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Description  |
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The present invention relates to storage-resistant, pourable-to-pasty,
aqueous bleaching agent suspensions. The suspensions contain a
substantially water-insoluble peroxycarboxylic acid, preferably a
diperoxydicarboxylic acid with 8 to 18 carbon atoms, hydrophilized in the
presence of a strong acid and in a carrier liquid thickened with a
colloidal silicic acid. The invention also relates to a reliable method
for preparing such bleaching agent suspensions as well as to their use for
purposes of bleaching and disinfection.
BACKGROUND OF THE INVENTION
Aqueous bleaching agent suspensions containing peroxycarboxylic acids are
known from British Pat. No. 1,535,804, corresponding to U.S. Pat. No.
3,996,152 and U.S. Pat. No. 4,017,412. Such bleaching agent compounds can
be added with advantage to alkaline washing mixtures in washing machines
or be used as bleaching agents.
The use of bleaching agent suspensions, in comparison to solid, generally
particulate bleaching agent compounds, has the advantage of being able to
eliminate expensive and, in the case of peroxycarboxylic acids, drying and
granulating steps which may not be reliable. However, in addition to being
effective in use, bleaching agent suspensions must satisfy certain
essential conditions which are needed for smooth and reliable handling in
commercial and domestic areas. These conditions include good chemical
stability and especially physical stability as regards a solid liquid
phase separation and handling safety even in the case of leakage or
spaying of the suspensions from barrels.
The aqueous bleaching agent compounds according to British Pat. No.
1,535,804 contain essentially water-insoluble peroxycarboxylic acids which
are suspended in an aqueous carrier liquid containing a thickening agent.
These compounds are thickened until gelled and their viscosity is 200 to
100,000 centipoises. Starches, cellulose derivatives, natural rubbers,
synthetic organic polymers as well as inorganic thickening agents of the
group of colloidal silicic acids and hydrophilic clays are claimed as
thickening agents.
A major disadvantage of the known bleaching agent compounds of British Pat.
No. 1,535,804 is their usually completely insufficient storage resistance,
as least to the extent that they are not gelled systems. The suspensions
are physically unstable since the solid phase separates from the liquid
phase. This instability usually becomes noticeable directly after
preparation of the suspension, frequently within one day or even hours. On
the other hand, experts in this field call for a greater storage
resistance, preferably one of several weeks.
Another disadvantage caused by the physical instability concerns the
redispersibility of the thickened phase containing the peroxycarboxylic
acid, which is unacceptably difficult. Finally, bleaching agent
suspensions prepared with a low concentration of a thickening agent
present an increased potential for danger because, after a suspension has
been spilled, and especially after the spilled material has dried
substantially non-desensitized peroxycarboxylic acid remains.
There has been no lack of attempts to create bleaching agent suspensions
with improved storage resistance and a lesser potential for danger. Thus,
published European patent application EP-A No. 0,160,342 teaches aqueous
bleaching agent suspensions in which water-insoluble peroxy acids are
suspended in an aqueous liquid containing a surfactant and an electrolyte.
The limited chemical stability of these surfactant-structured suspensions
was able to be improved according to the teaching of published European
patent applications EP-A No. 0,176,124 and EP-A No. 0,201,958;
nevertheless, they do not satisfy the requirements of physical stability
placed on them.
British Pat. No. 1,535,804 disclosed the use of colloidal silicic acids,
especially pyrogenic silicic acids. In order to obtain the desired
thickening, however, a supplemental amount of 10 to 50% by weight, in
relation to the suspension, is required. However, such a high added amount
of high-grade, generally very expensive pyrogenic silicic acids is
extremely uneconomical, so that there is still a need for improved
bleaching agnet suspensions.
SUMMARY OF THE INVENTION
The object of the present invention is to provide pourable-to-pasty
bleaching agent suspensions which have a storage resistance better than
that of known suspensions. More specifically, the object is to provide
systems which exhibit practically no solid-liquid phase separation and
only a slight loss of available oxygen, even after a storage of two weeks.
Another object is to reduce the cost of the compound as well as to provide
an industrially simple method of preparation which can be managed safely.
It was surprisingly found that storage-resistant bleaching agent
suspensions with a lesser added amount of thickening, colloidal silicic
acids are obtained if the suspensions contain a hydrate-forming neutral
salt.
