The whole cycle of finishing consists of mechanical and chemical processes, which are used depending on the kinds and end uses of the fabric. Mechanical processes include drying, calendaring, schreinering, embossing, sueding, raisingetc and chemical processes include in the application of special substances on the fabric, impregnation with size, starch, dextrin and other polymeric substances.
Some Finishing process of textiles are given below:
Steaming
A fabric steamer uses steam rather than heat to remove wrinkles. The steam, and slight pressure of the steamer's surface, relaxes the fibers rather than flattening them. Because of this process, using a fabric steamer is gentler on clothing, faster than using an iron, and eliminates scorching.
The fabric steamer is ideal for use on napped fabric, such as velvets and velveteen. A traditional iron will crush the nap, unless used with a needle board, but the fabric steamer doesn't exert pressure, preserving the luxurious look and feel of any material. Even very delicate materials, such as satins and silks, benefit from the gentle care of a fabric steamer.
Sanforizing
It is a process whereby the fabric is run through a sanforizer; a machine that has drums filled with hot steam. This process is done to control the shrinkage of the fabric.
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Calendaring/Embossing/Crabbing
Fabric calendaring is effected in special machines I.e. calendars, the
main working organ of which is rolls with smooth surface for normal
calendaring engraved surface for emboss calendaring and engraved finer
lines for schreinering calendaring or for getting crepe effect. The
calendar may be 3 bowl or five bowl and the contacting one bowl is plain
steel roller and the other may be covered with rubber otherwise the
fabric at nip point will break if both bowls are hard.
Glazing or rolling calendar: This method is not particularly important for nonwoven fabrics, with occasional exceptions. The smooth surface can be obtained usually by selecting an appropriate form of bonding and, especially, for drying a wet-bonded web. Calendaring has not met with much success since it is often accompanied by undesirable compression. The only time a rolling calendar is used is when two steel rollers are paired to break the so-called 'blotches' in spun-bonded fabrics.
MoirĂ© or goffering calender: The calenders are common in nonwoven finishing and are used in the compacting of the webs made of natural and synthetic fibers. This type of calendering can be considered to be both a bonding and finishing process. Webs composed of longitudinally oriented cotton or viscose fibers with a GSM of about 10-30 g/m2 can be stiffened and compacted sufficiently by passing them through a goffering calender when slightly damp. Hot embossing of synthetic fiber webs, even when the fibers are longitudinally oriented, produces a product remarkably strong due to the fibers melting at the embossed areas. The patterns can be of grid, webbed or point type. The temperature of the heated rollers is generally 20-30°C above the melting point of the fibers and the nip roll pressure 20-50dN/cm, depending on the volume of the web and the proportion of synthetic fibers it contains. If the web is cross-laid, point embossing results in maximum strength. If the fibers are arranged lengthwise, webbed embossing is employed.
The embossing effect is used to obtain special effects such as leather graining, simulated weave, plaster, brush strokes, cord and mock tiling. Another area in which heated calenders used is in the manufacture of laminates. Here thermoplastic fibers, layers of thread or film are placed between two layers of non-plastic web and are fused together by heat and pressure. Such laminates are used as tablecloths, seat and cushion covers. Calenders are also used in the transfer printing of the bonded webs.
Crabbing is a preliminary treatment for both un-dyed and dyed woven fabrics with differing objectives. In the case of un-dyed woven material the crabbing process serves to fix the fabric so as to avoid too intensive creasing and felting at the subsequent dyeing stage. After being dyed the woven fabric is smoothed and leveled by crabbing. Silicone blankets are used in this process.
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Glazing or rolling calendar: This method is not particularly important for nonwoven fabrics, with occasional exceptions. The smooth surface can be obtained usually by selecting an appropriate form of bonding and, especially, for drying a wet-bonded web. Calendaring has not met with much success since it is often accompanied by undesirable compression. The only time a rolling calendar is used is when two steel rollers are paired to break the so-called 'blotches' in spun-bonded fabrics.
MoirĂ© or goffering calender: The calenders are common in nonwoven finishing and are used in the compacting of the webs made of natural and synthetic fibers. This type of calendering can be considered to be both a bonding and finishing process. Webs composed of longitudinally oriented cotton or viscose fibers with a GSM of about 10-30 g/m2 can be stiffened and compacted sufficiently by passing them through a goffering calender when slightly damp. Hot embossing of synthetic fiber webs, even when the fibers are longitudinally oriented, produces a product remarkably strong due to the fibers melting at the embossed areas. The patterns can be of grid, webbed or point type. The temperature of the heated rollers is generally 20-30°C above the melting point of the fibers and the nip roll pressure 20-50dN/cm, depending on the volume of the web and the proportion of synthetic fibers it contains. If the web is cross-laid, point embossing results in maximum strength. If the fibers are arranged lengthwise, webbed embossing is employed.
The embossing effect is used to obtain special effects such as leather graining, simulated weave, plaster, brush strokes, cord and mock tiling. Another area in which heated calenders used is in the manufacture of laminates. Here thermoplastic fibers, layers of thread or film are placed between two layers of non-plastic web and are fused together by heat and pressure. Such laminates are used as tablecloths, seat and cushion covers. Calenders are also used in the transfer printing of the bonded webs.
