates).

Manufacture of Hexyl Laurate

Release to the environment of Hexyl Laurate can occur from industrial use: manufacturing of the substance.

 

 

What is Hexyl laurate?

Hexyl laurate is an ester synthesized from hexyl alcohol and lauric acid.

Use & Benefits of Hexyl laurate: 

Hexyl laurate is an ester with long-chain alcohol. Hexyl laurate has more affinity for lipids than water. So, when Hexyl laurate is applied on the surface of skin or hair, Hexyl laurate forms an occlusive layer. This layer protects the skin from environmental damaging factor as well as prevents moisture escaping from the skin. Hexyl laurate acts as an emollient, which makes skin softer and smoother. The lauric acid is also very much beneficial for skin since it is one of the lipid contents of the skin structure. It is used to increase the viscosity of the product. Hexyl laurate is also used as a solvent, in various products. Hexyl laurate can be used in lipsticks, lip products, and other makeup product.

Uses of Hexyl laurate

hexyl laurate is a mild emollient and a vehicle for lipid-soluble active ingredients. Hexyl laurate is non-irritating and practically odorless. Hexyl laurate enhances product spreadability and feel on skin.

Hexyl Laurate is a skin conditioning emollient, solvent, and viscosity agent used to thicken beauty products and cosmetics. Because of its somewhat fruity flavor, Hexyl Laurate is often used in lipsticks and lip products. Hexyl Laurate is an ester made when hexyl alcohol and lauric acid are combined.

Safety Measures/Side Effects of Hexyl Laurate:

There are no adverse side effects or warnings listed for Hexyl Laurate and Hexyl Laurate is generally considered a safe ingredient in skin care products and cosmetics.

INGREDIENTS

Know Your Ingredients: Hexyl Laurate

BY GIO

hexyl laurate

What Hexyl Laurate is

Hexyl Laurate is a mixture of hexyl alcohol and lauric acid.

What Hexyl Laurate does

Hexyl Laurate is an emollient that makes skin soft and smooth.

Side effects of Hexyl Laurate

Hexyl Laurate is generally considered to be safe.

n-Hexyl Laurate’s production and use as a solvent, flavor ingredient and fragrance ingredient may lead to its release to the environment through various waste streams. n-Hexyl Laurate occurs naturally in many fruits and may be released into the environment as a plant volatile. If released to air, a vapor pressure of 1.32 mm Hg at 25 °C indicates n-Hexyl Laurate will exist solely as a vapor in the atmosphere. Vapor-phase n-Hexyl Laurate will be degraded in the atmosphere by reaction with photochemically-produced hydroxyl radicals; the half-life for this reaction in air is estimated to be 2.2 days. n-Hexyl Laurate does not contain chromophores that absorb at wavelengths >290 nm and therefore is not expected to be susceptible to direct photolysis by sunlight. If released to soil, n-Hexyl Laurate is expected to have high mobility based upon an estimated Koc of 62. Volatilization from moist soil surfaces is expected to be an important fate process based upon a Henry’s Law constant of 5.3X10-4 atm-cu m/mole. n-Hexyl Laurate may volatilize from dry soil surfaces based upon its vapor pressure. Although biodegradation data were not available for n-Hexyl Laurate, studies on structurally similar compounds have shown that, in general, alkyl acetates are biodegradable. If released into water, n-Hexyl Laurate is expected to adsorb to suspended solids and sediment based upon the estimated Koc. Volatilization from water surfaces is expected to be an important fate process based upon this compound’s Henry’s Law constant. Estimated volatilization half-lives for a model river and model lake are 5.5 hours and 5.4 days, respectively. An estimated BCF of 34 suggests the potential for bioconcentration in aquatic organisms is moderate. Hydrolysis is expected to occur slowly based upon estimated hydrolysis half-lives of 2 years and 78 days at pH 7 and 8, respectively. Occupational exposure to n-Hexyl Laurate may occur through inhalation and dermal contact with this compound at workplaces where n-Hexyl Laurate is produced or used. Monitoring data indicate that the general population may be exposed to n-Hexyl Laurate via ingestion of food sources that contain this compound.

