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Butyl Triglycol Ether (BTGE) is used as coupling agent and solvent in household and industrial applications.
Butyl Triglycol Ether (BTGE) is used as solvents for surfactants and plasticizers.
Butyl Triglycol Ether (BTGE) is used as coupling agent for resins and dyes in water-based printing inks.
CAS Number: 143-22-6
EC Number: 205-592-6
IUPAC Name: 2-(2-Butoxyethoxy)ethanol
Molecular Formula: C10H22O4 / C4H9(OCH2CH2)3OH
Molar Mass: 206.152 g/mol
SYNONYMS:
2-(2-Butoxyethoxy)ethanol, Diethylene Glycol Monobutyl Ether, Butyl Triglycol, Butyl Carbitol, Triethylene Glycol Monobutyl Ether, Triethylene Glycol Butyl Ether, Diethylene Glycol Butyl Ether, Ethylene Glycol Monobutyl Ether, Butoxyethanol, Butyl Diglycol, Butyldiglycol, Butyl Ether of Triethylene Glycol, TEG Butyl Ether, 2-(2-Butoxyethoxy)-ethanol, Triglycol Monobutyl Ether, Triglycol Butyl Ether, BTGE, butyl tri tetra, butyltriglycol, butoxytriglycol, butyl tri tetra, butyl tri glycol, butyl triglycol, butoxy triglycol, triethylene glycol butyl ether, triglycol monobutyl ether, Dowanol tbat, butoxy triethylene glycol, butyl triglycol, triethylene glycol monobutyl ether, TEGBE, 2-[2-(2-butoxyethoxy)ethoxy]ethanol, buteth-3, TRIETHYLENE GLYCOL MONOBUTYL ETHER, 143-22-6, Butoxytriglycol, 2-[2-(2-Butoxyethoxy)ethoxy]ethanol, Butoxytriethylene glycol, Dowanol tbat, Triethylene glycol butyl ether, Butyltriglycol, Triglycol monobutyl ether, Triethylene glycol n-butyl ether, Ethanol, 2-[2-(2-butoxyethoxy)ethoxy]-, triethyleneglycolmonobutylether, 2-[2-(2-butoxyethoxy)ethoxy]ethan-1-ol, Triethylene glycol mono-n-butyl ether, 3,6,9-Trioxa-1-tridecanol, 2-(2-(2-Butoxyethoxy)ethoxy)ethanol, Butyl Triglycol, HSDB 5645, EINECS 205-592-6, UNII-OC116GRO69, NSC 164915, BRN 1750600, OC116GRO69, DTXSID7021520, Triethyleneglycol monobutyl ether, Ethanol, 2-(2-(2-butoxyethoxy)ethoxy)-, AI3-30236, BUTETH-3, PEG-3 BUTYL ETHER, NSC-164915, 3,6,9-Trioxatridecan-1-ol, DTXCID701520, EC 205-592-6, 4-01-00-02402 (Beilstein Handbook Reference), T1J4684X95, CAS-143-22-6, C10H22O4, Butoxytriglykol, PolySolv TB, MFCD00020606, 3,6,9Trioxa1tridecanol, 3,9-Trioxatridecan-1-ol, BUTETH-3 [INCI], SCHEMBL15523, WLN: Q2O2O2O4, triethyleneglycol monobutylether, Triethylene glycol nbutyl ether, CHEMBL3184092, 2(2(2Butoxyethoxy)ethoxy)ethanol, CHEBI:231291, Triethylene glycol mononbutyl ether, AAA14322, Tox21_201885, Tox21_302836, Ethanol, 2(2(2butoxyethoxy)ethoxy), NSC164915, AKOS024390783, 2-(2-(2-butoxyethoxy)-ethoxy)-ethanol, 2-[2-(2-butoxyethoxy) ethoxy] ethanol, NCGC00164337-01, NCGC00164337-02, NCGC00256567-01, NCGC00259434-01, BS-42318, DB-372134, 3,6,9-TRIOXA-1-TRIDECANOL [HSDB], CS-0196787, NS00001775, T0915, E82324, EN300-132557, Q1815673, Triethylene glycol monobutyl ether, technical, ~70% (GC)
Butyl Triglycol Ether (BTGE) is a type of glycol ether, which is the result from the reaction of alcohols or phenol with ethylene oxide.
