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Isomeric composition

When the temperamre is lowered, rubbers become stiff and brittle. All rubbers eventually stiffen to a rigid, amorphous glass at the glass transition temperature (Tg). This temperature also indicates the low-temperature service limit of the rubber. Tg values are dependent on the structure, degree of cross-linking (vulcanization) and isomeric composition of the rubber. [Pg.580]

The mid-block monomers are primarily isoprene and butadiene. These diolefins can polymerize in several ways. The isomeric structure of the final polymer has a strong impact on its properties and thermal stability. Isomeric composition is easily varied by changing the polymerization solvent or adding complexing agents. The typical isomeric structures for isoprene and butadiene mid-blocks are shown in Fig. 2. [Pg.714]

Fig. 2. To and We for isomers of polybutadiene and polyisoprene, and for typical average isomeric compositions in styrenic block copolymers. Fig. 2. To and We for isomers of polybutadiene and polyisoprene, and for typical average isomeric compositions in styrenic block copolymers.
There was never any doubt that the major tautomer in the case of in-dazole 27 is the IH-one 27a (Scheme 16), and C chemical shifts compared with those of the two V-methyl derivatives confirmed that this is the case in DMSO-dg (770MR716). NMR has been used to determine the equilibrium isomeric composition of N-CHROH, N-C(CH3)20H, N-COCH3 and N-Si(CH3)3 derivatives for azoles and benzazoles, the conclu-sipn being that this composition parallels the annular tautomeric composition [78JCS(P2)99]. The tautomerism of 1-hydroxybenzotriazole was also studied... [Pg.33]

Each isomer rearranges to give a final mixture of the same isomeric composition. [Pg.97]

After succeeding in the asymmetric reductive acylation of ketones, we ventured to see if enol acetates can be used as acyl donors and precursors of ketones at the same time through deacylation and keto-enol tautomerization (Scheme 8). The overall reaction thus corresponds to the asymmetric reduction of enol acetate. For example, 1-phenylvinyl acetate was transformed to (f )-l-phenylethyl acetate by CALB and diruthenium complex 1 in the presence of 2,6-dimethyl-4-heptanol with 89% yield and 98% ee. Molecular hydrogen (1 atm) was almost equally effective for the transformation. A broad range of enol acetates were prepared from ketones and were successfully transformed into their corresponding (7 )-acetates under 1 atm H2 (Table 19). From unsymmetrical aliphatic ketones, enol acetates were obtained as the mixtures of regio- and geometrical isomers. Notably, however, the efficiency of the process was little affected by the isomeric composition of the enol acetates. [Pg.75]

Ralph, J. Adams, B. R. Determination of the conformation and isomeric composition of lignin model quinone methides by NMR. J. Wood Chem. Technol. 1983, 3, 183-194. [Pg.415]

Another example of the retention of volatile DA reagents is that of cyclopentadiene in a tandem retro-DA/DA prime reaction [15, 16, 38], This reaction type is the thermal decomposition of a DA adduct (A) and the generation of a diene (generally the initial diene) which is trapped in situ by a dienophile leading to a new adduct (B) [39]. Cyclopentadiene (22) (b.p. 42 °C) is generated by thermolysis of its dimer at approximately 160 °C [40]. An equimolar mixture of commercial crude dicyclopenta-diene (21) and dimethyl maleate was irradiated in accordance with the GS/MW process, in an open reactor, under 60 W incident power, for 4 min (8 x 30 s). The expected adduct 23 was isolated in 40% yield (Scheme 7.1). The isomeric composition of 23 (endo-endoIexo-exo = 65/35) was identical with that obtained under classical conditions from 22 and methyl maleate [41]. The overall yield of this tandem reaction can be increased from pure dimer 21 (61%) and the same tandem reaction has also been reported using ethyl maleate as dienophile [31]. [Pg.224]

Moreover, the thermal nitration of various aromatic substrates with different X-PyNO cations shows the strong rate dependence on the acceptor strength of X-PyNO and the aromatic donor strength. This identifies the influence of the HOMO-LUMO gap in the EDA complexes (see Chart 3), and thus provides electron-transfer activation as the viable mechanistic basis for the aromatic nitration. Indeed, the graphic summary in Fig. 18 for toluene nitration depicts the isomeric composition of o-, m- and p-nitrotoluene to be singularly invariant over a wide range of substrate selectivities (k/kQ based on the benzene... [Pg.282]

An orthogonal array design and electronic pressure programming have been described for the optimisation of the GC determination of NP [76]. The characterisation of isomers of technical NP previously reported by Giger et al. [77] was further improved by GC-MS and GC-FTIR [78] identifying 14 isomers. On the other hand, Wheeler et al. [79] indicated the presence of five different groups of isomers of the 22 separated isomers. The isomeric composition of APEO mixtures and their structure elucidation are discussed in more detail in the next section. [Pg.91]