 

 

TERRESTRIAL FATE: Based on a classification scheme(1), an estimated Koc value of 62(SRC), determined from a structure estimation method(2), indicates that n-Hexyl Laurate is expected to have high mobility in soil(SRC). Volatilization of n-Hexyl Laurate from moist soil surfaces is expected to be an important fate process(SRC) given a Henry’s Law constant of 5.3X10-4 atm-cu m/mole(3). n-Hexyl Laurate is expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 1.32 mm Hg at 25 °C(4). Although biodegradation data were not available for n-Hexyl Laurate(SRC, 2011), studies on structurally similar compounds(5-7) have shown that, in general, alkyl acetates are biodegradable(SRC).

ATMOSPHERIC FATE: According to a model of gas/particle partitioning of semivolatile organic compounds in the atmosphere(1), n-Hexyl Laurate, which has a vapor pressure of 1.32 mm Hg at 25 °C(2), is expected to exist solely as a vapor in the ambient atmosphere. Vapor-phase n-Hexyl Laurate is degraded in the atmosphere by reaction with photochemically-produced hydroxyl radicals(SRC); the half-life for this reaction in air is estimated to be 2.2 days(SRC), calculated from its rate constant of 7.4X10-12 cu cm/molecule-sec at 25 °C(SRC) that was derived using a structure estimation method(3). n-Hexyl Laurate does not contain chromophores that absorb at wavelengths >290 nm(4) and therefore is not expected to be susceptible to direct photolysis by sunlight(SRC).

An estimated BCF of 34 was calculated in fish for n-Hexyl Laurate(SRC), using an estimated log Kow of 2.83(1) and a regression-derived equation(2). According to a classification scheme(3), this BCF suggests the potential for bioconcentration in aquatic organisms is moderate(SRC).

Using a structure estimation method based on molecular connectivity indices(1), the Koc of n-Hexyl Laurate can be estimated to be 62(SRC). According to a classification scheme(2), this estimated Koc value suggests that n-Hexyl Laurate is expected to have high mobility in soil.

The Henry’s Law constant for n-Hexyl Laurate reported as 5.3X10-4 atm-cu m/mole(1). This Henry’s Law constant indicates that n-Hexyl Laurate is expected to volatilize from water surfaces(2). Based on this Henry’s Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(2) is estimated as 5.5 hours(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(2) is estimated as 5.4 days(SRC). n-Hexyl Laurate’s Henry’s Law constant indicates that volatilization from moist soil surfaces may occur(SRC). n-Hexyl Laurate is expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 1.32 mm Hg(3).

n-Hexyl Laurate was detected in apricots (4 ug/kg)(1), plums (2 ug/kg and 43 ug/kg)(1) and nectarines (10 ug/kg and 20 ug/kg)(2). n-Hexyl Laurate was identified, not quantified, in apples(3,4), kiwi fruit(5) and beef volatiles(6). n-Hexyl Laurate was detected in the head space samples of golden delicious apples after 24 hours incubation with pentanoic acid vapors and also in the essential oils(7).

n-Hexyl Laurate was reported in the skin and pulp of Queen Anne’s pocket melon (Cucumis melo L) at 183 and 175.9 ug/kg equivalent of 2-octanol, respectively(1). n-Hexyl Laurate was identified, not quantified, in the head space of intact golden delicious apples(2).

NIOSH (NOES Survey 1981-1983) has statistically estimated that 4038 workers (1755 of these were female) were potentially exposed to n-Hexyl Laurate in the US(1). Occupational exposure to n-Hexyl Laurate may occur through inhalation and dermal contact with this compound at workplaces where n-Hexyl Laurate is produced or used. Monitoring data indicate that the general population may be exposed to n-Hexyl Laurate via ingestion of food sources that contain this compound(SRC).

Hexyl Laurate is an ester with the molecular formula C8H16O2. Hexyl Laurate is mainly used as a solvent for resins, polymers, fats and oils. Hexyl Laurate is also used as a paint additive to improve its dispersion on a surface.[2]

Hexyl Laurate is also used as a flavoring because of its fruity odor, and it is naturally present in many fruits (such as apples and plums) as well as alcoholic beverages.

 

 

Hexyl laurate is an ester synthesized from hexyl alcohol and lauric acid.