Ideal for use in leathers and hydraulic fluids.
Results from the reaction of alcohols or phenol with ethylene oxide.
Butyl Triglycol Ether (BTGE) has other denominations of Butyl Triglycol Ether, TEGBE, and has a CAS No. of 143-22-6.
The primary method of manufacturing Butyl Triglycol Ether (BTGE) is via reacting ethylene oxide with ethyl alcohol.
This is done by vacuum distillation which separates and isolates the produced Butyl Triglycol Ether (BTGE) from the reaction.
Other methods of production of Butyl Triglycol Ether (BTGE) include reacting of alcohols with ethylene oxide.
Global consumption of Butyl Triglycol Ether (BTGE) is estimated at approximately 21,000 tonnes per year.
Butyl Triglycol Ether (BTGE) can be stored and transported in stainless steel, mild steel, or carbon steel drums and/or tanks and must be kept in a well-ventilated area.
Butyl Triglycol Ether (BTGE) has a flashpoint of 156 °C (closed cup) and a specific gravity of 0.985.
Butyl Triglycol Ether (BTGE) exists as a liquid under normal conditions.
The colorless to slightly yellowish compound, Butyl Triglycol Ether (BTGE), is hardly volatile and only has a faint odor.
Butyl Triglycol Ether (BTGE) is hygroscopic and attracts moisture.
Butyl Triglycol Ether (BTGE) is very soluble in water and many organic solvents such as methanol and ethanol.
Butyl Triglycol Ether (BTGE) is very temperature resistant and only boils when heated to over 278 °C.
The melting point for the transition of Butyl Triglycol Ether (BTGE) into the solid state of aggregation is -35 °C.
Butyl Triglycol Ether (BTGE) is a triple ether whose molecules are composed of three ethylene glycol residues and the residue of n-butanol.
This structure becomes clear from the alternative designation triethylene glycol monobutyl ether.
The long, linear compound therefore has three ether groups and a hydroxy group on the terminal ethylene glycol residue.
These four functional groups account for the substance's solubility in polar solvents and determine its reaction behavior.
Butyl Triglycol Ether (BTGE) can, for example, build up further, more complex ether structures by dissolving the hydroxy group or undergo esterification with a carboxylic acid.
As an ether, Butyl Triglycol Ether (BTGE) tends to form hazardous peroxides in air.
Butyl Triglycol Ether (BTGE) is an organic compound from the glycol ether group, which is mainly used as a solvent.
Butyl Triglycol Ether (BTGE) is contained in cleaning products, wood preservatives, brake fluids, textile dyes and printing inks, among other things.
In addition, Butyl Triglycol Ether (BTGE) serves as a plasticizer and as an intermediate product for synthesis processes in the chemical industry.
In large-scale processes, Butyl Triglycol Ether (BTGE) is produced on the basis of ethylene oxide and n-butanol.
Butyl Triglycol Ether (BTGE), the chemical formula is C10H22O4.
Butyl Triglycol Ether (BTGE) is a transparent liquid, easily soluble in water, stable under normal temperature and pressure, and the decomposition products are carbon monoxide and carbon dioxide.
Butyl Triglycol Ether (BTGE) is a type of glycol ether, which is the result from the reaction of alcohols or phenol with ethylene oxide.
Butyl Triglycol Ether (BTGE) is ideal for use in leathers and hydraulic fluids.
Butyl Triglycol Ether (BTGE) results from the reaction of alcohols or phenol with ethylene oxide.
The reactions to obtain these compounds and their molecular structures are shown in the figure below, starting from methanol and ethanol.