Thus, the basic object of the invention is achieved by means of a pourable
to pasty, aqueous bleaching agent suspension with a pH between
approximately 1 and approximately 6 which contains an aqueous carrier
liquid, a particulate, practically water-insoluble peroxycarboxylic acid,
an acidifying agent and a colloidal silicic acid with a thickening action,
which is characterized in that it contains 0.1 to 9% by weight silicic
acid in relation to the bleaching agent suspension and a hydrate-forming
neutral salt which desensitizes peroxycarboxylic acids in an amount of 10
to 400% by weight calculated hydrate-free and in relation to
peroxycarboxylic acid added.
The bleaching agent suspensions can be both pourable as well as pasty. The
viscosity usually rises with an increasing concentration of thickening
agent and with an increasing amount of suspended peroxycarboxylic acid.
Shearing forces such as those which occur during pouring and those which
occur during a manual pressing out of a tube are sufficient in order to
render the suspensions flowable. Preferred bleaching agent suspensions
exhibit a structurally viscous and thixotropic behavior; their liquid
point can be in a range of approximately 0.1 to 15 Pa, the viscosity,
measured at 20.degree. C. in a rotational viscosimeter at a shearing speed
of 50/s, at approximately 20 to 2000 mPa.s.
Bleaching agent suspensions in accordance with the invention have good
storage resistance and exhibit practically no signs of a phase separation
even after two weeks of storage. A slight phase separation which occurs in
the course of several weeks in rare instances is not disadvantageous
because the suspension can be readily rehomogenized e.g. by means of a
slight agitation. Good chemical stability is present if the available
oxygen loss after four to six weeks of storage at room temperature is
under 5% in relation to the available oxygen content determined after
preparation of the suspension.
The carrier liquid for the practically water-insoluble peroxycarboxylic
acids consists of 90-100% by weight water and 0-10% by weight of an
organic solvent, each in relation to the carrier liquid. Water-soluble
organic solvents, e.g. lower alcohols, can be used provided that the
peroxycarboxylic acids are practically not dissolved in the carrier
liquid. Water is preferred as carrier liquid.
The bleaching agent suspensions of the invention contain one or more
particulate peroxycarboxylic acids which are practically water-insoluble,
which signifies a solubility of under 1 g per 100 ml water. Solid
peroxycarboxylic acids which exhibit a melting or breakdown point above
40.degree. C. are suitable. The grain size of the peroxycarboxylic acids
can be in a range of 1 to 500 .mu.m, preferably 4 to 100 .mu.m. A close
distribution of grain size is generally preferred, especially in slightly
thickened systems. A close distribution of grain size is also usually
advantageous for use.
Water-insoluble, aliphatic or aromatic peroxycarboxylic acids with one, two
or, if necessary, three peroxycarboxylic acid groups can be used. The
peroxycarboxylic acids can also contain a sulfonic acid group. Aliphatic
peroxycarboxylic acids with 6 to 18 carbon atoms and aromatic
peroxycarboxylic acids with 7 to 14 carbon atoms are suitable. Preferred
acids include aliphatic diperoxydicarboxylic acids which contain 8 to 18
carbon atoms, e.g. diperoxyazelaic acid, diperoxydodecanedioic acid,
diperoxysuccinic acid substituted in the 2-position with an alkyl group
containing 4 to 12 carbon atoms or diperoxyglutaric acid substituted in
the 2-position with an alkyl group containing 6 to 12 carbon atoms as well
as diperoxyphthalic acids and diperoxynaphthalene dicarboxylic acids.
Diperoxydodecanedioic acid is especially preferred. The bleaching agent
suspensions can contain one, two or more peroxycarboxylic acids, but they
preferably contain one peroxycarboxylic acid.
The bleaching agent suspensions contain 1-40% by weight, preferably 5-30%
by weight and quite particularly 15-30% by weight peroxycarboxylic acid in
relation to the bleaching agent suspension.
The bleaching agent suspensions of the invention contain thickening,
colloidal silicic acids in an amount of 0.1 to 9% by weight in relation to
the suspension. The silicic acids are hydrophilic and impart both a higher
viscosity as well as a thixotropic flow behavior to the carrier liquids.