Use & Benefits of Hexyl laurate: 

Hexyl laurate is an ester with long-chain alcohol. Hexyl laurate has more affinity for lipids than water. So, when Hexyl laurate is applied on the surface of skin or hair, Hexyl laurate forms an occlusive layer. This layer protects the skin from environmental damaging factor as well as prevents moisture escaping from the skin. Hexyl laurate acts as an emollient, which makes skin softer and smoother. The lauric acid is also very much beneficial for skin since it is one of the lipid contents of the skin structure. It is used to increase the viscosity of the product. Hexyl laurate is also used as a solvent, in various products. Hexyl laurate can be used in lipsticks, lip products, and other makeup product.

Uses of Hexyl laurate

hexyl laurate is a mild emollient and a vehicle for lipid-soluble active ingredients. Hexyl laurate is non-irritating and practically odorless. Hexyl laurate enhances product spreadability and feel on skin.

Hexyl Laurate is a skin conditioning emollient, solvent, and viscosity agent used to thicken beauty products and cosmetics. Because of its somewhat fruity flavor, Hexyl Laurate is often used in lipsticks and lip products. Hexyl Laurate is an ester made when hexyl alcohol and lauric acid are combined.

Safety Measures/Side Effects of Hexyl Laurate:

There are no adverse side effects or warnings listed for Hexyl Laurate and Hexyl Laurate is generally considered a safe ingredient in skin care products and cosmetics.

Hexyl Laurate or systematically, dodecanoic acid, is a saturated fatty acid with a 12-carbon atom chain, thus having many properties of medium-chain fatty acids, is a bright white, powdery solid with a faint odor of bay oil or soap. The salts and esters of Hexyl Laurate are known as laurates.

Properties of Hexyl Laurate

Although 95% of medium-chain triglycerides are absorbed through the portal vein, only 25-30% of Hexyl Laurate is absorbed through it.[15]

Like many other fatty acids, Hexyl Laurate is inexpensive, has a long shelf-life, is nontoxic, and is safe to handle. Hexyl Laurate is used mainly for the production of soaps and cosmetics. For these purposes, Hexyl Laurate is reacted with sodium hydroxide to give sodium laurate, which is a soap. Most commonly, sodium laurate is obtained by saponification of various oils, such as coconut oil. These precursors give mixtures of sodium laurate and other soaps.

Laboratory use of Hexyl Laurate

In the laboratory, Hexyl Laurate may be used to investigate the molar mass of an unknown substance via the freezing-point depression. The choice of Hexyl Laurate is convenient because the melting point of the pure compound is relatively high (43.8°C). Its cryoscopic constant is 3.9°C·kg/mol. By melting Hexyl Laurate with the unknown substance, allowing it to cool, and recording the temperature at which the mixture freezes, the molar mass of the unknown compound may be determined.

Potential medicinal properties of Hexyl Laurate

Hexyl Laurate increases total serum cholesterol more than many other fatty acids, but mostly high-density lipoprotein (HDL) (the “good” blood cholesterol). As a result, Hexyl Laurate has been characterized as having “a more favorable effect on total HDL cholesterol than any other fatty acid [examined], either saturated or unsaturated”.[17] In general, a lower total/HDL serum cholesterol ratio correlates with a decrease in atherosclerotic risk.[18] Nonetheless, an extensive meta-analysis on foods affecting the total LDL/serum cholesterol ratio found in 2003 that the net effects of Hexyl Laurate on coronary artery disease outcomes remained uncertain.[19] A 2016 review of coconut oil (which is nearly half Hexyl Laurate) was similarly inconclusive about the effects on cardiovascular disease risk.

 

 

Hexyl Laurate

 

 

Hexyl Laurate, su içinde ya emülsiyonlarnda veya susuz formüllerde kullanlan, hzl yaylan bir yumuatc esterdir (heksil alkol + laurik asit). Hexyl Laurate hafif bir cilt hissi verir.

Hexyl Laurate hakknda

Hexyl Laurate, REACH Tüzüü kapsamnda tescil edilmemitir, bu nedenle ECHA, tescil dosyalarndan Hexyl Laurate hakknda herhangi bir veri almamtr.

Hexyl Laurate, tüketiciler tarafndan, makalelerde, profesyonel çalanlar tarafndan (yaygn kullanm), formülasyonda veya yeniden ambalajlamada, endüstriyel tesislerde ve imalatta kullanlr.

