| MadSci Network: Chemistry |
Dear John,
Sodium polyacrylate is a polyelectrolyte, i.e. a polymer (long-chain
molecule material) carrying "salt groups" incorporated along its chain. The
polymer itself is the anion, and the counterion is sodium ion (Na+). The
negatively charged groups are thus fixed on the chain, the sodium ions are
attracted by electrostatic forces, but relatively mobile. This allows them
to be hydrated, i.e. surrounded by water molecules. This leads us to the
application which the madsci administrator thinks you are most interested
in: superabsorbent materials like diapers etc. I had to look it up myself.
The oldest patent I found was by R.T. Elias and Dennis C. Holtman. The
summary reads as follows:
TI Thin-skin stabilization of pads of fluffed pulp
IN Elias, Robert T.; Holtman, Dennis C.
PA Johnson and Johnson Baby Products Co., USA
SO U.S., 4 pp. Cont.-in-part of U.S. Ser. No. 943,277, abandoned.
CODEN: USXXAM
PI US 4233345 1980 11 11
AI US 78-943277 19780918
DT Patent
LA English
IC B05D003-00; B05D003-12
NCL 427325000
CC 43-3 (Cellulose, Lignin, Paper, and Other Wood Products)
AB High-loft, low-d., air-laid pads of short fibers, e.g. for use in
sanitary napkins or diapers,
are stabilized by spraying their surface with a soln. of coagulant and
then with a resin
dispersion, the penetration of which is limited by instant
coagulation. Thus, 26-g pads of
air-layed wood pulp fibers (265 g/m2) are sprayed with 5 mL 5% NaOH/m2
and then with 45 mL 1%
poly(acrylic acid) [9003-01-4] (Carbopol 940, mol. wt. 4 .times.
106)/m2, which gels
immediately to form a thin skin stabilizing the pad without loss of
bulk, loft, or absorbance.
ST pulp pad stabilization; coagulant stabilizer pulp pad; fiber cellulose
pad stabilization;
acrylic acid polymer stabilizer pad; diaper pulp stabilizer
IT Diapers
(cellulose fiber pads for, stabilization of, by poly(acrylic acid))
IT Pulp, cellulose
(fiber pads, stabilization of, penetration prevention in)
IT Surgical dressings and goods
(sanitary napkins, cellulose fiber pads for, stabilization of, by
poly(acrylic acid))
IT 1310-73-2, uses and miscellaneous
RL: USES (Uses)
(coagulants, for prevention of penetration of poly(acrylic acid) in
stabilization of
cellulose fiber pads)
IT 9003-01-4
RL: USES (Uses)
(stabilization by, of cellulose fiber pads, penetration prevention
in)
As you can see, sodium hydroxide is first applied to the fibers, then
polyacrylic acid. The result is sodium polyacrylate precipitated on the
fibers. Now the essential trick is the following: if you take a classical
water-loving (hydrophilic) absorbent like cotton, its volume shrinks a lot
when you soak it in water, because the surface tension of the water drives
the system to minimize water interface area. A superabsorbent, on the other
hand, due to the polyelectrolyte which glues the fibers together in a
crosslinked structure, is BUTTRESSED AGAINST SHRINKAGE (the fibers cannot
move relative to each other). The WHOLE VOLUME spanned by the original
"fluffy" fibers can thus be filled by water. In terms of weight, this is a
multiple of the dry fiber weight.
Considering that this patent was granted in 1980, the idea really seems to
have filled a need..
Best regards
Werner Sieber
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