BEROL 175
BEROL 175
CAS No. : 68551-12-2
EC No. : 500-221-7
Synonyms:
Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated; Alcohols, C12-16 (even numbered), ethoxylated; Alcohols, C12-16, ethoxylated (3-EO); Alcohols, C12-16, ethoxylated (>2-5EO); alcohols, C12-C16, ethoxylated; Alcohols,C12-16, ethoxylated; ethoxylated alcohol; Leunapon-F 1216; 68551-12-2; Alcohol Ethoxylated AEO; Alcohols, C12-16, ethoxylated; Alcohol-(C12-C16), ethoxylated; ETHOXYLATED ALCOHOLS (C12-C15); Alcohols, C12-16, ethoxylated; berol 175; BEROL 175; BEROL; ; Alcohols, C12-16, ethoxylated; a-(dodecyl – hexadecyl)-oxy)-w-(2-hydroxyethyl)poly(ethane-1,2-diyloxy); Alcohols (C12-16), ethoxylated;
EN
BEROL 175 Cloud point 58-64 (1% in water) °C
BEROL 175 Color ≤ 100 Hazen
BEROL 175 pH 5-7 (1% in water)
BEROL 175 Water content 9-11 %
BEROL 175 Active content 90 %
BEROL 175 Appearance Clear to turbid liquid at 20°C
BEROL 175 Clear point 10 °C
BEROL 175 Density 1000 kg/m³ at 20°C
BEROL 175 Flash point ≥100°C
BEROL 175 Foam Height according to Ross-Miles, 50°C, 0.05% immediately: 100mm; after 5 min: 65mm
BEROL 175 HLB 12.5
BEROL 175 Pour point 6 °C
BEROL 175 Surface Tension according to Du Noüy, 25°C, 0.1% DIN 53914 29 mN/m
BEROL 175 Viscosity 130 mPa s at 20°C
BEROL 175 Wetting power according to Draves, 25°C, 0.1% 15 sec
BEROL 175 Solubility: 2-propanol Soluble
BEROL 175 Solubility: Ethanol Soluble
BEROL 175 Solubility: Low aromatic solvent Dispersible
BEROL 175 Solubility: Propylene glycol Soluble
BEROL 175 Solubility: Water Soluble
BEROL 175 Solubility: White spirit Soluble
BEROL 175 Solubility: Xylene Dispersible / insoluble
BEROL 175 Water soluble
BEROL 175 White spirit soluble
BEROL 175 Xylene dispersible/insoluble
BEROL 175 Ethanol soluble
BEROL 175 Low aromatic solvent dispersible
BEROL 175 Propylene glycol soluble
BEROL 175 2-propanol soluble
Berol 175-> C12-C16 alcohol ethoxylate.Berol 175 is a non-ionic surfactant based on a natural based primary alcohol. It has a hydrophilic (water soluble) character.Berol 175 by Nouryon is a non-ionic surfactant based on a primary alcohol (derived from natural sources). It acts as a dispersing agent, emulsifier and wetting agent. Exhibits hydrophilic (water soluble) character. Berol 175 is suitable for paints and coatings.Berol 175 should always be homogenised before use unless the entire quantity is used. Berol 175 can be used as wetting agent and emulsifier in cleaning products.Berol 175 is suitable in cleaning products such as liquid detergents and all purpose cleaners. Berol 175 should always be homogenised before use unless the entire quantity is used.A colorless liquid with a mild odor. Mp: 5°C; bp < 150°C; density: 0.9 g cm-3. Completely miscible with water. A major threat to the environment in case of a spill. Immediate steps should be taken to limit spread. Can easily penetrate the soil and contaminate ground water and nearby streams. Very toxic to aquatic organisms. Irritating to the eyes and respiratory tract. Prolonged exposure to the skin can cause reddening and scaling. Used in the making of surfactants.Alcohols, C12-16, ethoxylated is stable up to 50° C. Oxidizes on exposure to the air to form peroxides and peracids. Combustible but not flammable (flash point > 179°C). Auto-ignition temperature: 230°C. May react with strong oxidizing agents, strong acids, and strong bases. Incompatible with copper and copper alloys and aluminum. A mixture