ð Printing is localized dyeing. Printing is the most
important of all the processes used at present to decorate textile materials.
ð The main idea of printing is the deliberate and
controlled application of dye to exactly defined locations on the fabric
leaving the rest of the fabric essentially unaffected.
ð The following auxiliaries are used in printing:-
a)
Wetting agent
b)
Dispersing
agents or solvents
c)
Antifoaming
agent
d)
Hygroscopic
agent
e)
Oxidizing and
reducing agent
f)
Carriers
g)
Binders
h)
After washing
agents
i)
Miscellaneous
auxiliaries
j)
Thickeners
Wetting Agent
ð The use of wetting agent is generally beneficial in
dissolving dyestuff eg. Terkey red oil (T.R.O.), Lissopol C, Igepoh T etc.
ð During the penetration of printing paste the dyestuff
which is usually in the powder form is dissolve in a small amount of water.
ð In case of direct, acid, basic & reactive dyes,
which are water soluble, lump formation can take place if water is poured over
the dye powder or if the dye powder is added to water.
ð The correct procedure is to add a little amount of
water to the dye powder & to make a paste by proper stirring.
ð When all the dye is pasted, further quantity of water
is added & heated to the required temperature and stirred till complete
solution is obtain.
ð If the pasting is not proper prior to addition of
water, small lumps of the dye powder remain undissolved & during printing,
these small lumps get deposited on the fabric & produce dark spots.
ð The high surface tension of water prevents wetting of
the dye powder.
ð Therefore it is necessarily used a suitable wetting
agent while dissolving the dye.
ð The wetting agent reduces the surface tension of water
& facilitates the wetting of dye particles & ultimately results in
solubilising of the dye by chemical reaction.
Solvents/Solubilising Agent
ð They are used to prevent aggregation of dyestuff
molecules in highly concentrated paste of the dye.
ð Commonly used solvents include Acetin, Diethylene
glycol, thiodiethylene glycol, glycin – A etc.
ð Acetin is a mixture of mono, di & triacetates of
glycerenes prepared by reacting acetic acid or acetic anhydride with glycerol.
ð Monoacetate is completely miscible with water,
diacetate is less soluble & triacetate only moderately soluble in water.
ð All of them are freely miscible with alcohol &
ether & other organic solvents, but not with aliphatic hydrocarbon.
ð These are useful a solvents a dissolving for various
class of dyes including basic, rapidogens, etc.
ð These are used as additives to printing paste to
produce better prints & high colour value.
ð Soledon Developer GE (ICI) is a neutral colouless
mobile liquid which is completely mobile with water & consists of glycol
monoethylether.
ð It is useful in printing vat & azoic for
increasing solubility of dyes, so that deeper & better penetrated shade can
be obtain.
ð Glycine – A (BASF), Glycine – B (ICI) (thiodiethylene
glycol) are excellent solvents for basic, direct, acid & disperse dyes.
Antifoaming Agent
ð In the case of roller printing, wetting agents are
used in the printing paste & simultaneously continuous agitation of the
paste is also taking place in the colour box in which printing paste is kept.
ð Thus a considerable amount of foam is produce in the
colour box.
ð Due to this overflowing of the colour takes place,
which then falls on the other box.
ð In roller printing; one colour may be blue & other
may be red, the foam of one colour may fall on the other, sometimes mixing of
colours may occur.
ð The foam formed in the colour box produce faulty
prints & to avoid this fault defoamer should be incorporated in the
printing paste.
ð Silicone defoamer readily emulsifiable hydrocarbon,
sulphated oils, etc. may be used for this purpose.
ð Perminal KB (ICI) is neutral yellowish brown liquid
containing an aqueous emulsion of sulphated sperm oil & pine oil.
ð It is anionic in nature, miscible with water, gives
milky dispersion which is atable to alkalis.
ð A mixture of ortho, para & meta - methyl cyclohexanol has a power of reducing
the foam & widely used in textile printing.
ð Emulsified pine oil is readily miscible with water
& can be used as defoamer.
ð Triactyl phosphate is also a very good defoaming
agent.
Hygroscopic Agent
ð The function of hygroscopic agents used in the
printing paste is to take up sufficient amounts of water during steaming to
give mobility to dye molecules, to enable them to transfer to the fibre.
ð Glycerine, diethylene glycol and urea are generally
used as hygroscopic agents in printing.
Oxidizing and Reducing Agents
ð In order to develop the final colour in steaming or in
subsequent after treatment as in printing of solublised vat dye, aniline black,
some oxidizing agents are added to the printing paste.
ð They are also used in certain styles of printing such
as colour discharge/oxidation discharge.
ð Most commonly used oxidizing agents are:-
a)
Chlorates of Na,
K, NH3, or Al
b)
Dichromates of K
& Na
c)
Chromates of K
& Na
d)
Potassium
ferrycynide (K3FeCN6)
e)
Nitrites,
Nitrates
ð The proportion of oxidizing agent should neither be
less nor more. It should be such that it only discharges the colour.