Pyrogenic silicic acids with a specific BET surface of approximately
50-400 m.sup.2 /g and a particle size in a range of approximately 5 to 50
.mu.m are especially suitable. The term pyrogenic silicic acids denotes
those which are prepared by means of flame hydrolysis from silicon
compounds such as e.g. silicon tetrachloride and are hydrophilic.
Basically, silicic acids prepared by means of precipitation methods with a
BET surface of 100 to 700 m.sup.2 /g and a particle size of approximately
20 .mu.m can also be used. An skilled person can test these silicic acids
for their suitability by preparing test suspensions.
Thickening is preferably performed with 0.5 to 7, especially 1 to 7% by
weight, in relation to the suspension, of a pyrogenic silicic acid.
It could not have been foreseen that silicic acids in the presence of a
hydrate-forming neutral salt which desensitizes peroxycarboxylic acids
impart an improved storage resistance to aqueous bleaching agent
suspensions. In addition, the presence of a generally economical,
hydrate-forming neutral salt in the suspension makes it possible to reduce
the amount of generally expensive silicic acid. Also, the handling safety,
e.g. in case the suspension dries out, is increased if the suspension
contains a hydrate-forming neutral salt in such an amount that the
peroxycarboxylic acids are sufficiently desensitized. The suspensions of
the invention contain 1 to 40% by weight, preferably 2-20% by weight, in
relation to the suspension, of hydrate-forming neutral salt, whereby the
amount is calculated as hydrate-free salt. In relation to the
peroxycarboxylic acid, the amount of neutral salt, calculated as
hydrate-free salt, is generally 10 to 400% by weight, preferably 20 to
100% by weight. Less that 10% by weight in relation to peracid is
possible; however, this is not recommended in view of the reduced handling
safety of the suspension then and the diminution of the effect of the
invention, namely, the increase of the storage resistance due to the
presence of a silicic acid and a hydrate-forming neutral salt which
desensitizes peroxycarboxylic acids. The neutral salt is present in the
bleaching agent suspension in a partially or completely dissolved form.
Preferred bleaching agent suspensions contain at a customary storage
temperature of approximately 20.degree. C. a part of the neutral salt,
optionally as a hydrate thereof, in undissolved form.
Advantageous hydrate-forming neutral salts are those of alkali metals, of
magnesium or of aluminum with sulfuric acid, pyrosulfuric acid, phosphoric
acid, pyrophosphoric acid or tripolyphosphoric acid. Alkali metal
sulfates, particularly sodium sulfate are especially preferable. Various
hydrate-forming neutral salts can also be present at the same time.
The pH of the bleaching agent suspensions of the invention is between
approximately 1 and approximately 6 and preferably between 2 and 5. The
chemical stability of the peroxycarboxylic acids decreases at pH'es around
or above 6. The acidifying agent necessary for adjusting the pH can be a
mineral acid compatible with peroxycarboxylic acids such as sulfuric acid
or phosphoric acid, a strongly acidic salt such as sodium hydrogen sulfate
or sodium dihydrogen phosphate or an organic acid such as methane sulfonic
acid, citric acid or tartaric acid. Sulfuric acid and/or alkali metal
hydrogen sulfate are especially preferable.
It was surprisingly found that the storage resistance of bleaching agent
suspensions of the invention is especially good if they contain
hydrophilized peroxycarboxylic acid in the presence of a strong acid. The
wettability of the not very hydrophilic, water-insoluble peroxycarboxylic
acids by the aqueous carrier liquid is obviously improved by the fact that
the peroxycarboxylic acid comes in direct contact with a strong acid,
preferably sulfuric acid, during or after its preparation. Such
hydrophilized peroxycarboxylic acids are obtainable e.g. from the base
carboxylic acid or its anhydride and hydrogen peroxide in the presence of
sulfuric acid according to a method described in U.S. Pat. No. 4,244,844
and German Patent Specification DE-OS No. 3,320,497 and DE-OS No.
3,438,529 or in the form of the in situ-desensitized products described in
U.S. Pat. No. 4,287,135, German Patent Specification DE-OS No. 3,220,496
and European patent application EP-B No. 0,045,290. The acidifying agent
present in the bleaching agent suspension can stem entirely or partially
from the hydrophilizing and/or in situ-desensitizing of the
peroxycarboxylic acid, the hydrate-forming neutral salt entirely or
partially from the desensitizing.