Anisole. The simultaneous (homolytic and nucleophilic) annihilations of AN+ as described by the time-resolved spectroscopic results lead to the distinctive mixtures of o- and p-nitroanisoles, in which the isomeric composition is strongly dependent on the nitrating reagent in the following way. [Pg.254]

FIGURE 4.7 Four different cases with pertinent terminology involving changes in isomeric composition generating a 4 1 mixture of products, max = theoretical maximum. The expression enantiomerization of the residue is applicable in all situations. [Pg.102]

Materials and Methods. The isomeric compositions of the four polybutadienes used are listed in Table I. Samples were prepared for infrared measurement from solutions of the polymer without further purification. Most films were cast from carbon disulfide solutions on mercury or on glass plates, but a few films were cast from hexane solutions to determine whether or not the solvent affected the radiation-induced behavior. No difference was observed for films cast from the different solvents. The films were cured by exposure to x-rays in vacuum. (Doses were below the level producing detectable radiation effects.) They were then mounted on aluminum frames for infrared measurements. The thicknesses of the films were controlled for desirable absorbance ranges and varied from 0.61 X 10 s to 2 X 10 3 cm. After measuring the infrared spectrum with a Perkin-Elmer 221 infrared spectrophotometer, the mounted films were evacuated to 3 microns and sealed in glass or quartz tubes (quartz tubes only were used for reactor irradiations). [Pg.68]

In-vitro tracheal hyperreactivity to carbachol was induced in mice by cutaneous application of toluene diisocyanates (isomeric composition not indicated), followed by nasal toluene diisocyanate challenge this was not accompanied by an elevation of toluene diisocyanate-specific IgE. The reaction could be transferred to naive recipient mice by transfusion of lymphoid cells from sensitized mice (Scheerens et al., 1996). [Pg.872]

Treatment of male Charles-Foster rats with sublethal doses of xylene (0.2 mL of 5 mmol/L extra-pure xylene solution on alternate days for 30 days isomeric composition not indicated) resulted in slight increases of serum aspartate and alanine aminotransferase and alkaline phosphatase activities and bilirubin concentration (Rana Kumar, 1993). A slight increase in alanine aminotransferase activity was also observed after a 3.5-week treatment of male Wistar rats with zneto-xylene (800 mg/kg bw per day on five days per week, by gavage) (Elovaara et al., 1989). Inhalation exposure of C3H/HeJ mice to /jora-xylenc (1200 ppm [5200 mg/m ], 6 h per day for four days) did not affect the serum alanine or aspartate aminotransferase or lactate dehydrogenase activities, or bilirubin level (Selgrade et al., 1993). [Pg.1195]

The most active heterogeneous catalysts that are effective at room temperature are alkali metals supported on activated alumina. Simple C4-Cg alkenes, for example, were shown to yield equilibrium mixtures in short contact time over sodium on alumina.112116 Partial conversion of 1-butene at low temperature and in very short contact time (—60°C, 14 s) led to the stereoselective formation of m-2-butene.112 The changes in isomeric composition in the transformation of 4-methyl-l-pentene112 are as follows ... [Pg.177]

Thermal cracking of higher components of crude oils can produce low molecular weight alkanes having isomeric compositions similar to the alkanes found in crudes. [Pg.43]

The isomerization of the olefin prior to its hydroformylation has been the explanation of this question (3) and the formation of isomeric aldehydes was related to the presence of isomeric free olefins during the hydroformylation. This explanation, however, is being questioned in the literature. The formation of (+) (S) -4-methylhexanal with an optical yield of more than 98% by hydroformylation of (+) (S)-3-methyl-l-pentene (2, 6) is inconsistent with the olefin isomerization explanation. Another inconsistency has been the constance of the hydroformylation product composition and the contemporary absence of isomeric olefins throughout the whole reaction in hydroformylation experiments carried out with 4-methyl-1-pentene and 1-pentene under high carbon monoxide partial pressure. The data reported in Ref. 4 on the isomeric composition of the hydroformylation products of 1-pentene under high carbon monoxide pressure at different olefin conversions have recently been checked. The ratio of n-hexanal 2-methylpentanal 2-ethylbutanal was constant throughout the reaction and equal to 82 15.5 2.5 at 100°C and 90 atm carbon monoxide. [Pg.293]


See other pages where Isomeric composition is mentioned: [Pg.14]    [Pg.23]    [Pg.109]    [Pg.171]    [Pg.210]    [Pg.76]    [Pg.127]    [Pg.350]    [Pg.91]    [Pg.94]    [Pg.242]    [Pg.257]    [Pg.56]    [Pg.58]    [Pg.449]    [Pg.92]    [Pg.198]    [Pg.205]    [Pg.399]    [Pg.76]    [Pg.8]    [Pg.385]    [Pg.39]    [Pg.745]    [Pg.159]    [Pg.160]    [Pg.163]   


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