of polyether alcohols of formula R-O-(CH2CH2-O-)n-H where R is a C-12 through C-16 alkyl group and n equals 1 through 6. Synthesized by treating a mixture of C-12 to C-16 alcohols with ethylene oxide.Inhalation of material may be harmful. Contact may cause burns to skin and eyes. Inhalation of Asbestos dust may have a damaging effect on the lungs. Fire may produce irritating, corrosive and/or toxic gases. Some liquids produce vapors that may cause dizziness or suffocation. Runoff from fire control may cause pollution.Some may burn but none ignite readily. Containers may explode when heated. Some may be transported hot.Ethoxylated alcohols, e.g. Berol 175, have a solubilization effect which helps to avoid the viscoelastic region where the formulation does not flow and has no practical use.Environmental monitoring indicates that the distribution of BEROL 175 (Alcohol ethoxylates) (AE) homologues in wastewater treatment plant (WWTP) effluents differs from the distribution in commercial AE products, with a relative higher proportion of fatty alcohol (AOH, which is AE with zero ethoxylation). To determine the contribution of AE-derived AOH to the total concentration of AE and AOH in WWTP effluents, we conducted a laboratory continuous activated-sludge study (CAS). This consisted of a test unit fed with AE-amended synthetic sewage and a control unit fed with only synthetic sewage to avoid AE contamination from the feed. The removal efficiencies of some 114 AE homologues were determined by the application of a specific and sensitive analytical method. The extent of the removal of AE ranged from 99.70% for C18 compounds to > 99.98% for C12-16. Relatively high-AOH concentrations were observed in the effluents from blank and test units. By building the concentration difference from the test minus the control unit, the AE in the CAS effluent originating from AE in the influent was determined. Thus, it could be shown that AOH represented only 19% of the total AE (EO0-18) in the CAS, while monitoring in 29 WWTP effluents (European, Canadian, and US) revealed in total a mean AOH fraction of 55% (5-82%) of the total AE (EO0-18). This shows that only a small fraction of AOH in WWTP effluents originates from AE entering the WWTP.Wilfaret BEROL 175 (Alcohol ethoxylates) are non-ionic surfactants. They generally take the form of a thick liquid. They are mainly used in cleaning agents, detergents, home care and emulsifier production. Chemicals such as BEROL 175 (Alcohol ethoxylates), SLES and SLS can also be manufactured from methyl esters. Depending on the grade / type of fatty alcohols.BEROL 175 (Alcohol ethoxylates) are a class of compounds that are commonly used throughout many industrial practices and commercial markets. These compounds are synthesized via the reaction of a fatty alcohol and ethylene oxide, resulting in a molecule that consists of two main components, (1) the oleophilic, carbon-rich, fatty alcohol and (2) the hydrophilic, polyoxyethylene chain.Due the basic structure of these compounds that pair a hydrophobic portion (water-hating) with a hydrophilic component (water-loving), ethoxylated alcohols are a versatile class of compounds, commonly referred to as surfactants. BEROL 175 (Alcohol ethoxylates) surfactants enhance the mixing and solubilization of oil and water by having these contrasting sections within the same compound. With this unique structure, a single