This document provides details about various woven dyeing processes. It begins with an introduction to dyeing technology and lists the main types of fabrics - woven, knitted, and non-woven. It then outlines the typical steps in woven fabric dyeing, from inspection to packing. Several dyeing methods are described, including direct dyeing and yarn dyeing. Key dyeing machines like jet, overflow, airflow and jigger dyeing machines are explained. Limitations of jigger dyeing are also noted.
This PPT are used for textile engineering students, textile technology who takes textile testing courses. the PPt prepared from different books and NPTEL textile engineering web site.
Wrinkle free resin finishing is a process to apply chemical resin onto fabrics functioning crosslinking between hydrogen bonds in order to enhance stability, on other words, fabrics are prevent to wrinkling. The ability of a fabric to recover to a definite degree is called crease recovery of the fabric.Tendency of fabrics made by cellulose, regenerated cellulose and blends with synthetic fibers to wrinkle after washing, tumble drying and wearing are higher. Today everybody wishes for that his/her dress retains just ironed shape. Wrinkle free finishes provide wrinkle free and soft look fabric. Wrinkle free finishes are broadly used in the textile industry to impart wrinkle-resistance to cellulosic materials such as cotton fabric.
Project Report on Study on the Effects of Sanforizing Machine on the Properti...Morshed Morshed
A thesis submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Textile Engineering
Advance in Wet Processing Technology
Basic knowledge about blend dyeing
Dyeing of Blended Fibres & Fabrics
Blends:
Blends are any textile material from fiber through yarn to fabric which are deliberate combination of chemically or physically different fibrous polymer. Cotton and Polyester blend is an example of chemically different blend and Cotton and Viscose is physically different blend because both are cellulosic.
Reason for blending:
1.Economy: The dilution of an expensive fibre by blending with a cheaper substitute.
2.Durability: The incorporation of a more durable component to extend the useful life of a relatively fragile fibre.
3.Physical properties: A compromise to take advantage of desirable performance charactristics contribuition by both fibre components.
4.Color: The development of new fabric design for garments incorporating multicolor effect.
5.Appearance: The attainment of attractive appearance & perceptible qualities using combinations of yarns of different lusture, crimp or denier which still differ in appearance even when dyed with same color.
6.Other reasons-
Blending develops fibre properties.
Colorant modification is possible by blending.
Finishing process modification.
Improved moisture absorption, antistatic characteristics, reduced pilling, improved abrasion resistance.
Dyeing Possibilities with Blends:
1.Union Dyeing:
• This is suitable for fabrics containing two fibres to dye them in a single uniform colour, each dye suitable for one kind of fibre in the blend.
• Union dyeing is same as cross dyeing except that instead of multi-colour effects. One solid colour is produced. The dyer accomplishes this by using two or more classes of dye, each of the same colours.
• Different fibres may require different dyes to obtain the same colour; this may be done by putting the appropriate colour dye that is specific to each type of fibre in to one dye bath.
• For eg: a fabric composed of rayon and acetate can be dyed with a solid colour green by using a direct dye for the rayon, and a disperse dye of the same colour for the acetate.
2.Resist/Reserve dyeing:
• In resist dyeing at least one (but not all) of the components of the blend remains essentially undyed i.e almost white.
3.Cross dyeing:
• Cross dyeing produces fibres of contrasting color
• This is two types-
a)Shadow effect/Tone-in-Tone dyeing:
Two fibres are dyed in same hue & brightness but the depth is different. It is called tone-in-tone or shadow effect.
b)Contrast effect:
Two fibres are dyed with strong difference in hue, brightness & depth.This is called contrast effect. Pleasing final appearance is important here.
This presentation is my graduation internship presentation at BSL (LNJ group) Bhilwara (Rajasthan).
In this presentation I describe BSL company profile, Process significance, all steps which use for fibre to fabric in textile.
Lab dip is a process by which buyers supplied swatch is matched with the varying dyes percentage in the laboratory with or without help of “DATA COLOR”
Lab dip plays an important role in shade matching & and detaching the characteristics of the dyes and chemicals are to be used in the large scale of production. So this is an important task before bulk production.
