Ethyl oxidation

For use in anesthesia the USP (22) also recognizes slightly less pure grades ethyl oxide (solvent ether), ether abs, and reagent-grade ether. 

The aim was to demonstrate the considerable effect of an impurity of low flashpoint on the flashpoint of a substance. This effect is obvious even Oiough a flashpoint had to be chosen that did not facilitate the demonstration (the butanol flashpoint is not as low as expected for instance, what would be the result for ethyl oxides after extraction of a compound with ether )... 

In the presence of anhydrous hydrazine, sodium in suspension in ethyl oxide is thought to give the following reaction ... 

An equimolar (10 mmol) mixture of benzoyl chloride and n-butyl oxide adsorbed on 5 g graphite A was sequentially irradiated with 90 W incident power. The conversion reached 80% (Yield of isolated n-butyl benzoate (69) 62%). With ethyl oxide, the yield of ethyl benzoate (68) was lower, but noteworthy considering the volatility of this oxide, and the significant retentive power of graphite towards organic compounds. These preliminary results have not yet been expanded, but it is certain that more reactive ethers, like those substituted with sec- or teri-alkyl, benzylic or allylic groups, are deavable in the same way. 

Synonyms Aether AI3-24233 Anaesthetic ether Anesthesia ether Anesthetic ether Diethyl ether Diethyl oxide EINECS 200-467-2 Ether Ethoxyethane Ethyl oxide NSC 100036 l,l -0 Qr-bis(ethane) RCRA waste number U117 Solvent ether Sulfuric ether UN 1155. 

Ethyl p-nitrophenyl benzenethionophosphate, see EPN Ethyl p-nitrophenyl benzenethiophosphonate, see EPN Ethyl p-nitrophenyl ester, see EPN Ethyl p-nitrophenyl phenylphosphonothioate, see EPN O-Ethyl O-4-nitrophenyl phenylphosphonothioate, see EPN O-Ethyl O-p-nitrophenyl phenylphosphonothioate, see EPN Ethyl p-nitrophenyl thionobenzenephosphate, see EPN Ethyl p-nitrophenyl thionobenzenephosphonate, see EPN Ethylolamine, see Ethanolamine Ethyl oxide, see Ethyl ether Ethyl parathion, see Parathion Ethylpentamethylene, see Ethylcyclopentane 2-Ethylpentane, see 3-Methylhextane O-Ethyl phenyl / nitrophenyl phenylphosphorothioate, see EPN... 

Synonyms Diethyl ether ethoxyethane ethyl oxide ether anesthesia ether sulfuric ether... 

ETETLIC ETESB, Ethylic Oxide, Ether, Sulphurio Ether. fOMeH,... 

Pyrazine, 3-alkyl-2-ethyl-oxidation, 3, 168 Pyrazine, amino-bromination, 3, 177 reactions... 

Whereas UL 94 delivers only a classification based on a pass-and-fail system, LOI can be used to rank and compare the flammability behavior of different materials. In Figure 15.2 the increasing LOI values are presented for different polymers as an example POM = poly(oxymethylene), PEO = poly(ethyl oxide), PMMA = poly(methyl methacrylate), PE = polyethylene), PP, ABS, PS, PET = polyethylene terephthalate), PVA = poly(vinyl alcohol), PBT, PA = poly(amide), PC, PPO = poly(phenylene oxide), PSU, PEEK = poly(ether ether ketone), PAEK = poly(aryl ether ketone), PES, PBI = poly(benzimidazole), PEI = poly(ether imide), PVC = poly(vinyl chloride), PBO = poly(aryl ether benzoxazole), PTFE. The higher the LOI, the better is the intrinsic flame retardancy. Apart from rigid PVC, nearly all commodity and technical polymers are flammable. Only a few high-performance polymers are self-extinguishing. Table 15.1 shows an example of how the LOI is used in the development of flame-retarded materials. The flame retardant red phosphorus (Pred) increases... 

Diethyl Ether, Diethyl Oxide, Ether, Ethyl Oxide, Sulfuric Ether Description... 

Also known as Ether, Ethyl oxide, Anesthetic, Ethoxy ethane... 

Synonyms. Diethyl Oxide Ethyl Ether Ethyl Oxide. 

Synonym ether, ethyl ether, ethoxyethane, ethyl oxide, 3-oxapentane, l,l-oxybisethane, sulfuric ether... 

---