molecule can inhabit the interface of two immiscible phases (i.e. oil and water), effectively bringing them closer together and lowering the interfacial energy associated between them. By lowering this energy, many novel solution applications can be accessed by increasing the homogeneity of these two previously immiscible phases.Ethoxylated alcohols can vary widely in their properties and applications because the materials used to make these products can vary in their structures and amounts. For instance, fatty alcohols, which are commonly sourced from natural materials, can provide different structures depending on the plant from which they were extracted. Common natural sources of fatty alcohols include the palm oil tree (including both palm oil and palm kernel oil), oils from the coconut tree, and the oil from rapeseed. Each of these natural sources differs in its distribution of carbon chains, making an BEROL 175 (Alcohol ethoxylates) from coconut oil alcohol different from an ethoxylated alcohol made from the alcohol of a palm kernel oil.Oxiteno offers a wide array of ethoxylated alcohols that have been sourced from natural materials (BEROL 175 (Alcohol ethoxylates)), each of which provide a unique set of application properties. Additionally, fatty alcohols can also be synthesized from petroleum products, providing unique structures in the hydrophobic moiety that are not commonly observed in nature. Branched alcohols and alcohols of specific carbon distributions can be attained using synthetic starting materials, all of which strongly affect the BEROL 175 (Alcohol ethoxylates)’s final properties. If you’re seeking surfactant companies, please visit the Oxiteno website to see our large portfolio of ethoxylated alcohols from synthetic sources.Alternatively, the length of the polyoxyethylene component (i.e. the hydrophilic portion) of the BEROL 175 (Alcohol ethoxylates) provides this class of compounds with a wide assortment of water solubilities and detergency properties. Increasing the amount of ethylene oxide on the ethoxylated alcohol typically increases its water solubility, as well as increases the hydrophilic/lipophilic balance (HLB) of the compound. Ranging in arbitrary units of 1-20, the HLB of a nonionic surfactant can be calculated and used to determine the propensity of a compound to work effectively in a given solution of oil and water. Lower HLB values (< 10) are commonly used for oil-rich solutions while surfactants with higher HLB values (> 10) are typically most efficient in oil-in-water emulsions. Each of Oxiteno’s line of ethoxylated alcohol products can vary widely in their HLB values, offering numerous options for the formulation chemist and scientist.BEROL 175 (Alcohol ethoxylates) are used in a wide variety of industrial and commercial settings. Because these compounds are surfactants, they can be used whenever oily substances come into contact with water or a surface. Ethoxylated alcohols can be used as detergents, wetting agents, emulsifiers, degreasers and emollients in many lines of commercially available products and industrial practices.Oxiteno’s line of BEROL 175 (Alcohol ethoxylates) serve many markets, including, Paints & Coatings, Agrochemical, Home & Personal Care, Oil & Gas and Industrial & Institutional Cleaning. Due to the aforementioned variety in properties that are governed by a compound’s structure, Oxiteno’s line of BEROL 175 (Alcohol ethoxylates) can provide the formulator with many different properties, including excellent detergent properties, high and low-foaming products, as well as, ethoxylates that are rapid surface-wetting agents.BEROL 175 (Alcohol ethoxylates) (AE) are a major class of non-ionic surfactants which are widely used in laundry detergents and to a lesser extent in household cleaners, institutional and industrial cleaners, cosmetics, agriculture, and in textile, paper, oil and other process industries. BEROL 175 (Alcohol ethoxylates) are not expected to undergo hydrolysis under normal environmental conditions (pH range 4 to 9). Photolysis in the atmosphere, in water, or when adsorbed to solid surfaces such as soil and sediment surfaces is also not expected to occur, due to the chemical structure of the AE homologues. Hydrolysis has also been discounted for the alcohols (EO=0 homologues) in the SIAR for long chain alcohols.In the usual application, alcohols and phenols are converted into R(OC2H4)nOH where n ranges from 1 to 10. Such compounds are called BEROL 175 (Alcohol ethoxylates). BEROL 175 (Alcohol ethoxylates) are often converted to related species called ethoxysulfates. BEROL 175 (Alcohol ethoxylates) and ethoxysulfates are surfactants, used widely in cosmetic and other commercial products.[1] The process is of great industrial significance with more than 2,000,000 metric tons of various ethoxylates produced worldwide in 1994.Industrial ethoxylation is primarily performed upon fatty alcohols in order to generate fatty BEROL 175 (Alcohol ethoxylates) (FAE’s), which are a common form of nonionic surfactant (e.g. octaethylene glycol monododecyl ether). Such alcohols may be obtained by the hydrogenation of fatty acids from seed oils,[5] or by hydroformylation in the Shell higher olefin process.[6] The reaction proceeds by blowing ethylene oxide through the alcohol at 180 °C and under 1-2 bar of pressure, with potassium hydroxide (KOH) serving as a catalyst.[7] The process is highly exothermic (ΔH -92 kJ/mol of ethylene oxide reacted) and requires careful control to avoid a potentially disastrous thermal runaway.BEROL 175 (Alcohol ethoxylates) are not observed to be mutagenic, carcinogenic, or skin sensitizers, nor cause reproductive or developmental effects.[18] One byproduct of ethoxylation is 1,4-dioxane, a possible human carcinogen.[19] Undiluted AEs can cause dermal or eye irritation. In aqueous solution, the level of irritation is dependent on the concentration. AEs are considered to have low to moderate toxicity for acute oral exposure, low acute dermal toxicity, and have mild irritation potential for skin and eyes at concentrations found in consumer products.BEROL 175 (Alcohol ethoxylates) are a class of compounds that are commonly used throughout many industrial practices and commercial markets. These compounds are synthesized via the reaction of a fatty alcohol and ethylene oxide, resulting in a molecule that consists of two main components, (1) the oleophilic, carbon-rich, fatty alcohol and (2) the hydrophilic, polyoxyethylene chain.Due the basic structure of these compounds that pair a hydrophobic portion (water-hating) with a hydrophilic component (water-loving), ethoxylated alcohols are a versatile class of compounds, commonly referred to as surfactants. Alcohol ethoxylate surfactants enhance the mixing and solubilization of oil and water by having these