Butyl Triglycol Ether (BTGE) has other denominations of Triethylene glycol butyl ether, TEGBE, and has a CAS No. of 143-22-6.
USES and APPLICATIONS of BUTYL TRIGLYCOL ETHER (BTGE):
Butyl Triglycol Ether (BTGE) is mainly used in organic synthesis.
Butyl Triglycol Ether (BTGE) is mainly used as a solvent for coatings, printing inks, stamp pad inks, oils, resins, etc.
Butyl Triglycol Ether (BTGE) can also be used as a metal detergent, paint remover, lubricating oil remover, automobile engine detergent, dry cleaning solvent, epoxy resin solvent and extractant.
Butyl Triglycol Ether (BTGE) is used as stabilizer of latex paint, evaporation inhibitor of aircraft paint, surface processing modifier of high-temperature baking enamel paint, etc.
Butyl Triglycol Ether (BTGE) is used for solvent-based coatings.
Butyl Triglycol Ether (BTGE) is used as coupling agent and solvent in household and industrial applications.
Butyl Triglycol Ether (BTGE) is used as solvents for surfactants and plasticizers.
Butyl Triglycol Ether (BTGE) is used as coupling agent for resins and dyes in water-based printing inks.
Butyl Triglycol Ether (BTGE) is used as component of drilling fluids, hydraulic fluids.
Butyl Triglycol Ether (BTGE) is used as a solvent and colorant.
In metal surface treatment, Butyl Triglycol Ether (BTGE) is used as a metal cleaning agent to remove oil, paint and other dirt.
Butyl Triglycol Ether (BTGE) is used cleaning agent for integrated circuits and electronic components; Pesticide dispersant; Intermediates of organic synthesis; Mild, non-irritating household liquid scrubber; Fiber wetting agent; and Resin plasticizer.
Paints and Coatings: Butyl Triglycol Ether (BTGE) is used as a solvent in water-based paints and coatings, improving flow and leveling.
Cleaning Products: Butyl Triglycol Ether (BTGE) is common in industrial and household cleaners due to its solvent properties.
Printing Inks: Butyl Triglycol Ether (BTGE) acts as a solvent for inks, resins, and dyes.
Textile Industry: Butyl Triglycol Ether (BTGE) is used in textile dyeing and printing processes.
Agricultural Formulations: Butyl Triglycol Ether (BTGE) can be part of pesticide formulations.
Strong Solvent: Butyl Triglycol Ether (BTGE) is effective in dissolving a wide range of substances.
Butyl Triglycol Ether (BTGE) is used as a solvent for nitrocellulose, oils, paint removers, gums, soaps, dyes, grease, industrial cleaners, polish strippers, disinfectants, chlorinated rubber, wood paints, inks and levelling agents.
Butyl Triglycol Ether (BTGE) is also used as a component in the base blend used in the manufacture of cutting and hydraulic oils, including hydraulic brake fluids, as a useful component in paint stripping formulations as it has low volatility, employed as a dye carrier in textile dyeing processes, as a coalescent for coatings, in the manufacture of plasticizers, as a dye carrier for textile dyes and as a solvent/intermediate for ester production.
Butyl Triglycol Ether (BTGE) is found in many commercial products including de-icers, automotive care products, paints, inks, coatings, oils, greases, disinfectants and lubricants.
Areas of application: Butyl Triglycol Ether (BTGE) is used as a solvent, plasticizer and intermediate in the manufacture of organic compounds.
MARKET OF BUTYL TRIGLYCOL ETHER (BTGE):
Butyl Triglycol Ether (BTGE) Market has gained significant traction in recent years, driven by its versatile applications in various industrial sectors.
This ether, known for its excellent solvent properties, Butyl Triglycol Ether (BTGE) is primarily used in formulations of paints, coatings, and cleaning products.
As of 2022, the global market was valued at approximately USD 500 million, with an expected growth rate of 4.5% CAGR through 2030, according to industry reports.