ð Oxidizing agents are added during the preparation of
printing paste but it should be effective on colour only during steaming.
ð Reducing agents are used mainly for printing of vat
colours, sulphur colours, etc. & for production of reducing discharge
effect on the goods dye with direct, vat, indigosol etc. & also for
producing resist style in the application of insoluble azoic colours.
ð Commonly used reducing agents are:-
a)
Na2S2O4
b)
Sodium
sulphoxylate formaldehyde (NaHSO2.2H2O.HCHO)
This
is commonly available as Rongalite C, Formosol, Hydrosulphite NF etc.
c)
Sodium
bisulphate (NaHSO3)
d)
Glucose
e)
Tin compounds
(SnCl2, SnCOOCH3)
f)
Ferrous sulphate
g)
Thiourea dioxide
[NH2C(SO2)NH2]
Carriers & Swelling Agents
ð Dyeing & steaming processes are carried out at
high temperature.
ð The compact structure of synthetic fibres apecially
polyester making it difficult for the dye molecule to penetrate in the fibre structure
under condition of dyeing at boil & steaming at 100 – 102°C in ager.
ð It is known that certain hydrocarbons, substituted
hydrocarbons, phenol etc. accelerates the rate of dyeing of polyester with
disperse dyes from an aqueous medium at about 100°C.
ð These substances used are called carriers & one of
their function is to swell the fibres so that the dye molecules can diffuse
easily inside the fibre.
ð Therefore they are also known as swelling agents.
ð Generally urea is used as swelling agent for printing
various dyes on different fibres.
ð Some important carriers used for polyester are:-
a)
Ethyl alcohol
b)
Diethyl alcohol
(DEG)
c)
Diethylene
glycol diacetate (DEGDA)
d)
Polyethylene
glycol
e)
Ammonium
sulphocynide
f)
Thiodiethyl
glycol
g)
Ethyl lactate
h)
Diethyl
tartarate
i)
Phenols etc,
ð These carriers should be completely removed from the
fabric after dyeing or printing is over.
ð Otherwise they may decrease the light fastness of dyed
& printed goods.
ð These carriers may also be toxic in nature &
therefore they have to be used very carefully.
Binders
ð Binders are used in pigment printing. Binder is a
substance which can form a film at the printed portion.
ð As the fastness properties of pigment prints are
determined by the fastness of the binder film, the quality of a print depends
on the quality of the binder.
ð The binder film formed on the fibre must be colourless
and clear.
ð It must be of even thickness, smooth and neither too
hard nor too soft. It should be elastic and should have good adhesion to the
substrate without being tacky.
ð Further, it should have good resistance to mechanical
and chemical stresses, but should be readily removable from the printing
rollers, screens, backgreys and blankets during operation or shortly
afterwards.
ð Albumin, casein, glue etc. were used earlier as
binders cum thickeners. These were later replaced by cellulose esters such as
cellulose acetate and cellulose nitrate.
ð Recently, large numbers of synthetic binders have been
developed.
ð The important amongst them are vinyl resins, acrylic
resins, melamine formaldehyde and urea formaldehyde precondensates, chlorinated
rubber, etc.
ð Helizarin binder UD (BASF) is formed from acrylic
esters with styrene and gives prints having excellent fastness properties.
ð The latest development is the combination of binders,
white spirit emulsifier, leveling agent and catalyst.
ð Special binders are also developed for printing
polyester/cotton blended fabrics.
ð These are based on styrene-butadiene and acrylonitrile-butadiene,
which have good adhesion power for circular cross-section polyester.
After Washing Agents
ð After washing or soaping of printed goods is an
important operation.
ð It serves two purposes:-
a)
It removes the
thickener from the printed goods and thereby improves the handle of the cloth.
b)
It helps in
developing true shades and also improves the fastness properties of certain
dyestuffs.
ð The auxiliaries used in after washing are described as
in Dyeing Auxilaries.
Miscellaneous Auxiliaries
ð Mordants:-
·
These are used
in the printing of basic dyes on cotton.
·
A mordant is a
substance having affinity for both the fibre and the dyestuff.
·
Tannic acid
along with tartar-ematic and “Katenol O” which is thiophenol are generally
employed as mordants.
ð Leucotrope W:-
·
It is dimethyl
phenyl benzyl ammonium chloride.
·
It is
extensively employed in the discharge printing of vat dyes.
·
This substance
forms an additive complex with leuco vat dye.
·
The complex so
formed is not oxidized to parent vat dye by oxidation and being soluble in
alkali, it is easily removed from the fibre during washing.
·
Thus, when vat
dyed goods are printed with alkali, sulphoxylate formaldehyde and “Leucotrope
W”, steamed and washed, one can easily remove dyestuff from the printed portion
to get discharge prints.