contrasting sections within the same compound. With this unique structure, a single molecule can inhabit the interface of two immiscible phases (i.e. oil and water), effectively bringing them closer together and lowering the interfacial energy associated between them. By lowering this energy, many novel solution applications can be accessed by increasing the homogeneity of these two previously immiscible phases.BEROL 175 (Alcohol ethoxylates) are used in a wide variety of industrial and commercial settings. Because these compounds are surfactants, they can be used whenever oily substances come into contact with water or a surface. Ethoxylated alcohols can be used as detergents, wetting agents, emulsifiers, degreasers and emollients in many lines of commercially available products and industrial practices.
TR
BEROL 175 Bulutlanma noktas 58-64 (suda% 1) ° C
BEROL 175 Renk ≤ 100 Hazen
BEROL 175 pH 5-7 (su içinde% 1)
BEROL 175 Su içerii% 9-11
BEROL 175 Aktif içerik% 90
BEROL 175 Görünüm 20 ° C’de bulank svya kadar berrak
BEROL 175 effaf nokta 10 ° C
BEROL 175 Younluk 20 ° C’de 1000 kg / m³
BEROL 175 Parlama noktas ≥100 ° C
BEROL 175 Köpük Yükseklii Ross-Miles’a göre, 50 ° C,% 0,05 hemen: 100 mm; 5 dakika sonra: 65mm
BEROL 175 HLB 12.5
BEROL 175 Akma noktas 6 ° C
BEROL 175 Du Noüy’e göre Yüzey Gerilimi, 25 ° C,% 0.1 DIN 53914 29 mN / m
BEROL 175 Viskozite 20 ° C’de 130 mPa s
BEROL 175 Draves’e göre slatma gücü, 25 ° C,% 0.1 15 sn
BEROL 175 Çözünürlük: 2-propanol Çözünür
BEROL 175 Çözünürlük: Etanolde Çözünür
BEROL 175 Çözünürlük: Düük aromatik çözücü Dalabilir
BEROL 175 Çözünürlük: Propilen glikol Çözünür
BEROL 175 Çözünürlük: Suda Çözünür
BEROL 175 Çözünürlük: Beyaz ispirto Çözünür
BEROL 175 Çözünürlük: Ksilen Dalabilir / çözünmez
BEROL 175 Suda çözünür
BEROL 175 Beyaz ispirtoda çözünür
BEROL 175 Ksilen dalabilir / çözünmez
BEROL 175 Etanol çözünür
BEROL 175 Düük aromatik çözücü dalabilir
BEROL 175 Propilen glikol çözünür
BEROL 175 2-propanol çözünür
Berol 175-> C12-C16 alkol etoksilat. Berol 175, doal bazl bir birincil alkol bazl iyonik olmayan bir yüzey aktif maddedir. Hidrofilik (suda çözünür) bir karaktere sahiptir.Berol 175 by Nouryon, bir birincil alkol (doal kaynaklardan elde edilir) bazl iyonik olmayan bir yüzey aktif maddedir. Dispersiyon ajan, emülgatör ve slatma ajan görevi görür. Hidrofilik (suda çözünür) karakter gösterir. Berol 175 boya ve kaplamalar için uygundur.Berol 175, miktarn tamam kullanlmad sürece kullanmdan önce her zaman homojenize edilmelidir. Berol 175, temizlik ürünlerinde slatc ve emülgatör olarak kullanlabilir. Berol 175, sv deterjanlar ve çok amaçl temizleyiciler gibi temizlik ürünlerinde uygundur. Berol 175, miktarn tamam kullanlmadkça kullanlmadan önce daima homojenize edilmelidir. Hafif kokulu, renksiz bir sv. Mp: 5 ° C; bp <150 ° C; younluk: 0,9 g cm-3. Su ile tamamen karabilir. Bir dökülme durumunda çevre için büyük bir tehdit. Yaylmay snrlamak için acil admlar atlmaldr. Topraa kolayca nüfuz edebilir ve yer alt sularn ve yakndaki akarsular kirletebilir. Sudaki organizmalar için çok zehirlidir. Gözleri ve solunum yollarn tahri eder. Cilde uzun süre maruz kalmak kzarkla ve pullanmaya neden olabilir. Sürfaktan yapmnda kullanlr.Alcohols, C12-16, etoksillenmi 50 ° C’ye kadar stabildir. Havaya maruz kaldnda oksitlenerek peroksitler ve perasitler oluturur. Yancdr ancak yanc deildir (parlama noktas> 179 ° C). Kendiliinden tutuma scakl: 230 ° C. Güçlü