It was further found unexpectedly that a hydrophilized peroxycarboxylic
acid which is moist, that is not dried after its preparation, imparts a
greater physical stability to the bleaching agent suspensions which
contain it than a dried hydrophilized peroxycarboxylic acid does.
Obviously, the surface structure of hydrophilized peroxycarboxylic acids
is changed in an unfavorable manner by drying. The use of non-dried,
optionally in situ-desensitized, hydrophilized peroxycarboxylic acids in
the preparation of the bleaching agent suspensions of the invention is
especially desirable because an industrially expensive drying of the
peroxycarboxylic acid, which is potentially difficult as regards safety,
is eliminated and suspensions with better storage resistance are obtained.
According to a preferred embodiment, the suspensions contain 10-30% by
weight diperoxydodecanedioic acid, 5-20% by weight sodium sulfate
(calculated as Na.sub.2 SO.sub.4) and 0.5 to 7, preferably 2 to 6% by
weight pyrogenic silicic acid, each in relation to the bleaching agent
suspensions, and sulfuric acid and/or sodium hydrogen sulfate as
acidifying agent.
The best storage resistance of these suspensions is obtained by using a
non-dried diperoxydocecanedioic acid hydrophilized during preparation by
means of sulfuric acid and subsequently desensitized by means of the
addition of sodium hydroxide under formation of sodium sulfate.
In addition to the constituents of the bleaching agent suspensions of the
invention discussed above, the latter can contain other substances
compatible with them in order to optimally adapt the bleaching agent
suspensions to the particular application intended. In general, the
amounts to be added for this purpose are small in relation to the amounts
of the peroxycarboxylic acid and the neutral salt. Typical additives are:
Neutral desensitizing means other than hydrate-forming ones, e.g. acidic
desensitizing substances such as hydrogen phosphates, dihydrogen
phosphates, boric acid or silicic acid.
Chelate complexing agents for complexing metal ions with a decomposing
action and for improving therewith the chemical stability of the suspended
peroxycarboxylic acids. Examples of such complexing agents are ethylene
diamine tetraacetic acid, diethylene triamine pentaacetic acid, preferably
2-hydroxyethylidene diphosphonic acid, ethylene diamine tetra(methylene
phosphonic acid) or diethylene triamine penta(methylene phosphoric acid).
Stabilizers such as dipicolinic acid or trialkyl phosphane oxides.
Anionic and/or non-ionic surfactants, e.g. alkyl benzene sulfonates, alkyl
ether sulfates, alkyl sulfonates, ethoxylates and/or propoxylates of fatty
alcohols, alkyl phenols, fatty acids or perfuming agents, optical
brighteners, antioxidants.
The surfactants and additional desensitizing agents can be present in
amounts up to 20% by weight, the other additives generally under 1% by
weight, each in relation to the suspension. An expert can form a picture
by means of orienting storage tests whether, and to what extent, he can
add the intended additives to the suspensions of the invention without
adversely affecting their chemical and physical stability.
As has already been stated, the bleaching agent suspensions of the
invention are physically and chemically storage-resistant for several
weeks and thus permit safe handling during storage, transport and use.
Phase separation, floating or settling of the solid or inhomogeneities
within the suspension, such as those which occur in previously known
bleaching agent suspensions after only a brief storage time, do not appear
in the suspensions of the invention or are observed only in rare instances
after several weeks and can be easily reversed. As a result of the
presence of the hydrate-forming desensitizing agent, a dried bleaching
agent suspension also remains safe.
The bleaching agent suspensions of the invention are prepared by means of
homogeneously suspending a water-insoluble peroxycarboxylic acid in an
aqueous carrier liquid containing a thickening, colloidal silicic acid, a
hydrate-forming neutral salt which desensitizes peroxycarboxylic acids and
containing an acidifying agent. The individual components of the
suspension are added in the previously mentioned amounts into the carrier
liquid. The neutral salt and acidifying agent are added before, after, or
preferably together with the addition of the peracid. The mixture is
homogeneously suspended and the pH is adjusted to 1 to 6. It is preferable
to first suspend the colloidal silicic acid in the carrier liquid and then
add the other essential and optionally components to the bleaching agent
suspension and to homogenize the mixture using shearing forces, e.g. by
means of intensive stirring or shaking. A propeller agitator with a
stirring speed of approximately 1,000-2,000 rpms and a stirring time
between 5 and 20 minutes are generally suitable for homogenization.
