| ETHYLENE GLYCOL DIMETHACRYLATE | ||
|
PRODUCT IDENTIFICATION |
||
| CAS NO. | 97-90-5 |
|
| EINECS NO. | 202-617-2 | |
| FORMULA | C10H14O4 | |
| MOL WT. | 198.22 | |
|
H.S. CODE |
2916.14 | |
| TOXICITY | Oral rat LD50: 3300 mg/kg | |
| SYNONYMS |
2-Methyl-2-Propenoic acid, 1,2-ethanediyl ester; |
|
|
EGDMA; Ethylene Methacrylate; Glycol Dimethacrylate; 1,2-Ethanediol dimethacrylate; Ethylene glycol bis(methacrylate); Methacrylic acid, ethylene ester; 1,2-Bis(Methacryloyloxy)ethane; |
||
| DERIVATION |
|
|
|
CLASSIFICATION |
|
|
|
PHYSICAL AND CHEMICAL PROPERTIES |
||
| PHYSICAL STATE |
clear liquid |
|
| MELTING POINT |
|
|
| BOILING POINT | 85 C at 2 hPa | |
| SPECIFIC GRAVITY | 1.05 | |
| SOLUBILITY IN WATER | ||
| pH | ||
| VAPOR DENSITY | ||
|
AUTOIGNITION |
|
|
|
NFPA RATINGS |
Health: 2; Flammability: 1; Reactivity: 0 | |
|
REFRACTIVE INDEX |
|
|
| FLASH POINT | > 95 C | |
| STABILITY | The stability depends upon dissolved oxygen and MEHQ inhibitor. The presence of oxygen is necessary for inhibitor to prevent polymerization. | |
|
APPLICATIONS |
||
|
Ethylene Glycol Dimethacrylate is used as a functional monomer for polymers and as a crosslinking agent between the molecular chains of polymers and elastomers. |
||
| SALES SPECIFICATION | ||
|
APPEARANCE |
clear liquid |
|
| TOTAL ESTERS |
99.0% min |
|
|
COLOR, APHA |
50 max |
|
|
FREE ACID |
0.1% max (methacrylic acid) |
|
|
WATER |
0.5% max |
|
|
INHIBITOR |
100 ± 10 ppm (Monomethyl Ether Hydroquinone) |
|
|
TRANSPORTATION |
||
| PACKING | 200kgs in drum | |
| HAZARD CLASS | ||
| UN NO. |
|
|
| OTHER INFORMATION | ||
| European Hazard Symbols: XI , Risk Phrases: 37-43, Safety Phrases: 24-37 | ||
|
GENERAL DESCRIPTION MEG |
||
Glycol: any of a class of organic chemicals characterized by having separate two
hydroxyl (-OH) groups, contribute to high water solubility, hygroscopicity and
reactivity with many organic compounds, on usually linear and aliphatic carbon
chain. The general formula is CnH2n(OH)2 or (CH2)n(OH)2. The wider meaning names
include diols, dihydric alcohols, and dihydroxy alcohols. Polyethylene glycols
and polypropylene glycols are sometimes called polyglycols which are derived by
polymerization of ethylene oxide and propylene oxide respectively. Polyethylene
glycols are water-soluble at all molecular weights, but polypropylene glycols
become increasingly less water-soluble at high molecular weights. Ethylene
glycol, HOCH2CH2OH, is the simplest member of the glycol family. Mono-, di- and
triethylene glycols are the first three members of a homologous series of
dihydroxy alcohols. They are colourless, essentially odourless stable liquids
with low viscosities and high boiling points. Ethylene glycol is a
colourless, odourless, involatile and hygroscopic liquid with a sweet taste. It
is somewhat viscous liquid; miscible with water; boiling point 198 C, melting
point 13 C; soluble in ethanol, acetone, acetic acid, glycerine, pyridine,
aldehydes; slightly soluble in ether; insoluble in oil, fat, hydrocarbones. It
is prepared commercially by oxidation of ethylene at high temperature in the
presence of silver oxide catalyst, followed by hydration of ethylene oxide to
yield mono-, with di-, tri-, and tetraethylene glycols as co-products. The
yields of ethylene glycol are depend on pH conditions. The acid-catalyzed
condition in the presence of excess water provides the highest yield of
monoethylene glycol. Because of its low freezing point, involatility and low
corrosive activity, it is widely used in mixtures of automobile antifreeze and
engine-cooling liquids. Ethylene glycol has become increasingly important in the
plastics industry for the manufacture of polyester fibers and resins, including
polyethylene terephthalate, which is used to make plastic bottles for soft
drinks (PET bottles). MEG is the raw material in the production of polyester fiber, PET resins,
alkyd, and unsaturated polyester. Diethylene glycol, CH2OHCH2OCH2CH2OH, is similar in
properties to MEG, but with a higher boiling point, viscosity, and specific
gravity. Diethylene glycol is used in the manufacture of unsaturated polyester
resins, polyurethanes and plasticizers. It is a water-soluble liquid; boiling
point 245 C; soluble in many organic solvents. It is used as a humectant in the
tobacco industry and in the treatment of corks, glue, paper and cellophane.
Diethylene glycol (DEG) is derived as a co-product with ethylene glycol and
triethylene glycol. The industry generally operates to maximize MEG production.
Ethylene glycol is by far the largest volume of the glycol products in a variety
of applications. Availability of DEG will depend on demand for derivatives of
the primary product, ethylene glycol, rather than on DEG market requirements.
Triethylene glycol, HO(C2H4O)3H, is a colourless, odourless, non-volatile, and
hygroscopic liquid. It is characterised by two hydroxyl groups along with two
ether linkages, which contribute to its high water solubility, hygroscopicity,
solvent properties and reactivity with many organic compounds. DEG is used in
the synthesis of morpholine and 1,4-dioxane. TEG is displacing
diethylene glycol in many of these applications on account of its lower
toxicity. TEG finds use as a vinyl plasticizer, as an intermediate in the
manufacture of polyester resins and polyols, and as a solvent in many
miscellaneous applications. Triethylene glycol (TEG) is derived as a coproduct
in the manufacture of ethylene glycol from ethylene oxide, and from "on-purpose"
TEG production using diethylene glycol. Some capacities are based on total
capacity for ethylene glycols. The main uses for TEG depend upon its hygroscopic
properties. Air conditioning systems use TEG as dehumidifiers and, when
volatilized, as an air disinfectant for bacteria and virus control. Glycols,
having high boiling point and affinity for water, are employed as liquid
desiccant for the dehydration of natural gas. The dehydration means the removal
of water vapor in refinery tower so that dry hydrocarbon gases can exit from the
top of the tower. There are wide range of glycol ethers which have bifunctional
nature of ether and alcohol. cellosolves are monoether derivatives of ethylene
glycol. They are excellent solvents, having solvent properties of both ethers
and alcohols. Glycol family products are versatile compounds used in the fields
include;
|
||