oksitleyici maddelerle, güçlü asitlerle ve güçlü bazlarla reaksiyona girebilir. Bakr ve bakr alamlar ve alüminyum ile uyumsuz. R’nin bir C-12 ila C-16 alkil grubu olduu ve n’nin 1 ila 6’ya eit olduu RO- (CH2CH2-O-) nH formülüne sahip polieter alkollerin bir karm. C-12 ila C-16 alkollerin bir karmnn ilenmesiyle sentezlenmitir. Etilen oksit ile Malzemenin solunmas zararl olabilir. Temas ciltte ve gözlerde yanklara neden olabilir. Asbest tozunun solunmas akcierler üzerinde zararl bir etkiye sahip olabilir. Yangn tahri edici, andrc ve / veya toksik gazlar üretebilir. Baz svlar ba dönmesine veya boulmaya neden olabilecek buharlar üretir. Yangn kontrolünden kaynaklanan yüzey ak kirlilie neden olabilir. Bazlar yanabilir ancak hiçbiri hemen tutumaz. Kaplar stldnda patlayabilir. Bazlar scak tanabilir. Etoksile alkoller, örn. Berol 175, formülasyonun akmad viskoelastik bölgeden kaçnmaya yardmc olan bir çözündürme etkisine sahiptir ve pratik kullanm yoktur Çevresel izleme, atk su artma tesisinde (AAT) BEROL 175 (Alkol etoksilatlar) (AE) homologlarnn dalmn göstermektedir atk sular, görece daha yüksek yal alkol oranyla (AOH, sfr etoksilasyonlu AE’dir) ticari AE ürünlerindeki dalmdan farkldr. AE’den türetilen AOH’nin AAT atk sularndaki toplam AE ve AOH konsantrasyonuna katksn belirlemek için, bir laboratuar sürekli aktif çamur çalmas (CAS) gerçekletirdik. Bu, AE ile deitirilmi sentetik atk su ile beslenen bir test ünitesinden ve yemden AE kontaminasyonunu önlemek için sadece sentetik atk su ile beslenen bir kontrol ünitesinden oluuyordu. 114 AE homologunun uzaklatrma verimlilii, spesifik ve hassas bir analitik yöntemin uygulanmasyla belirlendi. AE’nin uzaklatrlma derecesi C18 bileikleri için% 99.70’den C12-16 için>% 99.98’e kadar deimitir. Bo ve test ünitelerinden çkan atk sularda nispeten yüksek AOH konsantrasyonlar gözlemlendi. Test eksi kontrol ünitesinden konsantrasyon fark oluturularak, giriteki AE’den kaynaklanan CAS çkndaki AE belirlendi. Böylece, AOH’nin CAS’taki toplam AE’nin (EO0-18) yalnzca% 19’unu temsil ettii gösterilebilirken, 29 WWTP atk suyunda (Avrupa, Kanada ve ABD) izleme toplamda% 55’lik bir ortalama AOH fraksiyonu ( Toplam AE’nin (EO0-18)% 5-82’si. Bu, WWTP atk sularndaki AOH’nin yalnzca küçük bir ksmnn, AE’den kaynaklandn göstermektedir. Wilfaret BEROL 175 (Alkol etoksilatlar) iyonik olmayan yüzey aktif maddelerdir. Genellikle kaln bir sv halini alrlar. Arlkl olarak temizlik maddeleri, deterjanlar, evde bakm ve emülgatör üretiminde kullanlrlar. Böyle kimyasallarBEROL 175 (Alkol etoksilatlar) olarak SLES ve SLS de metil esterlerden üretilebilir. Ya alkollerinin derecesine / türüne bal olarak BEROL 175 (Alkol etoksilatlar), birçok endüstriyel uygulamada ve ticari pazarlarda yaygn olarak kullanlan bir bileikler snfdr. Bu bileikler, bir ya alkolü ve etilen oksidin reaksiyonu yoluyla sentezlenir ve iki ana bileenden, (1) oleofilik, karbon bakmndan zengin, yal alkol ve (2) hidrofilik, polioksietilen zincirinden oluan bir molekül ortaya çkar. Bir hidrofobik ksm (sudan nefret eden) bir hidrofilik bileenle (su seven) eletiren bu bileiklerin temel yaps, etoksile alkoller, yaygn olarak yüzey aktif maddeler olarak adlandrlan çok yönlü bir bileik snfdr. BEROL 175 (Alkol etoksilatlar) sürfaktanlar, bu zt bölümleri ayn bileik içinde bulundurarak ya ve suyun kartrlmasn ve çözünürlüünü arttrr. Bu benzersiz yap ile, tek bir molekül, iki karmayan fazn (yani ya ve su) arayüzünde