According to a preferred embodiment, a peroxycarboxylic acid hydrophilized
in the presence of a strong acid and optionally also desensitized is
suspended in the thickened carrier liquid. In this embodiment, the
desensitizing agent is a hydrate-forming neutral salt and the acidifying
agent is derived from the hydrophilizing and/or desensitizing stage. It is
especially advantageous to add a non-dried hydrophilized peroxycarboxylic
acid with acidifying agent stemming from its preparation and with
associated moisture and a hydrate-forming neutral salt present which
optionally is derived from the desensitizing. The last-named preferred
embodiments are distinguished by the easy wettability of the per compound,
the increased storage resistance of the resulting bleaching agent
suspension and above all by the simple and safe preparation of the
suspension--simple because a peroxycarboxylic acid containing an
acidifying agent and neutral salt is added into the thickened carrier
liquid and safe because the peroxycarboxylic acid is not sensitized at any
time, nor does it have to be dried at any time.
The bleaching agent suspensions of the invention can be added as a washing
bleach in combination with detergents and/or washing agents. Tea spots,
coffee spots and other spots are removed from textiles e.g. during washing
at 20.degree. to 60.degree. C. if a bleaching agent suspension of the
invention is added to an alkaline washing liquid containing customary
washing agent components, especially wash-active surfactants, inorganic
polyphosphate builders and/or zeolite builders, organic chelating agents,
sodium silicate, alkalis and sodium sulfate. The bleaching agent
suspension is added in such an amount to the washing liquid that the
available oxygen which can be released from the peroxycarboxylic acid
amounts to 1 to 100 ppm. The washing agent components are distributed in a
dissolved and even manner in a concentration in the washing liquid which
is customarily effective for washing.
The bleaching agent suspensions can also be used as bleach boosters and for
preparing cleaning agents and disinfecting agents.
The following examples clarify the invention.
Preparation of the Bleaching Agent Suspension
The carrier liquid, water in the examples, is placed in a 250 ml beaker
glass equipped with a three-blade propeller agitator. After addition of
the thickening agent under stirring, the peroxycarboxylic acid and the
other components are added and homogeneously suspended by intensive
stirring. The diperoxydodecanedioic acids (DPDDA) added were prepared, to
the extent not indicated otherwise, according to DE-OS No. 3,320,497
(hydrophilized DPDDA) or DE-OS No. 3,320,496 (desensitized hydrophilized
DPDDA); as a result of acid associated with them, the pH of the
suspensions was approximately 3.5 to 4.
In order to test physical stability, the suspension is transferred into a
graduated 100 ml cylinder and stored at room temperature. Instabilities
during storage can be noticed as a phase containing little or no solid
material, (this phase can occur "at the top", "at the bottom" or as a
"gap" within the 100 ml layer). The chemical stability is determined by
iodometric or potentiometric titration; the latter permits the detection
of both the peroxycarboxylic acid and the carboxylic acid which forms its
base and is produced during the breakdown of the peracid.
EXAMPLE 1
25% by weight DPDDA suspensions according to the following table are
prepared in a customary manner by a 10-minute suspension at 1700 rpms and
tested for their storage resistance in a 100 ml graduated cylinder.
Suspensions A and B contain no thickening agent--the peroxycarboxylic
acids added have a thickening action but differing amounts of sodium
sulfate derived from the desensitizing; the stabilizing action of the
neutral salt is clear. Suspension C, corresponding to British Pat. No.
1,535,804, contains 1.5% by weight of the pyrogenic silicic acid
Aerosil.RTM.200 (Degussa AG, Frankfurt on the Main) as thickening agent
but no hydrate-forming neutral salt with a desensitizing action.
Suspension D is according to the present invention and is clearly superior
to suspension C.
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Suspension
A B C D
Physical
without thickening with Aerosil .RTM. 200
stability
agent DPDDA DPDDA
after DPDDA 87/9 DPDDA 64/32 92/0 64/32
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1 hr. 6 ml/bottom stable stable stable
2 hrs. 8 ml/bottom 1 ml/bottom stable stable
5 hrs. 8 ml/bottom 1 ml/bottom stable stable
24 hrs.