Hexyl Laurate Hakknda Tüketici Kullanmlar

Hexyl Laurate u ürünlerde kullanlmaktadr: ykama ve temizleme ürünleri, yalayclar ve gresler, yaptrclar ve szdrmazlk malzemeleri, cilalar ve cilalar, gübreler, bitki koruma ürünleri ve kaplama ürünleri. Hexyl Laurate’in çevreye baka bir salnmnn u nedenlerden kaynaklanmas muhtemeldir: iç mekan kullanm (örn. Makinede ykama svlar / deterjanlar, otomotiv bakm ürünleri, boyalar ve kaplamalar veya yaptrclar, kokular ve oda spreyleri), d mekan kullanm, kapal sistemlerde minimum düzeyde kapal kullanm serbest brakma (örn. buzdolaplarndaki soutma svlar, ya bazl elektrikli stclar) ve minimum salnml kapal sistemlerde d mekan kullanm (örn. otomotiv süspansiyonundaki hidrolik svlar, motor yandaki yalayclar ve fren svlar).

Hexyl Laurate’in ürün hizmet ömrü

Hexyl Laurate’in çevreye baka bir salnmnn unlardan kaynaklanmas muhtemeldir: düük salm oranna sahip uzun ömürlü malzemelerde d mekan kullanm (örnein metal, ahap ve plastik yap ve yap malzemeleri), düük salm oranna sahip uzun ömürlü malzemelerde iç mekan kullanm ( örnein döeme, mobilya, oyuncaklar, inaat malzemeleri, perdeler, ayakkab, deri ürünleri, kat ve karton ürünler, elektronik ekipman), yüksek salnm oranna sahip uzun ömürlü malzemelerde d mekan kullanm (örnein lastikler, ilenmi ahap ürünler, ilenmi tekstil ve kuma, kamyon veya arabalardaki fren balatalar, binalarn (köprüler, cepheler) veya araçlarn (gemiler) zmparalanmas) ve yüksek salma oranna sahip uzun ömürlü malzemelerde iç mekan kullanm (örn. kumalardan, ykama srasnda tekstil ürünlerinden salverme, iç mekan boyalarnn çkarlmas) .

Hexyl Laurate, karmak makalelerde bulunabilir, salverilmesi amaçlanmamtr: araçlar.

Hexyl Laurate, aadakilere dayal malzemeye sahip ürünlerde bulunabilir: plastik (örn. Gda paketleme ve depolama, oyuncaklar, cep telefonlar).

Hexyl Laurate, kokulu giysilerden salnacak ekilde tasarlanmtr.

Hexyl Laurate’in profesyonel çalanlar tarafndan yaygn kullanm

Hexyl Laurate u ürünlerde kullanlmaktadr: ykama ve temizleme ürünleri, cilalar ve cilalar ve bitki koruma ürünleri.

Hexyl Laurate u alanlarda kullanlr: bask ve kaytl medya reprodüksiyonu.

Hexyl Laurate’in çevreye baka bir salnmnn da unlardan kaynaklanmas muhtemeldir: iç mekan kullanm (örnein, makinede ykama svlar / deterjanlar, otomotiv bakm ürünleri, boyalar ve kaplama veya yaptrclar, kokular ve oda spreyleri) ve d mekan kullanm.

Hexyl Laurate’in formülasyonu veya yeniden paketlenmesi

Hexyl Laurate u ürünlerde kullanlmaktadr: polimerler, yalayclar ve gresler, tekstil ileme ürünleri ve boyalar, mürekkepler ve tonerler ve kozmetik ve kiisel bakm ürünleri.

Hexyl Laurate’in çevreye salnm, endüstriyel kullanmdan kaynaklanabilir: karmlarn formülasyonu ve malzemelerdeki formülasyon.

Hexyl Laurate endüstriyel sitelerinde kullanm

Hexyl Laurate u ürünlerde kullanlmaktadr: ykama ve temizleme ürünleri, metal yüzey ileme ürünleri, polimerler, tekstil ileme ürünleri ve boyalar, pH düzenleyicileri ve su artma ürünleri ve deri ileme ürünleri.

Hexyl Laurate u alanlarda kullanlr: bask ve kaytl medya reprodüksiyonu.