For meeting the demand of 21th Century we need many qualified Textile Engineer but in our perspective there are two types of Textile Engineer one is more qualified another is more frantic about their position. No Frustration because you are the right key to touch your success. Don’t draw your life map with pen but pencil (because pencil is erasable). Let bygones be bygones & go ahead with our future as if it will be keep in touch. Make a whistle with vivacious life & vivid future.
This PPT are used for textile engineering students, textile technology who takes textile testing courses. the PPt prepared from different books and NPTEL textile engineering web site.
Wrinkle free resin finishing is a process to apply chemical resin onto fabrics functioning crosslinking between hydrogen bonds in order to enhance stability, on other words, fabrics are prevent to wrinkling. The ability of a fabric to recover to a definite degree is called crease recovery of the fabric.Tendency of fabrics made by cellulose, regenerated cellulose and blends with synthetic fibers to wrinkle after washing, tumble drying and wearing are higher. Today everybody wishes for that his/her dress retains just ironed shape. Wrinkle free finishes provide wrinkle free and soft look fabric. Wrinkle free finishes are broadly used in the textile industry to impart wrinkle-resistance to cellulosic materials such as cotton fabric.
Project Report on Study on the Effects of Sanforizing Machine on the Properti...Morshed Morshed
A thesis submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Textile Engineering
Advance in Wet Processing Technology
Basic knowledge about blend dyeing
Dyeing of Blended Fibres & Fabrics
Blends:
Blends are any textile material from fiber through yarn to fabric which are deliberate combination of chemically or physically different fibrous polymer. Cotton and Polyester blend is an example of chemically different blend and Cotton and Viscose is physically different blend because both are cellulosic.
Reason for blending:
1.Economy: The dilution of an expensive fibre by blending with a cheaper substitute.
2.Durability: The incorporation of a more durable component to extend the useful life of a relatively fragile fibre.
3.Physical properties: A compromise to take advantage of desirable performance charactristics contribuition by both fibre components.
4.Color: The development of new fabric design for garments incorporating multicolor effect.
5.Appearance: The attainment of attractive appearance & perceptible qualities using combinations of yarns of different lusture, crimp or denier which still differ in appearance even when dyed with same color.
6.Other reasons-
Blending develops fibre properties.
Colorant modification is possible by blending.
Finishing process modification.
Improved moisture absorption, antistatic characteristics, reduced pilling, improved abrasion resistance.
Dyeing Possibilities with Blends:
1.Union Dyeing:
• This is suitable for fabrics containing two fibres to dye them in a single uniform colour, each dye suitable for one kind of fibre in the blend.
• Union dyeing is same as cross dyeing except that instead of multi-colour effects. One solid colour is produced. The dyer accomplishes this by using two or more classes of dye, each of the same colours.
• Different fibres may require different dyes to obtain the same colour; this may be done by putting the appropriate colour dye that is specific to each type of fibre in to one dye bath.
• For eg: a fabric composed of rayon and acetate can be dyed with a solid colour green by using a direct dye for the rayon, and a disperse dye of the same colour for the acetate.
2.Resist/Reserve dyeing:
• In resist dyeing at least one (but not all) of the components of the blend remains essentially undyed i.e almost white.
3.Cross dyeing:
• Cross dyeing produces fibres of contrasting color
• This is two types-
a)Shadow effect/Tone-in-Tone dyeing:
Two fibres are dyed in same hue & brightness but the depth is different. It is called tone-in-tone or shadow effect.
b)Contrast effect:
Two fibres are dyed with strong difference in hue, brightness & depth.This is called contrast effect. Pleasing final appearance is important here.
This presentation is my graduation internship presentation at BSL (LNJ group) Bhilwara (Rajasthan).
In this presentation I describe BSL company profile, Process significance, all steps which use for fibre to fabric in textile.
Lab dip is a process by which buyers supplied swatch is matched with the varying dyes percentage in the laboratory with or without help of “DATA COLOR”
Lab dip plays an important role in shade matching & and detaching the characteristics of the dyes and chemicals are to be used in the large scale of production. So this is an important task before bulk production.
