Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Attachment formation

Collect a representative sample per the single sampling plan (general level B) and inspect. Record the observation in the attached format. Following is the sampling plan. [Pg.726]

Reconstitute the lyophilized caked powder by adding clear and particulate-free distilled water to the vials one by one. Amount of water to be used should be per the product reconstitution requirement prior to use. Note the reconstitution time for each vial from the addition of water to obtaining a clear solution. Reconstitution time should not be more than the specification limit. Record the reconstitution time on the attached format. Calculate the average. Test should be carried out on 20 vials. Shake to dissolve and check as described in the procedure for visual inspection of solutions. [Pg.727]

In a more direct approach, calcined silica can be treated with chromyl chloride vapor at 200°C (18). Attachment as chromate should leave no chloride on the catalyst, but if the spacing between hydroxyls does not allow chromate, only the chlorochromate species (Si—O—Cr02C) can form, leaving one Cl per Cr attached. Formation of dichromate should not be possible under these conditions. [Pg.51]

Any person may initiate the first draft of an SOP. The headings (listed below) should conform to the attached format and should be used when writing the relevant sections of the SOP. [Pg.286]

Attachment of the fouling species to the wall follows transport of the key component to the wall region, where the solid which deposits is actually formed, except in the case of particulate fouling. The ettachment/formation process is very complicated, involving both physical and chemical processes, and it is not as well understood as the mass transfer process. The attachment/formation processes depend on the presence or absence of a fouling deposit on the surface. The attachment/formation of the deposit at a clean surface occurs in a different wav from attachment to a fouled surface. [Pg.117]

Tanner,. M.G., Solt, C.W. and Vuddhakanok, S. (1988) An evaluation of new attachment formation using a microfibrillar collagen barrier./. Peiiodontol, 59, 524—530. [Pg.349]

Adopts the attached format for States Parties to provide annually to the Secretariat information on national programmes for protective purposes, on the understanding that ... [Pg.433]

In actual practice, a weight W is obtained, which is less than the ideal value W. The reason for this becomes evident when the process of drop formation is observed closely. What actually happens is illustrated in Fig. 11-10. The small drops arise from the mechanical instability of the thin cylindrical neck that develops (see Section II-3) in any event, it is clear that only a portion of the drop that has reached the point of instability actually falls—as much as 40% of the liquid may remain attached to the tip. [Pg.20]

This greater reactivity of the silanes may be due to several factors, for example, the easier approach of an oxygen molecule (which may attach initially to the silane by use of the vacant silicon d orbitals) and the formation of strong Si—O bonds (stronger than C—O). [Pg.176]

Ethyl formate. Reflux a mixture of 61 g. (50 ml.) of A.R. formic acid (98/100 per cent.) and 31 g. (39-5 ml.) of absolute ethyl alcohol for 24 hours. Transfer to a Claisen flask with fractionating side arm (or attach a fractionating column to the flask), distil and collect the liquid passing over below 62°. Wash the distillate with saturated sodium bicarbonate solution and saturate with salt before removing the ester layer. Dry with anhydrous sodium or magnesium sulphate, filter, and distil. The ethyl formate passes over at 53-54°. The yield is 36 g. [Pg.385]

Mix 31 g. (29-5 ml.) of benzyl alcohol (Section IV, 123 and Section IV,200) and 45 g. (43 ml.) of glacial acetic acid in a 500 ml. round-bottomed flask introduce 1 ml. of concentrated sulphuric acid and a few fragments of porous pot. Attach a reflux condenser to the flask and boil the mixture gently for 9 hours. Pour the reaction mixture into about 200 ml. of water contained in a separatory funnel, add 10 ml. of carbon tetrachloride (to eliminate emulsion formation owing to the slight difference in density of the ester and water, compare Methyl Benzoate, Section IV,176) and shake. Separate the lower layer (solution of benzyl acetate in carbon tetrachloride) and discard the upper aqueous layer. Return the lower layer to the funnel, and wash it successively with water, concentrated sodium bicarbonate solution (until effervescence ceases) and water. Dry over 5 g. of anhydrous magnesium sulphate, and distil under normal pressure (Fig. II, 13, 2) with the aid of an air bath (Fig. II, 5, 3). Collect the benzyl acetate a (colourless liquid) at 213-215°. The yield is 16 g. [Pg.783]

