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Page 42
* * * * *
THE CHEMISTRY OF THE COTTON FIBER.
By Dr. BOWMAN.
Every chemist knows that cotton is chiefly composed of cellulose,
C_{6}H_{10}O_{5}, with some other substances in smaller quantities.
This, although the usual opinion, is only true in a partial sense, as
the author found on investigating samples of cotton from various
sources. Thus, while mere cellulose contains carbon 44.44 per cent.
and hydrogen 6.173, he found in Surat cotton 7.6 per cent. of
hydrogen, in American cotton 6.3 per cent., and in Egyptian cotton 7.2
per cent. The fact is that along with cellulose in ordinary cotton
there are a number of celluloid bodies derived from the inspissated
juices of the cotton plant.
In order to gain information on this subject, the author has grown
cotton under glass, and analyzed it at various stages of its life
history. In the early stage of unripeness he has found an astringent
substance in the fiber. This substance disappears as the plant ripens,
and seems to closely resemble some forms of tannin. Doubtless the
presence of this body in cotton put upon the market in an unripe
condition may account for certain dark stains sometimes appearing in
the finished calicoes. The tannin matter forms dark stains with any
compound or salt of iron, and is a great bugbear to the manufacturer.
Some years ago there was quite a panic because of the prevalence of
these stains, and people in Yorkshire began to think the spinners were
using some new or inferior kind of oil. Dr. Bowman made inquiries, and
found that in Egypt during that year the season had been very foggy
and unfavorable to the ripening of the cotton, and it seemed probable
that these tannin-like matters were present in the fiber, and led to
the disastrous results.
Although the hydrogen and oxygen present in pure cellulose are in the
same relative proportions as in water, they do not exist as water in
the compound. There is, however, in cotton a certain amount of water
present in a state of loose combination with the cellulose, and the
celluloid bodies previously referred to appear to contain water
similarly combined, but in greater proportion. Oxycellulose is another
body present in the cotton fiber. It is a triple cellulose, in which
four atoms of hydrogen are replaced by one atom of oxygen, and like
cellulose forms nitro compounds analogous to nitro glycerine. It is
probable that the presence of this oxycellulose has a marked influence
upon the behavior of cotton, especially with dye matters. The earthy
substances in cotton are also of importance. These are potassium
carbonate, chloride, and sulphate, with similar sodium salts, and
these vary in different samples of cotton, and possibly influence its
properties to some extent. Then there are oily matters in the young
fiber which, upon its ripening, become the waxy matter which Dr.
Schunk has investigated. Resin also is present, and having a high
melting point is not removed by the manipulative processes that cotton
is subjected to. When this is in excessive amount, it comes to the
surface of the goods after dyeing.
* * * * *
SYNTHESIS OF STYROLENE.
MM. Vabet and Vienne, in a recent number of _Comptes Rendus_, state
that by passing a current of acetylene through 200 grammes of benzene
containing 50 grammes of aluminum chloride for 30 hours the oily
liquid remaining after removal of the unaltered aluminum chloride by
washing was found to yield, on fractional distillation, three distinct
products. The first, which came over between 143� and 145�, and which
amounted to 80 per cent. of the whole, consisted of pure cinnamene or
styrolene (C_{6}H_{5}.CH.CH_{2}), which is one of the principal
constituents of liquid storax, and was synthetized by M. Berthelot by
passing acetylene and benzene vapor through a tube heated to redness.
The second fraction, coming over at 265�-270�, consisted of diphenyl
ethane ((C_{6}H_{5})_{2} CH.CH_{3}); and the third fraction, boiling
at 280�-286�, was found to consist entirely of dibenzyl
(C_{6}H_{5}.CH_{2}.CH_{2}.C_{6}H_{5}), a solid substance isomeric with
diphenyl ethane. These syntheses afford another instance of the
singular action of aluminum chloride in attacking the benzene nucleus.
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