The increasing demand for eco-friendly solvents is further propelling market growth, as manufacturers are seeking alternatives that meet stringent environmental regulations.
The demand for Butyl Triglycol Ether (BTGE) is influenced by several factors, including urbanization, industrial expansion, and the growing automotive sector.
As construction activities rise, the need for high-quality coatings and cleaning agents becomes more pronounced.
Additionally, the automotive industry’s shift towards lightweight materials and advanced coatings has created a need for effective solvents like
Butyl Triglycol Ether (BTGE).
Recent statistics indicate that the automotive sector alone accounts for about 20% of the total market share, showcasing Butyl Triglycol Ether (BTGE)'s critical role in driving market dynamics.
A key factor in the growth of the Butyl Triglycol Ether (BTGE) Market is its application as a solvent in various cleaning and maintenance products.
The increasing focus on sustainable cleaning solutions has led to a rise in demand for effective solvents that are less harmful to the environment.
This shift aligns with the broader trend of adopting eco-friendly chemicals in formulations.
The process of formulating these cleaning products often incorporates Butyl Triglycol Ether (BTGE) due to its ability to dissolve oils and greases efficiently.
For more detailed insights into the market trends, you can explore the cleaning products market.
Application across industries extends to sectors such as pharmaceuticals, where Butyl Triglycol Ether (BTGE) is utilized as a solvent in drug formulations, and personal care, where it is included in products like lotions and creams.
The agrochemical sector also benefits from this ether, using Butyl Triglycol Ether (BTGE) in the formulation of pesticides and herbicides.
With its diverse utility, the market for Butyl Triglycol Ether (BTGE) continues to expand, driven by innovation and regulatory support for safer, more effective chemical solutions.
MAIN APPLICATIONS OF BUTYL TRIGLYCOL ETHER (BTGE):
*Cleaning Products:
Due to its ability to break down oils and greases, Butyl Triglycol Ether (BTGE) is widely used in both household and industrial cleaners.
*Coatings and Paints:
Butyl Triglycol Ether (BTGE) serves as a solvent and flow improver in various coating formulations, enhancing the quality and longevity of the applied material.
*Textile Manufacturing:
In textiles, Butyl Triglycol Ether (BTGE) plays a role in dyeing and finishing processes, ensuring better absorption and evenness of colors.
*Chemical Formulations:
Butyl Triglycol Ether (BTGE) is also a component in various chemical formulations, particularly in agrochemicals and cosmetics, where solubility is crucial.
With such a wide range of uses, the Butyl Triglycol Ether (BTGE) market is integral to the smooth operation of many industries, making it a key player in the global chemicals market.
WHAT IS BUTYL TRIGLYCOL ETHER (BTGE) AND BUTYL TRIGLYCOL ETHER (BTGE)'S KEY BENEFITS?
Chemical Composition and Characteristics
Triethylene Glycol Monobutyl Ether, or Butyl Triglycol Ether (BTGE) Market, is a colourless, odourless liquid that is mostly employed as a solvent in commercial and industrial settings.
Butyl Triglycol Ether (BTGE) is perfect for usage in products like paints, coatings and cleaning solutions because of its capacity to dissolve a variety of organic and inorganic components.
Butyl Triglycol Ether (BTGE) is well-known for having a high boiling point, a slow rate of evaporation, and good water and solvent miscibility.
Because of these qualities, Butyl Triglycol Ether (BTGE) is very helpful in sectors like industrial cleaners and automotive coatings where performance in harsh environments is crucial.
PROPERTIES OF BUTYL TRIGLYCOL ETHER (BTGE):
*Low Volatility:
Helps reduce evaporation rates, making it useful for slower drying applications.
*Viscosity Modifier:
Butyl Triglycol Ether (BTGE) enhances the viscosity of formulations.
*Water Solubility:
Butyl Triglycol Ether (BTGE) is compatible with both water and organic solvents, adding versatility.