Hexyl Laurate’in çevreye salnm, endüstriyel kullanmdan kaynaklanabilir: endüstriyel tesislerde yardmc maddelerin ilenmesinde, ürünlerin üretiminde, ileme yardmcs olarak, ileme yardmcs olarak ve baka bir maddenin daha ileri imalatnda bir ara adm olarak (ara ürünlerin kullanm).

Hexyl Laurate Üretimi

Hexyl Laurate’in çevreye salnm endüstriyel kullanmdan kaynaklanabilir: maddenin üretimi.

 

 

Hexyl laurate nedir?

Heksil laurat, heksil alkol ve laurik asitten sentezlenen bir esterdir.

Hexyl laurate’in Kullanm ve Faydalar:

Heksil laurat, uzun zincirli alkol içeren bir esterdir. Hexyl laurate, sudan daha fazla lipidlere afiniteye sahiptir. Böylece Hexyl laurate cilt veya saç yüzeyine uygulandnda Hexyl laurate tkayc bir tabaka oluturur. Bu katman, cildi çevresel zararlardan korur ve cildin nem kaçn engeller. Hexyl laurate, cildi daha yumuak ve pürüzsüz hale getiren bir yumuatc görevi görür. Laurik asit, cilt yapsnn lipid içeriklerinden biri olduu için cilt için de oldukça faydaldr. Ürünün viskozitesini arttrmak için kullanlr. Hekzil laurat ayrca çeitli ürünlerde çözücü olarak kullanlmaktadr. Hexyl laurate rujlarda, dudak ürünlerinde ve dier makyaj ürünlerinde kullanlabilir.

Hexyl laurate Kullanm Alanlar

heksil laurat, hafif bir yumuatc ve yada çözünen aktif bileenler için bir araçtr. Hexyl laurate, tahri edici deildir ve pratik olarak kokusuzdur. Hexyl laurate, ürünün sürülebilirliini ve ciltte hissi artrr.

Hexyl Laurate, güzellik ürünlerini ve kozmetik ürünlerini kalnlatrmak için kullanlan bir cilt yumuatc, çözücü ve viskozite maddesidir. Hexyl Laurate, biraz meyvemsi tad nedeniyle rujlarda ve dudak ürünlerinde sklkla kullanlmaktadr. Hexyl Laurate, heksil alkol ve laurik asit birletirildiinde yaplan bir esterdir.

Hexyl Laurate’in Güvenlik Önlemleri / Yan Etkileri:

Hexyl Laurate için listelenen hiçbir yan etki veya uyar yoktur ve Hexyl Laurate genellikle cilt bakm ürünleri ve kozmetiklerde güvenli bir bileen olarak kabul edilir.

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Malzemelerinizi Tanyn: Hexyl Laurate

GIO TARAFINDAN

heksil laurat

Hexyl Laurate nedir

Hexyl Laurate, heksil alkol ve laurik asit karmdr.

Hexyl Laurate ne yapar

Hexyl Laurate, cildi yumuak ve pürüzsüz hale getiren bir yumuatcdr.

Hexyl Laurate’in yan etkileri

Hexyl Laurate genellikle güvenli olarak kabul edilir.