For meeting the demand of 21th Century we need many qualified Textile Engineer but in our perspective there are two types of Textile Engineer one is more qualified another is more frantic about their position. No Frustration because you are the right key to touch your success. Don’t draw your life map with pen but pencil (because pencil is erasable). Let bygones be bygones & go ahead with our future as if it will be keep in touch. Make a whistle with vivacious life & vivid future.
Manufacturing process of textile industries (Printing and dyeing process of f...Muhammad Umair Akram
This document is actually based practical research That was completed during my internship in AMSONS textiles mills (pvt.) ltd Karachi, Sindhi, Pakistan. This document will really help you in your studies and will make it easy for you to understand about the process that are usually followed during printing and dyeing of fabric. In this document the quality control procedures of textile industry are also discussed.
Textile dyeing mc final report University of south asiaTonmoyMollick
Topics about textile dyeing and used machinery. Data arranged by BSC in textile 36 batch from USA evening students. If any issue to change the data please replay and advice we will do accordingly.
(Over Dyeing) to dye for a second or third time with a different color. Over dyeing is such a rewarding way of rescuing an ugly or unsatisfactory colored cloth. It gives uneven look. sometimes over dyeing doesn’t mean all-time dyeing the garment which is previously dyed. Over dyeing may be normal dyeing or piece dyeing process.
TEXTILES 101 – QUIZ #5 (TAKE HOME) DUE 10/18/14
RAPA – T/R 7PM-8.15PM Name:
Multiple Choice
1. Polyester filling used in a quilt is this type of textile:
A. meltblown nonwoven
B. felt
C. spunbond nonwoven
D. interlock
E. airlaid nonwoven
2. Another name for double-needle-bar raschel is:
A. simplex knit
B. lace
C. spunlace
D. interlock
E. spacer knit
3. Round shoelaces are often manufactured using this process
A. twisting
B. weaving
C. bonding
D. braiding
E. flat knitting
4. The process of making leather pliable, rot and water resistant is
A. snuffing
B. tanning
C. ageing
D. splitting
E. anti-fungus
5. Leather made from the most durable and expensive part of the hide is called
A. suede
B. split grain
C. top grain
D. pleather
E. coarse grain
6. In the video on leather manufacturing, what chemical is used to turn the animal skin blue?
A. Citric Acid
B. Chromium sulfate
C. Hydrochloric Acid
D. Sodium Hydroxide
E. Methylene Blue
7. Carpet is usually manufactured using this method:
A. knitting
B. tufting
C. felting
D. stitching
E. braiding
8. Color matching under one light source, but not with any other light source is called
A. bezold effect
B. lab dipping
C. metamerism
D. incandescent
E. crystal theory
9. The number of needles per inch in a knit is the
A. gauge
B. wale
C. count
D. course
E. decitex
10. Which fabrication method is made with a series of interlocking loops?
A. braiding
B. lace-making
C. knitting
D. weaving
E. chenille
11. Which of the fabrics below is a sliver knit?
A. velour
B. interlock
C. tricot
D. ponti-di-roma
E. fake fur
12. Which of the following is not a nonwoven fiberweb structure?
A. spunlaced
B. air-laid
C. needlepunched
D. laminated
E. spunbonded
13. Cordonnet is a type of
A. brocade
B. a surface embroidery
C. re-embroidered lace
D. tapestry
E. battenburg lace
SHORT ANSWERS
14. List the five steps involved in machine weft knitting:
15. a) Identify the following stitch:
a)
b) How is this stitch used in weft knitting?
16. What can be produced on a Sangiacomo knitting machine?
17. Describe one resist dyeing technique
18. When needles on one bed line up directly across from needles on the other bed, this is called:
19. List the two kinds of warp knitting machines:
a)
b)
20. Describe the 3 main nonwoven bonding mechanisms:
21. a) Name a product you use or wear that is made out of a non-woven textile:
b) Describe what type of nonwoven it is and how it is produced:
22. a) Describe one method of printing:
b) What is the advantage of using this print method over others?