yaayabilir, onlar etkili bir ekilde birbirine yaklatrr ve aralarndaki ilikili arayüz enerjisini düürür. Bu enerjiyi düürerek, daha önce karmayan bu iki fazn homojenliini artrarak birçok yeni çözelti uygulamasna eriilebilir.Etoksilatl alkoller, özellikleri ve uygulamalar açsndan büyük farkllklar gösterebilir çünkü bu ürünleri yapmak için kullanlan malzemeler yaplar ve miktarlar bakmndan deiiklik gösterebilir. Örnein, genellikle doal malzemelerden elde edilen ya alkolleri, çkarldklar bitkiye bal olarak farkl yaplar salayabilir. Ya alkollerinin yaygn doal kaynaklar arasnda hurma ya aac (hem palmiye ya hem de hurma çekirdei ya dahil), hindistancevizi aacndan yalar ve kolza tohumu ya bulunur. Bu doal kaynaklarn her biri, karbon zincirlerinin dalmnda farkllk gösterir ve hindistancevizi ya alkolünden bir BEROL 175’i (Alkol etoksilatlar), hurma çekirdei yann alkolünden yaplan etoksillenmi alkolden farkl klar. Oksiteno, çok çeitli etoksile alkoller sunar. her biri benzersiz bir uygulama özellikleri seti salayan doal malzemelerden (BEROL 175 (Alkol etoksilatlar)) elde edilmitir. Ek olarak, ya alkolleri de petrol ürünlerinden sentezlenebilir ve hidrofobik ksmda doada yaygn olarak görülmeyen benzersiz yaplar salar. Belirli karbon dalmlarna sahip dall alkoller ve alkoller, tümü BEROL 175’in (Alkol etoksilatlar) nihai özelliklerini güçlü bir ekilde etkileyen sentetik balangç malzemeleri kullanlarak elde edilebilir. Sürfaktan irketleri aryorsanz, sentetik kaynaklardan elde edilen geni etoksile alkol portföyümüzü görmek için lütfen Oxiteno web sitesini ziyaret edin. Alternatif olarak, BEROL 175’in (Alkol etoksilatlar) polioksietilen bileeninin uzunluu (yani hidrofilik ksm) bu snf salar Çok çeitli suda çözünürlük ve temizleme özelliklerine sahip bileikler. Etoksile alkol üzerindeki etilen oksit miktarnn arttrlmas tipik olarak suda çözünürlüünü arttrr ve bileiin hidrofilik / lipofilik dengesini (HLB) arttrr. 1-20’lik rasgele birimler arasnda deien, iyonik olmayan bir yüzey aktif maddenin HLB’si hesaplanabilir ve bir bileiin belirli bir ya ve su çözeltisinde etkili bir ekilde çalma eilimini belirlemek için kullanlabilir. Daha düük HLB deerleri (<10) genellikle ya bakmndan zengin çözeltiler için kullanlrken, daha yüksek HLB deerlerine (> 10) sahip yüzey aktif maddeler tipik olarak suda ya emülsiyonlarnda en etkilidir. Oxiteno’nun etoksile alkol ürün serisinin her biri, formülasyon kimyager ve bilim insan için çok sayda seçenek sunarak, HLB deerlerinde büyük farkllklar gösterebilir. BEROL 175 (Alkol etoksilatlar), çok çeitli endüstriyel ve ticari ortamlarda kullanlmaktadr. Bu bileikler yüzey aktif maddeler olduu için yal maddeler su veya yüzey ile temas ettiinde kullanlabilirler. Etoksile alkoller, piyasada satlan birçok ürün ve endüstriyel uygulamalarda deterjanlar, slatclar, emülgatörler, ya gidericiler ve yumuatclar olarak kullanlabilir. Oxiteno’nun BEROL 175 serisi (Alkol etoksilatlar), Boyalar ve Kaplamalar, Zirai Kimyasallar, Ev ve Kiisel Bakm, Petrol ve Gaz ve Endüstriyel ve Kurumsal Temizlik. Bir bileiin yaps tarafndan yönetilen özelliklerdeki yukarda belirtilen çeitlilik nedeniyle, Oxiteno’nun BEROL 175 serisi (Alkol etoksilatlar) formülatöre mükemmel deterjan özellikleri, yüksek ve düük köpüren ürünler ve etoksilatlar dahil olmak üzere birçok farkl özellik salayabilir. BEROL 175 (Alkol etoksilatlar) (AE), çamar deterjanlarnda ve daha az oranda ev temizleyicilerinde, kurumsal ve endüstriyel