n-Hexyl Laurate’in bir çözücü, aroma bileeni ve koku bileeni olarak üretimi ve kullanm, çeitli atk aklar yoluyla çevreye salnmasna neden olabilir. n-Hexyl Laurate birçok meyvede doal olarak bulunur ve bir bitki uçucu olarak çevreye salnabilir. Havaya braklrsa, 25 ° C’de 1.32 mm Hg’lik bir buhar basnc, n-Hexyl Laurate’in atmosferde yalnzca bir buhar olarak var olacan gösterir. Buhar fazl n-Heksil Laurat, atmosferde fotokimyasal olarak üretilen hidroksil radikalleri ile reaksiyona girerek bozunacaktr; Havadaki bu reaksiyon için yarlanma ömrünün 2,2 gün olduu tahmin edilmektedir. n-Hexyl Laurate,> 290 nm dalga boylarnda absorbe eden kromoforlar içermez ve bu nedenle güne nda dorudan fotolize duyarl olmas beklenmez. Topraa braklrsa, n-Hexyl Laurate’in tahmini Koc 62’ye bal olarak yüksek hareketlilie sahip olmas beklenir. Nemli toprak yüzeylerinden buharlamann, 5.3X10-4 atm-cu’luk Henry Yasas sabitine dayanan önemli bir kader süreci olmas beklenir. m / köstebek. n-Hexyl Laurate, buhar basncna bal olarak kuru toprak yüzeylerinden uçabilir. N-Heksil Laurat için biyolojik bozunma verileri mevcut olmamasna ramen, yapsal olarak benzer bileikler üzerinde yaplan çalmalar, genel olarak alkil asetatlarn biyolojik olarak parçalanabilir olduunu göstermitir. Suya salnrsa, n-Hexyl Laurate’in tahmini Koc’a dayal olarak askda katlara ve tortuya adsorbe olmas beklenir. Su yüzeylerinden buharlamann, bu bileiin Henry Yasas sabitine dayanan önemli bir kader süreci olmas bekleniyor. Model nehir ve model göl için tahmini volatilizasyon yar ömürleri srasyla 5,5 saat ve 5,4 gündür. Tahmin edilen 34 BCF, suda yaayan organizmalardaki biyokonsantrasyon potansiyelinin orta düzeyde olduunu göstermektedir. Hidrolizin, pH 7 ve 8’de srasyla 2 yl ve 78 günlük tahmini hidroliz yar ömürlerine dayal olarak yavaça meydana gelmesi beklenir. N-Hexyl Laurate’e mesleki maruziyet, n-Hexyl Laurate’in üretildii veya kullanld iyerlerinde bu bileiin solunmas ve dermal temas yoluyla meydana gelebilir. zleme verileri, genel popülasyonun, bu bileii içeren gda kaynaklarnn yutulmas yoluyla n-Heksil Laurat’a maruz kalabileceini göstermektedir.

 

 

KARASAL FATE: Bir snflandrma emasna (1) göre, bir yap tahmin yönteminden (2) belirlenen tahmini Koc deeri 62 (SRC), n-Hexyl Laurate’in toprakta yüksek hareketlilie (SRC) sahip olmasnn beklendiini gösterir. N-Hexyl Laurate’in nemli toprak yüzeylerinden buharlamasnn, Henry’s Law sabiti 5,3X10-4 atm-cu m / mol (3) verildiinde önemli bir kader süreci (SRC) olmas beklenir. n-Hexyl Laurate’in, 25 ° C’de 1,32 mm Hg buhar basncna bal olarak kuru toprak yüzeylerinden (SRC) buharlamas beklenmektedir (4). N-Hexyl Laurate (SRC, 2011) için biyolojik bozunma verileri mevcut olmamasna ramen, yapsal olarak benzer bileikler (5-7) üzerine yaplan çalmalar, genel olarak alkil asetatlarn biyolojik olarak parçalanabilir (SRC) olduunu göstermitir.

ATMOSFERK KADER: Atmosferdeki yar uçucu organik bileiklerin (1) gaz / partikül bölünmesi modeline göre, 25 ° C’de 1,32 mm Hg buhar basncna sahip n-Hekzil Laurat’n (2) sadece var olmas beklenmektedir. ortam atmosferinde bir buhar olarak. Buhar faz n-Heksil Laurat, fotokimyasal olarak üretilen hidroksil radikalleri (SRC) ile reaksiyona girerek atmosferde bozulur; Bu reaksiyonun havada yarlanma ömrü, bir yap tahmin yöntemi kullanlarak türetilen 25 ° C’de 7.4X10-12 cu cm / molekül-sn hz sabitinden hesaplanan 2.2 gün (SRC) olarak tahmin edilmektedir. (3). n-Hexyl Laurate,> 290 nm (4) dalga boylarnda absorbe eden kromoforlar içermez ve bu nedenle güne nda (SRC) dorudan fotolize duyarl olmas beklenmez.

Balkta n-Hexyl Laurate (SRC) için tahmini BCF deeri 2,83 (1) ve regresyondan türetilmi bir denklem (2) kullanlarak hesapland. Bir snflandrma emasna (3) göre, bu BCF, suda yaayan organizmalardaki biyokonsantrasyon potansiyelinin orta düzeyde (SRC) olduunu göstermektedir.

Moleküler balant indekslerine (1) dayal bir yap tahmin yöntemi kullanarak, n-Hexyl Laurate’in Koc’snn 62 (SRC) olduu tahmin edilebilir. Bir snflandrma emasna (2) göre, bu tahmini Koc deeri, n-Hexyl Laurate’in toprakta yüksek hareketlilie sahip olmasnn beklendiini göstermektedir.