Chapter 19
Dyeing and Printing
T101
Survey of the Textile Industry
Christina Rapa
[email protected]
215-490-7999
Important product characteristic
Goal: produce a ...
Garment dyeing is the cost effectiveness of mass producing identical garments of particular colors.Garment dyeing is the process of dyeing fully fashioned garments (such as pants, pullovers, t-shirts, jeans, sweaters, dresses, bathrobes, casual jackets, shirts, skirts, hosieries) subsequent to manufacturing, as opposed to the conventional method of manufacturing garments from pre-dyed fabrics. A major drawback with this approach is the risk associated with carrying a large inventory of a particular style or color in today's dynamic market. Garment dyeing has been slowly emerging as a process to meet the ephemeral fashion trends adopted by the consumers and new machines and methods have made this process to wear a brighter future for it.The advantage of this process is the cost effectiveness of mass producing identical garments of particular colors.
Quick Response to the market (bar coding etc.,)
Ability to supply a wide range of colorations to the retailer, but only in the shades that are selling
Reduced discounted sales at inventory
Best way to achieved relaxed, casual look .Ability to create special effects such as tie dyed, pigment dyed and washed down in a single process etc.,
A major drawback with this approach is the risk associated with carrying a large inventory of a particular style or color in today's dynamic market.
Traditionally,
Detection of faults during production of knitted fabric is crucial for improved quality and productivity. The yarn input tension is an important parameter that can he used for this purpose. We can Problems faced in the Knitted Fabrics, due to the Dyeing & Finishing processes
List of Profitable Business Ideas in Textile Bleaching, Dyeing, Spinning, Wea...Ajjay Kumar Gupta
Textile processing is a general term that covers right from singeing (protruding fiber removal) to finishing and printing of fabric. The various steps a fabric goes into are singeing, desizing, bleaching, dyeing, and finishing. Bleaching is a process to make the fabric or yarn look brighter and whiter. Dyeing is a process of applying coloring matter directly on fiber without any additives. Finishing is the final process to impart the required end use finishes to the fabric and lastly the printing process on fabric which is a science as well as an art. Textile auxiliaries such as chemicals are used for all stages of the textile manufacturing process that is from pre-treatment to dyeing and printing and finishing.
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Textile it is a flexible woven material consisting of a network of natural or artificial fibres often referred to as thread or yarn derived from animals, plants,minerals,synthetics Some chemicals hazardous to human health or the environment.
The slides will help someone to know basic things on textile technology. Introductory knowledge on textile technology that will help to get introduction. The slides are prepared for some other engineering working in textile sector, specially for energy and water efficiency.
For all you fashion retailers and small brands out there, let's dive into the world of textile dyeing! It's not just about adding colors to fabrics; it's an age-old tradition that's been dressing people up in style for centuries.
Textile dyeing is how we color fabrics, and there are different ways to do it. Some methods are better for the environment, and one of them is digital printing. Digital printing is a modern and eco-friendly way to color fabric without creating a lot of waste. This is especially important for garment manufacturers who produce clothes and apparel.
1. SOUTHEAST UNIVERSITY
School of Science & Engineering
DEPARTMENT OF TEXTILE ENGINEERING
Course Code: Tex-3021
Course Title: Wet Processing Technology-II
Assignment on: Details study on Woven Dyeing Process.
SUBMITTED TO
Md. Shahidul Islam
Lecturer
Dept. of Textile Engineering
SUBMITTED BY:
Md. Tanvir Ahammed
ID: 2012000400038
19th
Batch, Section-1
Submitted On: 20-08-2014
2. INTRODUCTIONTO DYEING
Day by day dyeing technology is changing for providing more coloration facility, more dyeing
machine productivity, more upgraded dyed product, better safety,lower wet processing time, higher
quality of textiles, more consistency of dyes in the textile fabric & finally for human comfort. In
textile wet processing and synthetic dyeing there are various types of machinery are used from dyeing
pretreatment to finishing which vary with dye brand to brand according to their dyeing technology.