*Effective and Safe Solvent:
Butyl Triglycol Ether (BTGE) is widely used in many industries due to its balance of solvency and low toxicity.
*Low Evaporation Rate:
Butyl Triglycol Ether (BTGE) is ideal for applications requiring extended drying times.
*Compatibility:
Butyl Triglycol Ether (BTGE) is compatible with many formulations, enhancing the performance of coatings and cleaning products.
*Odor:
Mild, not harsh or pungent.
*Evaporation:
Slow evaporation rate, ideal for coatings and formulations that require longer drying times.
*Solvent Power:
Strong solvent ability for various resins and organic materials.
CHEMICAL PROPERTIES AND APPLICATIONS OF BUTYL TRIGLYCOL ETHER (BTGE):
Butyl Triglycol Ether (BTGE)’s chemical structure allows it to act as a high-performance solvent in formulations where a low odor and low toxicity are crucial.
Butyl Triglycol Ether (BTGE)'s primary applications include:
*Paints and Coatings:
Butyl Triglycol Ether (BTGE) enhances the flow and leveling properties of paints.
*Cleaning Agents:
Butyl Triglycol Ether (BTGE) is used in industrial and household cleaners for its solvent capabilities.
*Industrial Formulations:
Butyl Triglycol Ether (BTGE) is employed in a range of chemical processes where a stable and effective solvent is required.
GLOBAL IMPORTANCE OF BUTYL TRIGLYCOL ETHER (BTGE) MARKET:
*Growing Demand Across Industries
The global demand for Butyl Triglycol Ether (BTGE) is on the rise due to its diverse applications.
The automotive, construction, and consumer goods industries are major contributors to this growth.
The paint and coatings sector, in particular, has seen increased usage of Butyl Triglycol Ether (BTGE) as manufacturers seek solvents that offer better performance and environmental benefits.
*Economic Impact and Investment Opportunities
The Butyl Triglycol Ether (BTGE) market is becoming increasingly attractive to investors due to its robust growth potential.
According to recent estimates, the market is projected to expand at a compound annual growth rate (CAGR) of around 5-7% over the next decade.
This growth is driven by the ongoing trend of industrialization and the need for advanced chemical solutions.
*Positive Changes and Innovations
Technological Advancements
Recent technological advancements have significantly impacted the Butyl Triglycol Ether (BTGE) market.
Innovations in production techniques have led to the development of more efficient and environmentally friendly methods.
For instance, improved synthesis processes have reduced production costs and enhanced the purity of Butyl Triglycol Ether (BTGE).
*Sustainability and Environmental Impact
Sustainability is a key focus in the Butyl Triglycol Ether (BTGE) market, with an increasing emphasis on reducing the environmental footprint of chemical products.
Manufacturers are developing eco-friendly versions of Butyl Triglycol Ether (BTGE) with lower volatile organic compound (VOC) emissions, contributing to greener industrial practices.
*Recent Trends and Developments
New Product Launches and Innovations
Several new products and innovations have emerged in the Butyl Triglycol Ether (BTGE) market.
Recent launches include enhanced formulations with better performance characteristics and lower environmental impact.
Companies are also exploring the integration of Butyl Triglycol Ether (BTGE) in emerging technologies such as electric vehicle manufacturing and advanced coatings.
*Partnerships and Acquisitions
Strategic partnerships and acquisitions are shaping the future of the Butyl Triglycol Ether (BTGE) market.
Companies are collaborating to enhance their product offerings and expand their market reach.
These partnerships often focus on leveraging each other’s technological expertise and resources to drive innovation and growth in the sector.
MAJOR MARKET FORCES OF BUTYL TRIGLYCOL ETHER (BTGE):
Butyl Triglycol Ether (BTGE) is a poly(ethylene glycol).
The growth and development of the Butyl Triglycol Ether (BTGE) Market is attributed to certain main market drivers.