N-Hexyl Laurate için Henry Yasas sabiti 5.3X10-4 atm-cu m / mol (1) olarak rapor edildi. Bu Henry Yasas sabiti, n-Hexyl Laurate’in su yüzeylerinden buharlamasnn beklendiini gösterir (2). Bu Henry Yasas sabitine göre, model bir nehirden (1 m derinlik, 1 m / sn akan, 3 m / sn rüzgar hz) (2) buharlama yar ömrü 5,5 saat (SRC) olarak tahmin edilmektedir. Bir gölden modeldeki uçuculuk yar ömrü (1 m derinlik, 0,05 m / sn akma, 0,5 m / sn rüzgar hz) (2) 5,4 gün (SRC) olarak tahmin edilmektedir. n-Hexyl Laurate’in Henry Yasas sabiti, nemli toprak yüzeylerinden buharlamann (SRC) meydana gelebileceini gösterir. n-Hexyl Laurate’in, 1.32 mm Hg (3) buhar basncna bal olarak kuru toprak yüzeylerinden (SRC) buharlamas beklenmektedir.

Kayslarda (4 ug / kg) (1), eriklerde (2 ug / kg ve 43 ug / kg) (1) ve nektarinlerde (10 ug / kg ve 20 ug / kg) n-Hexyl Laurate tespit edilmitir (2). Elmalarda (3,4), kivi meyvesinde (5) ve dana uçucu maddelerinde (6) n-Hexyl Laurate tanmland, miktar belirlenmedi. n-Hexyl Laurate, pentanoik asit buharlar ile 24 saat inkübasyon sonrasnda altn lezzetli elmalarn ba boluu örneklerinde ve ayrca uçucu yalarda tespit edilmitir (7).

n-Hexyl Laurate, Queen Anne’in cep kavunun (Cucumis melo L) derisinde ve hamurunda srasyla 183 ve 175.9 ug / kg edeer 2-oktanolde bildirilmitir (1). Bozulmam altn lezzetli elmalarn ba boluunda n-Hexyl Laurate belirlendi, miktar belirlenmedi (2).

NIOSH (NOES Aratrmas 1981-1983), istatistiksel olarak, ABD’de 4038 içinin (bunlarn 1755’i kadnd) potansiyel olarak n-Hexyl Laurate’e maruz kaldn tahmin etmitir (1). N-Hexyl Laurate’e mesleki maruziyet, n-Hexyl Laurate’in üretildii veya kullanld iyerlerinde bu bileiin solunmas ve dermal temas yoluyla meydana gelebilir. zleme verileri, genel popülasyonun, bu bileii (SRC) içeren gda kaynaklarnn yutulmas yoluyla n-Hekzil Laurat’a maruz kalabileceini göstermektedir.

Hexyl Laurate, C8H16O2 moleküler formülüne sahip bir esterdir. Hexyl Laurate esas olarak reçineler, polimerler, kat yalar ve sv yalar için bir çözücü olarak kullanlr. Hexyl Laurate ayrca bir yüzeydeki dalmn iyiletirmek için bir boya katk maddesi olarak kullanlr. [2]

Hexyl Laurate, meyvemsi kokusu nedeniyle aroma olarak da kullanlr ve doal olarak birçok meyvede (elma ve erik gibi) ve alkollü içeceklerde bulunur.

 

 

Heksil laurat, heksil alkol ve laurik asitten sentezlenen bir esterdir.

Hexyl laurate’in Kullanm ve Faydalar:

Hexyl laurate, uzun zincirli alkol içeren bir esterdir. Hexyl laurate, sudan daha fazla lipidlere afiniteye sahiptir. Böylece Hexyl laurate cilt veya saç yüzeyine uygulandnda Hexyl laurate tkayc bir tabaka oluturur. Bu katman, cildi çevresel zararlardan korur ve cildin nem kaçn engeller. Hexyl laurate, cildi daha yumuak ve pürüzsüz hale getiren bir yumuatc görevi görür. Laurik asit, cilt yapsnn lipid içeriklerinden biri olduu için cilt için de oldukça faydaldr. Ürünün viskozitesini arttrmak için kullanlr. Hekzil laurat ayrca çeitli ürünlerde çözücü olarak kullanlmaktadr. Hexyl laurate rujlarda, dudak ürünlerinde ve dier makyaj ürünlerinde kullanlabilir.