9 ml/bottom 8 ml/bottom stable stable
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(*) The numbers after the slash signify the Na.sub.2 SO.sub.4 content, th
numbers in front of it the DPDDA content in the dried, hydrophilized
peroxycarboxylic acid added. Sufficient acidifying agent was associated
with DPDDA 64/32 and DPDDA 87/9; in suspension C with DPDDA 92/0, pH 3.6
was adjusted by the addition of H.sub.2 SO.sub.4.
EXAMPLE 2
In accordance with the general procedure, nondried, hydrophilized
diperoxydodecanedioic acid desensitized in situ with Na.sub.2 SO.sub.4 and
with a content of 61.9% by weight DPDDA and approximately 24.3% by weight
Na.sub.2 SO.sub.4 is suspended (10 minutes at 2,000 rpms) in water
thickened with 1.0, 2.5 or 5.0% by weight, of pyrogenic silicic acid
(Aerosil.RTM.200, Degussa, AG, Frankfurt on the Main) in relation to the
suspension. The DPDDA content in the suspension is 25% by weight. The
behavior of the suspensions during storage at room temperature is shown in
the following table:
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Suspensions
A B C
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Pyrogenic silicic
1% 2.5% 5.0%
acid (% by weight)
Physical
stability
after 1 day stable stable stable
after 4 days 4 ml/above 2 ml above stable
after 11 days
7 ml/above 2 ml/above stable
after 18 days
10 ml/above 3 ml/above stable
after 32 days
13 ml/above 2 ml/above stable
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Suspension A is not sufficiently storage-resistant whereas suspension B
sediments slightly in the first days but is then stable. The DPDDA content
of the very storage-resistant suspension C did not change significantly
during the 32-day storage.
EXAMPLE 3
25% by weight DPDDA suspensions are prepared in the standard manner in a
2-liter beaker glass from the additives listed below. However, the
suspensions are suspended with a crescent-shaped agitator for 15 minutes
at 1300 rpms. Non-dried or dried, hydrophilized diperoxydodecanedioic acid
desensitized in situ with Na.sub.2 SO.sub.4 is added and the suspensions
stored at room temperature. The results are given in the following table:
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Suspensions
A B
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"Dried DPDDA" 429 g --
with 70% by wt. DPDDA
and 26% by wt. Na.sub.2 SO.sub.4
"non-dried DPDDA" -- 492 g
with 61% by wt. DPDDA
and 22.5% by wt. Na.sub.2 SO.sub.4
Pyrogenic silicic acid
60 g 60 g
(Aerosil .RTM. 200, Degussa AG)
Turpinal SL (Henkel KGaA)
10 g 10 g
(= 60% hydroxyethylidine
diphopho acid)
Water 701 g 638 g
pH of the suspension
3.8 3.6
Physical stability
after 1 week 4 mm/above stable
after 2 weeks 4 mm/above stable
after 4 weeks 6 mm/above stable
after 6 weeks 10 mm/above stable
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Suspension A sedimented slowly and showed a concentration gradient within
the depth of bed (120 mm altogether) after 4 weeks.
Suspension B was completely stable and no inhomogeneity could be detected
within the depth of bed even after 8 weeks of storage.
Suspension B exhibited a liquid limit of approximately 2 Pa, a light,
structurally viscous and hardly thixotropic behavior; the viscosity was
380 mPa.s at a shearing speed of 10/s or 180 mPa.s at 50/s (measured in a
Rotovisko RV3 rotational viscosimeter of the Haake company).
EXAMPLE 4
A suspension containing 2.5% by weight pyrogenic silicic acid
(Aerosil.RTM.200), 9.3% by weight sodium sulfate and 25% by weight DPDDA,
each in relation to the suspension, was prepared from hydrophilized DPDDA
with a content of 95% DPDDA, approximately 4% dodecanedioic acid and 1%
residual moisture and the pH of 4.5 was adjusted by adding sulfuric acid.
The carrier liquid was water. Water-free sodium sulfate was stirred into
the suspension after the peracid.
After 1 week of storage in a 100 ml measuring cylinder, 1 ml and after 2
weeks of storage 2 ml of an almost clear phase separated "at the top".
* * * * *
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