These factors have a big impact on how Butyl Triglycol Ether (BTGE) are demanded and adopted in different sectors.
Several of the major market forces are as follows:
*Excellent solvent qualities :
Excellent solvent qualities allow Butyl Triglycol Ether (BTGE) to be used in a wide range of industries, including coatings, cleansers, and degreasers.
Because Butyl Triglycol Ether (BTGE) dissolves resins, pigments, and additives well, it is frequently employed as a solvent in the formulation of paints, coatings, and inks, which has led to the expansion of this market.
Butyl Triglycol Ether (BTGE) is in high demand in this industry because of its efficient cleaning and degreasing capabilities, which make it a vital ingredient in industrial cleaning formulations.
Butyl Triglycol Ether (BTGE) can be used in a variety of formulations due to its compatibility with a broad range of materials, resins, and chemicals, which has led to its adoption in a number of industries.
Butyl Triglycol Ether (BTGE) is favored in industries where effective solvents are needed for processing and formulation due to its high solvency power and capacity to dissolve a variety of compounds.
The need for Butyl Triglycol Ether (BTGE) is further fueled by its use in chemical processes, which include the creation of adhesives, sealants, and surface coatings.
Because Butyl Triglycol Ether (BTGE) has a lower VOC content than alternatives, it is in higher demand as paints, coatings, and cleaning products move toward low volatile organic compound (VOC) formulations.
The demand for Butyl Triglycol Ether (BTGE) is driven by the expansion of the construction industry as well as the automotive sector, where Butyl Triglycol Ether (BTGE) is utilized in coatings and surface treatments.
As manufacturing and other industries expand in emerging markets, there is a greater need for Butyl Triglycol Ether (BTGE) in a variety of applications, which drives market expansion.
The usage of Butyl Triglycol Ether (BTGE) is favored in many industries due to its lower toxicity and environmental impact when compared to certain alternatives.
This is because Butyl Triglycol Ether (BTGE) complies with environmental requirements and meets industry preferences for environmentally friendly solvents.
Butyl Triglycol Ether (BTGE) is a clear, colourless liquid with low volatility, strong coupling characteristics and surface tension properties.
Butyl Triglycol Ether (BTGE) is primarily used as a solvent for oils, paint removers, soaps, greases as well as hydraulic oils and brake fluids.
Butyl Triglycol Ether (BTGE) is a kind of alcohol ether organic matter, which is a good high boiling point solvent.
STORAGE OF BUTYL TRIGLYCOL ETHER (BTGE):
When stored as intended, Butyl Triglycol Ether (BTGE) is chemically stable.
However, if Butyl Triglycol Ether (BTGE) comes into contact with aluminum or strong oxidizing agents, violent, dangerous reactions can occur.
Butyl Triglycol Ether (BTGE) is flammable but difficult to ignite.
When the substance is heated, it can form explosive mixtures of its vapors with the ambient air.
Butyl Triglycol Ether (BTGE) must therefore be kept away from possible sources of ignition such as hot surfaces, mechanically generated sparks, open flames and electrical discharges.