Over the years for textile fabric processing we saw a lot of development through which we can
provide a wide range of textile product with different coloration appearance & which are used for
different purpose. With the aid of textile machine now most delicate fabrics with different finish is
provided which could not think at past.
Usually there are three types of fabric.
I. Woven fabric
ii. Knitted fabric
iii. Non-woven fabric
All of the above fabric categories have different derivatives. Among them Woven fabric has a great
versatility. That can be used in home textile as well as fashion. New technology machinery provides
versatility not only by varying the structure of woven fabric manufacturing but also varying in
processing such as in coloration & by different finishes.
FLOWCHART OF WOVEN FABRIC DYEING
Inspection of grey cloth
↓
Stitching
↓
Cropping
↓
Brushing
↓
Singeing
↓
Desizing
↓
Scouring
↓
Bleaching
↓
Souring
↓
Washing
↓
Drying
↓
Mercerizing
3. ↓
Dyeing
↓
Aftertreatment
↓
Finishing
↓
Inspection
↓
Packing
↓
Baling
Methods of woven dyeing
Color is applied to fabric by different methods of dyeing for different types of fiber and at
different stages of the textile production process. Dyeing can be done during any stage in the
textile manufacturing process. Textiles may be dyed as fibre, as yarn, as fabric, as garments,
depending upon the type of the fabric or garment being produced.
These methods include direct dyeing; Stock dyeing; top dyeing; Yarn dyeing; Piece dyeing;
Solution is pigmenting or dope dyeing; Garment dyeing etc. Of these Direct dyeing and Yarn
Dyeing methods are the most popular ones.
Direct Dyeing
When a dye is applied directly to the fabric without the aid of an affixing agent, it is called
direct dyeing. In this method the dyestuff is either fermented (for natural dye) or chemically
reduced (for synthetic vat and sulfur dyes) before being applied. The direct dyes, which are
largely used for dyeing cotton, are water soluble and can be applied directly to the fiber from
an aqueous solution. Most other classes of synthetic dye, other than vat and sulfur dyes, are
also applied in this way.
Stock Dyeing
Stock dyeing refers to the dyeing of the fibers, or stock, before it is spun in to yarn. It is done
by putting loose, unspun fibres in to large vats containing the dye bath, which is then heated
to the appropriate temperature required for the dye application and dyeing process.
Stock dyeing is usually suitable for woolen materials when heather like color effects are
desired. Wool fibre dyed black, for example, might be blended and spun with un-dyed
(white) wool fibre to produce soft heather like shade of grey yarn. Weed fabrics with heather
like color effects such as Harris Tweed are examples of stock dyed material. Other examples
include heather like colours in covert and woolen cheviot.
Top Dyeing
Top dyeing is also the dyeing of the fibre before it is spun in to yarn and serves the same
purpose as stock dyeing – that is, to produce soft, heather like color effects. The term top
4. refers to the fibres of wool from which the short fibres have been removed. Top is thus
selecting long fibres that are used to spin worsted yarn. The top in the form of sliver is dyed
and then blended with other colors of dyed top to produce desired heather shades.
BRIEF DESCRIPTIONOF EACH STEP OF DYEING
SINGEING
Singeing is the first step of dyeing. Singeing is important for a fabric to provide a smooth finish.
Woven fabric goods usually contain protruding fibers from textile yarns. Singing process is used to
remove those protruding fibres from the surface of the fabric. The fabric is passed in to a flame and
these protruding fibers are burned out. Sometime copper plate is used remove the fibre. For printing,
singing is most essential to improve the surface smoothness by eliminating the pilling and fibres.
DESIZING
Desizing is an important dyeing preparation step. During weaving sizing material is used to increase
the strength of warp yarn. The sizing material is hydrophobic in nature. That’s why it must be
removed before dyeing. Desizing is the process to remove the size material from the fibre. There are
many chemical to remove the size material. Enzymes are the most popular material to use in sizing
process.