Hexyl laurate Kullanm Alanlar

heksil laurat, hafif bir yumuatc ve yada çözünen aktif bileenler için bir araçtr. Hexyl laurate, tahri edici deildir ve pratik olarak kokusuzdur. Hexyl laurate, ürünün sürülebilirliini ve ciltte hissi artrr.

Hexyl Laurate, güzellik ürünlerini ve kozmetik ürünlerini kalnlatrmak için kullanlan bir cilt yumuatc, çözücü ve viskozite maddesidir. Hexyl Laurate, biraz meyvemsi tad nedeniyle rujlarda ve dudak ürünlerinde sklkla kullanlmaktadr. Hexyl Laurate, heksil alkol ve laurik asit birletirildiinde yaplan bir esterdir.

Hexyl Laurate’in Güvenlik Önlemleri / Yan Etkileri:

Hexyl Laurate için listelenen hiçbir yan etki veya uyar yoktur ve Hexyl Laurate genellikle cilt bakm ürünleri ve kozmetiklerde güvenli bir bileen olarak kabul edilir.

Hexyl Laurate veya sistematik olarak, dodekanoik asit, 12-karbon atomlu bir zincire sahip doymu bir ya asididir, bu nedenle orta zincirli ya asitlerinin birçok özelliine sahiptir, hafif bir defne ya veya sabun kokusu ile parlak beyaz, toz halinde bir katdr. Hexyl Laurate’in tuzlar ve esterleri lauratlar olarak bilinir.

Hexyl Laurate’in Özellikleri

Orta zincirli trigliseridlerin% 95’i portal ven yoluyla emilse de, Hexyl Laurate’in sadece% 25-30’u emilir. [15]

Dier birçok ya asidi gibi Hexyl Laurate de ucuzdur, uzun bir raf ömrüne sahiptir, toksik deildir ve kullanm güvenlidir. Hexyl Laurate, esas olarak sabun ve kozmetik üretiminde kullanlmaktadr. Bu amaçlar için Hexyl Laurate, bir sabun olan sodyum laurat vermek üzere sodyum hidroksit ile reaksiyona sokulur. En yaygn olarak sodyum laurat, hindistancevizi ya gibi çeitli yalarn sabunlatrlmasyla elde edilir. Bu öncüler sodyum laurat ve dier sabunlarn karmlarn verir.

Hexyl Laurate’in laboratuar kullanm

Laboratuvarda Hexyl Laurate, bilinmeyen bir maddenin molar kütlesini donma noktas düüü yoluyla aratrmak için kullanlabilir. Heksil Laurat seçimi uygundur çünkü saf bileiin erime noktas nispeten yüksektir (43,8 ° C). Kriyoskopik sabiti 3,9 ° C · kg / mol’dür. Hexyl Laurate’in bilinmeyen maddeyle eritilmesi, soumasna izin verilmesi ve karmn donma scaklnn kaydedilmesiyle bilinmeyen bileiin molar kütlesi belirlenebilir.

Hexyl Laurate’in potansiyel tbbi özellikleri

Hexyl Laurate, toplam serum kolesterolünü dier birçok ya asidinden daha fazla artrr, ancak çounlukla yüksek younluklu lipoprotein (HDL) (“iyi” kan kolesterolü). Sonuç olarak, Hexyl Laurate “toplam HDL kolesterol üzerinde doymu veya doymam [incelenen] dier ya asitlerinden daha olumlu bir etkiye sahip” olarak karakterize edilmitir. [17] Genel olarak, daha düük bir toplam / HDL serum kolesterol oran, aterosklerotik riskte bir azalma ile ilikilidir. [18] Bununla birlikte, toplam LDL / serum kolesterol orann etkileyen gdalar üzerine yaplan kapsaml bir meta-analiz, 2003 ylnda Hexyl Laurate’in koroner arter hastal sonuçlar üzerindeki net etkilerinin belirsiz kaldn buldu. [19] Hindistan cevizi yann (neredeyse yars Hexyl Laurate) 2016 ylnda yaplan bir incelemesi, kardiyovasküler hastalk riski üzerindeki etkiler hakknda benzer ekilde sonuçsuz kald.