The effect of aromatic substrates on the formation of N02" is shown in the considerably increased substrate selectivity over that obtained with NO2+ salts. On the basis of the experimental data it is suggested that in these nitrations a weaker nitrating species than NO2+ must be involved in the primary interaction with the aromatic substrates. This incipient nitronium ion then attaches itself to the aromatics in a step giving high substrate selectivity. Whether the incipient nitronium ion is the nitracidium ion (H2NO3+), protonated acetyl nitrate (CH3COO—HN02 ) or probably a transition state of any of those unstable species to N02, in which water is loosened, but not yet completely eliminated, is difficult to say and no direct physical evidence is available. [Pg.71]

The introduction of additional alkyl groups mostly involves the formation of a bond between a carbanion and a carbon attached to a suitable leaving group. S,.,2-reactions prevail, although radical mechanisms are also possible, especially if organometallic compounds are involved. Since many carbanions and radicals are easily oxidized by oxygen, working under inert gas is advised, until it has been shown for each specific reaction that air has no harmful effect on yields. [Pg.19]

The hydrogen attached to nitrogen can be either axial or equatorial and both chair con formations are approximately equal m stability... [Pg.132]

Athene formation requires that X and Y be substituents on adjacent carbon atoms By mak mg X the reference atom and identifying the carbon attached to it as the a carbon we see that atom Y is a substituent on the p carbon Carbons succeedmgly more remote from the reference atom are designated 7 8 and so on Only p elimination reactions will be dis cussed m this chapter [Beta (p) elimination reactions are also known as i 2 eliminations ] You are already familiar with one type of p elimination having seen m Section 5 1 that ethylene and propene are prepared on an industrial scale by the high temperature dehydrogenation of ethane and propane Both reactions involve (3 elimination of H2... [Pg.202]

In addition to illustrating the mechanics of translation Figure 28 12 is important m that It shows the mechanism of peptide bond formation as a straightforward nude ophilic acyl substitution Both methionine and alanine are attached to their respective tRNAs as esters The ammo group of alanine attacks the methionine carbonyl displac mg methionine from its tRNA and converting the carbonyl group of methionine from an ester to an amide function... [Pg.1178]

Solid phase peptide synthesis (Section 27 18) Method for peptide synthesis m which the C terminal ammo acid is co valently attached to an inert solid support and successive ammo acids are attached via peptide bond formation At the completion of the synthesis the polypeptide is removed from the support... [Pg.1293]

In addition to graft copolymer attached to the mbber particle surface, the formation of styrene—acrylonitrile copolymer occluded within the mbber particle may occur. The mechanism and extent of occluded polymer formation depends on the manufacturing process. The factors affecting occlusion formation in bulk (77) and emulsion processes (78) have been described. The use of block copolymers of styrene and butadiene in bulk systems can control particle size and give rise to unusual particle morphologies (eg, coil, rod, capsule, cellular) (77). [Pg.204]

The state of knowledge in the early 1990s of the effects of fat on health lacks clarity and general agreement. There is great support for the thesis that fully saturated fats are associated with problems of atherosclerosis and arterial fatty deposit, but there is evidence that stearates, which are saturates, are only poorly utilized in human digestion. Another body of work has estabUshed a connection between unsaturated fatty acids and a better state of arterial health and lowered fat body attachment to the arterial wall (23) contrary evidence exists that highly unsaturated fats polymerize more readily and thus contribute to arterial plaque formation. [Pg.117]

See other pages where Attachment formation is mentioned: [Pg.115]    [Pg.2949]    [Pg.433]    [Pg.115]    [Pg.2949]    [Pg.433]    [Pg.424]    [Pg.37]    [Pg.739]    [Pg.189]    [Pg.436]    [Pg.139]    [Pg.418]    [Pg.484]    [Pg.100]    [Pg.252]    [Pg.277]    [Pg.314]    [Pg.485]    [Pg.567]    [Pg.702]    [Pg.722]    [Pg.935]    [Pg.1049]    [Pg.79]    [Pg.149]    [Pg.331]    [Pg.264]    [Pg.57]    [Pg.62]    [Pg.377]    [Pg.557]    [Pg.558]    [Pg.46]   
See also in sourсe #XX -- [ Pg.107 ]



SEARCH



Attachments, report document format

Structure formation oriented attachment

© 2024 chempedia.info