temizleyicilerde, kozmetikte, tarmda yaygn olarak kullanlan iyonik olmayan yüzey aktif maddelerin ana snfdr. ve tekstil, kat, petrol ve dier proses endüstrilerinde. BEROL 175’in (Alkol etoksilatlar) normal ortam altnda hidrolize girmesi beklenmez.zihinsel koullar (pH aral 4 ila 9). AE homologlarnn kimyasal yapsndan dolay atmosferde, suda veya toprak ve tortu yüzeyleri gibi kat yüzeylere adsorbe edildiinde fotolizin de meydana gelmesi beklenmez. SIAR’da uzun zincirli alkoller için alkoller (EO = 0 homologlar) için hidroliz de azaltlmtr. Olaan uygulamada, alkoller ve fenoller, n’nin 1 ila 10 arasnda olduu R (OC2H4) nOH’ye dönütürülür. Bu tür bileikler olarak adlandrlr. BEROL 175 (Alkol etoksilatlar). BEROL 175 (Alkol etoksilatlar) genellikle etoksisülfatlar ad verilen ilgili türlere dönütürülür. BEROL 175 (Alkol etoksilatlar) ve etoksisülfatlar, kozmetik ve dier ticari ürünlerde yaygn olarak kullanlan yüzey aktif maddelerdir. [1] 1994 ylnda dünya çapnda üretilen 2.000.000 metrik tondan fazla çeitli etoksilat ile proses büyük endüstriyel öneme sahiptir. noniyonik yüzey aktif madde (örnein oktaetilen glikol monododesil eter). Bu tür alkoller, ya asitlerinin tohum yalarndan hidrojenlenmesi [5] veya Shell yüksek olefin ileminde hidroformilasyon [6] ile elde edilebilir. Reaksiyon, katalizör görevi gören potasyum hidroksit (KOH) ile 180 ° C’de ve 1-2 bar basnç altnda alkolden etilen oksidin üflenmesiyle devam eder. [7] lem oldukça ekzotermiktir (ΔH -92 kJ / mol etilen oksit reaksiyona girmitir) ve potansiyel olarak feci bir termal kaça önlemek için dikkatli bir kontrol gerektirir. üreme veya geliimsel etkiler. [18] Etoksilasyonun bir yan ürünü, olas bir insan kanserojeni olan 1,4-dioksandr. [19] Seyreltilmemi AE’ler deri veya göz tahriine neden olabilir. Sulu çözeltide, tahri seviyesi konsantrasyona baldr. AE’lerin akut oral maruziyet için düük ila orta toksisiteye, düük akut dermal toksisiteye ve tüketici ürünlerinde bulunan konsantrasyonlarda cilt ve gözler için hafif tahri potansiyeline sahip olduu kabul edilir.BEROL 175 (Alkol etoksilatlar), birçok endüstriyel uygulamada ve ticari pazarlarda yaygn olarak kullanlan bir bileikler snfdr. Bu bileikler, bir ya alkolü ve etilen oksidin reaksiyonu yoluyla sentezlenir ve iki ana bileenden, (1) oleofilik, karbon bakmndan zengin, yal alkol ve (2) hidrofilik, polioksietilen zincirinden oluan bir molekül ortaya çkar. Bir hidrofobik ksm (sudan nefret eden) bir hidrofilik bileenle (su seven) eletiren bu bileiklerin temel yaps, etoksile alkoller, yaygn olarak yüzey aktif maddeler olarak adlandrlan çok yönlü bir bileik snfdr. Alkol etoksilat yüzey aktif maddeler, ayn bileik içinde bu zt ksmlara sahip olarak ya ve suyun kartrlmasn ve çözünmesini arttrr. Bu benzersiz yap ile, tek bir molekül, iki karmayan fazn (yani ya ve su) arayüzünde yaayabilir, onlar etkili bir ekilde birbirine yaklatrr ve aralarndaki ilikili arayüz enerjisini düürür. Bu enerjiyi düürerek, daha önce karmayan bu iki fazn homojenliini artrarak birçok yeni çözüm uygulamasna eriilebilir. BEROL 175 (Alkol etoksilatlar) çok çeitli endüstriyel ve ticari ortamlarda kullanlmaktadr. Bu bileikler yüzey aktif maddeler olduu için yal maddeler su veya yüzey ile temas ettiinde kullanlabilirler. Etoksillenmi alkoller, ticari olarak temin edilebilen birçok ürün ve endüstriyel uygulamalarda deterjanlar, slatma maddeleri, emülgatörler, ya gidericiler ve yumuatclar olarak kullanlabilir.