PHYSICAL and CHEMICAL PROPERTIES of BUTYL TRIGLYCOL ETHER (BTGE):
CAS No: 143-22-6
EINECS No: 205-592-6
Appearance: Transparent liquid
Molecular Formula: C10H22O4
Melting Point: -35.2 °C
Boiling Point: 278 °C
Solubility: 989 g/L (20 °C)
Density: ca. 989 kg/m³ (20 °C)
CAS No: 143-22-6
EINECS: 205-592-6
Type: Synthesis Material Intermediates
Appearance: Liquid
Quality: Industrial
Colour: Transparent
Density: ca. 989 kg/m³ (20 °C)
Melting Point: -35.2 °C
Boiling Point: 278 °C
Flash Point: 131 °C
Solubility in Water: 989 g/L (20 °C)
Vapor Pressure (25 °C) (KPa): 0.003 mm Hg
Viscosity: 9.2 mm²/s (25 °C)
Specification: 99% min
HS Code: 29094990
Molecular Weight: 206.28 g/mol
XLogP3: 0.4
Hydrogen Bond Donor Count: 1
Hydrogen Bond Acceptor Count: 4
Rotatable Bond Count: 11
Exact Mass: 206.15180918 Da
Monoisotopic Mass: 206.15180918 Da
Topological Polar Surface Area: 47.9 Ų
Heavy Atom Count: 14
Formal Charge: 0
Complexity: 98.1
Isotope Atom Count: 0
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 0
Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Covalently-Bonded Unit Count: 1
Compound Is Canonicalized: Yes
IUPAC Name: 2-(2-Butoxyethoxy)ethanol
CAS Number: 143-22-6
EC Number: 205-592-6
Molecular Formula: C10H22O4 / CH3(CH2)3(OCH2CH2)3OH
Molar Mass: 206.152 g/mol
Molecular Mass: 206.151809 g/mol
Appearance: Clear, colorless liquid with a mild odor
Color: Colorless
Physical State: Liquid
Density: 0.9890 g/cm³ at 20 °C / 0.948 g/cm³ at 20 °C / 0.99 g/mL at 20 °C
Relative Density: No data available
Melting Point: -80 °C / -35.19 °C at 1.035 hPa / -30.0 °C / -35 °C
Freezing Point: -31 °F / -35 °C
Boiling Point: 235 °C / 278 °C / 532.4 °F / 265–350 °C (lit.)
Initial Boiling Point and Boiling Range: 265–350 °C (lit.)
Flash Point: 105 °C / 143 °C / 144.0 °C (closed cup) / 290 °F
Autoignition Temperature: 202 °C at 1.01325 hPa
Decomposition Temperature: No data available
Solubility: Soluble in water and many organic solvents
Water Solubility: 989 g/L at 20 °C / Miscible
Vapor Pressure: 0.04 mmHg at 20 °C / 0.0025 hPa at 25 °C
Relative Vapor Density: No data available
Partition Coefficient (n-octanol/water): log Pow: 0.51 at 25 °C
Viscosity, Kinematic: 9.2 mm²/s at 25 °C
Viscosity, Dynamic: No data available
pH: No data available
Odor: No data available
Flammability (solid, gas): No data available
Upper/Lower Flammability or Explosive Limits: No data available
Explosive Properties: Not classified as explosive
Oxidizing Properties: None
Particle Characteristics: No data available
Other Safety Information: No data available
FIRST AID MEASURES of BUTYL TRIGLYCOL ETHER (BTGE):
-Description of first-aid measures
*General advice:
Show this material safety data sheet to the doctor in attendance.
*If inhaled:
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with
water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Call in ophthalmologist.
Remove contact lenses.
*If swallowed:
After swallowing:
Immediately make victim drink water (two glasses at most).
Consult a physician.
-Indication of any immediate medical attention and special treatment needed.
No data available
ACCIDENTAL RELEASE MEASURES of BUTYL TRIGLYCOL ETHER (BTGE):
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Observe possible material restrictions.
Take up dry.
Dispose of properly.
Clean up affected area.
FIRE FIGHTING MEASURES of BUTYL TRIGLYCOL ETHER (BTGE):
-Extinguishing media:
*Suitable extinguishing media:
Carbon dioxide (CO2)
Foam
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.
EXPOSURE CONTROLS/PERSONAL PROTECTION of BUTYL TRIGLYCOL ETHER (BTGE):
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Safety glasses
*Body Protection:
protective clothing
*Respiratory protection:
Recommended Filter type: Filter A
-Control of environmental exposure:
Do not let product enter drains.
HANDLING and STORAGE of BUTYL TRIGLYCOL ETHER (BTGE):
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Dry.
STABILITY and REACTIVITY of BUTYL TRIGLYCOL ETHER (BTGE):
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Possibility of hazardous reactions:
No data available