Crabbing is a preliminary treatment for both un-dyed and dyed woven fabrics with differing objectives. In the case of un-dyed woven material the crabbing process serves to fix the fabric so as to avoid too intensive creasing and felting at the subsequent dyeing stage. After being dyed the woven fabric is smoothed and leveled by crabbing. Silicone blankets are used in this process.
To See calendering Machine Click Here
Anti-crease finish
For getting anti crease effect usually melamine formaldehyde, urea
formaldehyde and dimethylol dihydroxy ethylene urea (DMDHEU), butane
tetra carboxylic acid (BTCA) etc. can be used. At very high temperature,
they react with cellulose and give permanent anti crease effect. The
following reactions take place between the cellulose macromolecule and
DMDHEU
The usual method is Padding with DMDHEU and Catalyst -> Drying at (90-100) degree C for 5 minutes -> Curing at (140-150) degree C 5-3 minutes
Ploy Vinyl acetate = 20 g/L
Ammonium sulphate = 10 g/L Or Magnesium Cholride = 10 g/L
Sodium perborate = 0.3 g/L
The fabric is padded with the above solution and then dried at 100 degree C following curing at 160 degree C for 3 minutes. Curing can be carried out in the stentering machine or curing chamber.
The usual method is Padding with DMDHEU and Catalyst -> Drying at (90-100) degree C for 5 minutes -> Curing at (140-150) degree C 5-3 minutes
The following recipe can be used:
Stabitex FRD/Fixapret CPN (DMDHEU) = 75 g/LPloy Vinyl acetate = 20 g/L
Ammonium sulphate = 10 g/L Or Magnesium Cholride = 10 g/L
Sodium perborate = 0.3 g/L
The fabric is padded with the above solution and then dried at 100 degree C following curing at 160 degree C for 3 minutes. Curing can be carried out in the stentering machine or curing chamber.
Antistats
Static electricity tends to build up in nonwovens made of synthetic
fibers due to their lack of moisture regain and conductivity. This can
cause problems such as clinging and dragging during processing, apparel
that clings and crackles, dangerous discharge of static electricity in
explosive atmospheres and tendency to attract airborne dirt and soil in
processing and use. The antistats work in three basic ways. They improve
the conductivity of the fibers, coat the fiber with a thin layer of
material that will attract a thin layer of moisture, and finish the
fabric such that it holds a charge opposite to that normally accumulated
on the fiber to neutralize the static charge. Antistats can be either
durable or non-durable. Examples of durable antistats include vapor
deposited metals, conductive carbon or metallic particles applied by
binders, polyamines, polyethoxylated amine and ammonium salts and
carboxylic salts. Non-durable antistats usually consist of inorganic or
organic salts or hygroscopic organic materials. Examples are quaternary
ammonium salts, imidazoles and fatty amides which are cationic. Anionic
antistats include phosphates, phosphate esters, sulfonates, sulfates and
phosphonates. Examples of nonionic antistats include glycols,
ethoxylated fatty acids, ethoxylated fatty alcohols and sorbitan fatty
acid esters.
Antimicrobials
These are used to control populations of bacteria, fungi, algae and
viruses on the substrate. The treatment usually prevents the biological
degradation of the product or prevents the growth of undesirable
organisms. Broadly classed, the antimicrobials are either fixed or
leachable. The fixed treatments are durable, but the leachable
treatments may transfer to the surrounding environment through
migration, solubility or abrasion. A generic list of the treatments
include alcohols such as isopropanol or propylene glycol, halogens such
as chlorine, hypochlorite, iodine, N-chloramine and hexachlorophene,
metals such as silver nitrate, mercuric chloride and tin chloride,
various peroxides, phenols quaternary ammonium compounds, pine oil
derivatives, aldehydes and phosphoric acid esters. Care should be taken
in the application of these compounds to prevent inactivation, loss of
durability or masking of the active ingredient with other finishes.
Lubricants
Lubricants or slip agents are generally applied as processing aids to
help in stretching or to improve the process ability of nonwovens. They
are also applied to aid in sewing, quilting, tufting or other processes
where needles penetrate the fabric. Lubricants impart the same
properties as softeners but specifically reduce fiber friction. Common
chemicals include sulphonated oils, oil emulsions, silicones, esters,
polyethylene dispersions and fatty acid soaps. Many surfactants may also
be used. Care should be taken to avoid excessive strength loss.
UV absorbers and polymer stabilizers
Ultraviolet light can do great damage to the polymers causing
photo-degradation, yellowing, loss in strength and fading of the colors.
The damage is generally due to the formation of destructive free
radicals in the polymer. The finish can protect the fabric by shielding
the fiber or absorbing the light or by chemically quenching the free
radicals. The three main classes of products used are, substituted
benzotriazoles, benzophenones which are UV absorbers, and hindered
amines which are free radical reactants. They are applied from a bath or
added to the polymer.
To impart softness, smoothness and flexibility it is necessary to apply a
softening agent. According to ionic nature softener can be classified
into:
The following recipes can be used:
Softening
- Anionic softener
- Cationic softener
- Amphoteric softener
- Non ionic softener Among them, cationic softeners are mostly used because most of the textile is anionic in nature. Therefore cationic softeners have a god affinity towards textile fibers.
The following recipes can be used:
- Basosoft 8 kg
- Glycerine 1 kg
- Water as required
- Stentering speed 45-60 m/min
The admixture of Sulfonated Melamine Formaldehyde give permanent anti crease effect.This is one of the great phenomenon in commercial point of view for building construction..
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