ð Mild Oxidants:-
·
m – Nitrobenzene
sulphonic acid sold under the trade names, “Ludigol” or “Resist Salt” is used
as a mild oxidant in printing vat discharge on direct colour ground.
·
It prevents the
adverse effect of the reducing agent on unprinted ground during steaming.
·
The method of
application involves incorporation of “Ludigol” in the padding liquor used for
dyeing direct colour.
Thickeners
ð The main function of thickeners in printing are :-
(a)
To act as a
vehicle for carrying the dye onto the cloth
(b)
To prevent the
spreading of the colour on the cloth by capillary action beyond the limit of
the defined portion in the motif.
ð A large number of thickeners are available for
printing.
ð The choice of thickener will depend upon the class of
dye to be printed and style of printing.
ð The compatibility of thickener with other ingredients
in the printing paste should also be considered during its selection.
ð Carbohydrates form the most important and largely used
varieties of thickening agents.
ð Wheat starch and maize starch have been used as
thickeners in printing for a very long time.
ð Starch is not suitable as a thickener in the
preparation of paste in which acids are to be added.
(A) Gums
ð Gum Tragacanth or Gum Dragon:-
·
It is obtained
from the ligneous plant.
·
The advantage of
this gum is that it leaves the cloth quite soft.
·
Generally 4 – 5
% gum paste is used in printing.
·
It is stable
under mildly alkaline conditions but not under strongly alkaline conditions.
ð Gum Senegal or Gum Arabic:-
·
It is obtained
from the exudation of Acasia plant.
·
30 – 50 % of gum
paste is required for printing.
·
It is stable
under both strongly alkaline and strongly acidic conditions.
ð Locust Bean Gum:-
·
It is obtained
from the hard seeds of the locust bean of carob tree.
·
Only 2 – 3 % of
this gum gives print paste of required viscosity.
ð Tragasol Gum:-
·
It is a special
product of locust bean.
·
It has better
stability to mild alkalis and acids than locust bean gum.
ð Gum Karaya:-
·
This gum is
obtained from the Karaya tree.
·
It is not much
used at present.
(B) Modified Starches as Thickeners
ð Dextrin or British Gum:-
·
Dextrin or dark
British gum is a degradation product of starch obtained by heating it with
mineral acid or roasting at 160°C till it becomes completely soluble in water.
·
Generally 20 –
50 parts of dextrin per 100 parts of printing paste is used.
(C) Cellulose Derivatives as Thickeners
ð Methyl Cellulose:-
·
Methyl ether of
cellulose is prepared from wood pulp or cotton linters.
·
The ether is insoluble
in boiling water and also in presence of alkali but soluble in cold water.
·
It retains its
consistency satisfactorily during storage.
ð Sodium Carboxy Methyl Cellulose (CMC):-
·
It is prepared
by reacting alkali cellulose with monochloro acetic acid.
·
This thickener
is stable to alkali and hence can be used for printing vat colours.
·
The removal of
CMC from the cloth after printing is very easy.
(D) Sodium Alginate
ð It is a sodium salt of alginic acid which is extracted
from seaweed.
ð Sodium alginate has the following advantages:-
·
It is soluble in
cold, warm or hot water
·
Only small
amounts of sodium alginate are required in the preparation of printing pastes
·
Due to its
wetting power the penetration of the dye in the fabric is superior
·
It can be used
with most dyes and is particularly suitable in the printing of reactive dyes
·
Removal of
thickener is easy and thus the cloth remains soft after printing.
(E) Emulsion Thickeners
ð Emulsion thickeners came into existence with the rapid
development of pigment colours.
ð However, today emulsion thickeners are also employed
for printing other classes of dyestuff.
ð In each system of emulsion there is a dispersed phase
and a dispersing medium.
ð When very stable emulsions are required,
emulsification is brought about in the presence of a third component called
emulsifier.
ð For textile printing, oil – in – water type of
emulsion is popularly used.
ð Kerosene – water emulsions have been widely accepted.
ð Different types of emulsifiers are available such as
anionic, cationic and non – ionic.
ð At present the non – ionic type of emulsifier is
preferred and alkyl – phenol – ethylene – oxide condensates have proved most
useful.
(F)
Thickeners for
Printing Reactive Dyes
ð In the printing of reactive dyes the choice of a
thickener is very important.
ð Thickeners based on starches cannot be used as
reactive dyes react with these thickeners.
ð Sodium alginate has proved to be the most suitable.
ð Sometimes emulsion thickeners are also used either
alone or in combination with sodium alginate.
ð Guar gum is another thickener which is sometimes used
in printing reactive dyes.
ð It is generally employed along with either sodium
alginate or an emulsion thickener.
ð Recently, various modified starches and gums have been
developed for printing reactive dyes.