SCOURING
Scouring is one of the most important processes of textile fabric dyeing. All of the natural fibre
contains natural oil and wax. Before dyeing, those oil and wax must be clean for smooth and proper
dyeing. The Scouring is a cleaning procedure that used to eliminate those oil, wax from fibers, yarns,
or fabric by soaping. For scouring process alkaline solutions are typically used; however, Solvent
solution may be used in some case. The parameter of scouring procedures like temperature,
chemicals, and time vary with the type of fabric and fibre types. Impurities are including natural
materials, dirt lubricants and other. Residual tints antistatic agents,water-soluble sizes, used for yarn
verification.
BLEACHING
Bleaching is a complex process. The most common bleaching agents include sodium chlorite,
hydrogen peroxide, sulfur dioxide gas and sodium hypochlorite. All the natural fibre contains a
natural color which is harmful for dyeing shade matching. For example the cotton has natural
yellowish shade. So it is important to remove the natural color from the fibre. Bleaching is a used to
eliminate the natural color from the fibre and prepare the fabric for further process. According to the
types of fibre the bleaching chemical is selected. Hydrogen peroxide is most popularly used bleaching
agent for cotton and cotton blends.
MERCERIZING
Mercerization is used to increase appearance,luster and dye ability of textile fibre. Mercerizing is a
semi-continuous or continuous chemical process used for cotton and cotton/polyester goods.Room
temperature must be maintain during this process, causes the twisted ribbon-like cotton or cotton
5. polyester blend fabric to swell into a round shape and to contract in length. This causes the fiber to
become more lustrous than the increase in strength original fiber, by as much as 20 percent, and
increase its affinity for dyes during dyeing
DYEING
Dyeing is proper way to coloration of textile material (fibre, yarn, woven fabric, knitted fabric, non-
woven fabric). Suitable dyestuff, dyeing machine and dyes chemical is required for achiving proper
dyeing shade.
There are four types of dyeing,
1. Fiber Dyeing
2. Yarn Dyeing
3. Fabric Dyeing
4. Garment Dyeing
BASIC REQUIRMENT OF DYEING MACHINE
. Dyeing machine shall provide sufficient movement for the dyeing and dyes chemical liquor
to penetrate uniformly into every part of the goods (fibre, yarn, fabric or cloth garments)
. The dyeing liquor movement inside the dyeing machine shouldn't be so vigorous that it
damages the finer textile materials
. Dyeing Machine must be constructed of a material which will withstand prolonged boiling
with acid or alkaline solutions from the dye bath.
. Heating arrangement inside the dyeing machine should be such that uniform temperature
could be maintained.
. There should be some means of adding the concentrated dyestuff solution in such a way that
it becomes well diluted before it comes into contact with the goods
Some Woven Dyeing Machine:
Jet Dyeing Machine
It was found that in using Winch machines, there were some inherent problems. So the Jet
dyeing machines when they came up in the 1970’s were specifically designed to overcome
those shortcomings.
In the Jet dyeing machine the reel is completely eliminated. A closed tubular system exists
where the fabric is placed. For transporting the fabric through the tube a jet of dye liquor is
supplied through a venturi. The Jet creates turbulence. This helps in dye penetration along
with preventing the fabric from touching the walls of the tube. As the fabric is often exposed
to comparatively higher concentrations of liquor within the transport tube, so little dye bath is
needed in the bottom of the vessel. This is just enough for the smooth movement from rear to
6. front. Aqueous jet dyeing machines generally employs a driven winch reel along with a jet
nozzle.
The following diagram explains the functioning of a Jet dyeing machine:
Fig: Jet dyeing machine
Types of Jet Dyeing Machine
In deciding the type of dyeing machine the following features are generally taken into
consideration for differentiating. They are the following. Shape of the area where the fabric is
stored i.e. long shaped machine or J-box compact machine. Type of the nozzle along with its
specific positioning i.e. above or below the bath level. Depending more or less in these
criteria for differentiation following types of Jet Machines can be said to be as developments
of the conventional jet dyeing machine.
A. Overflow Dyeing Machine
B. Soft-flow Dyeing Machine
C. Airflow Dyeing Machine
Advantages of Jet Dyeing Machine
The Jet Dyeing Machine offers the following striking advantages that make them suitable for
fabrics like polyesters.
Low consumption of water
Short dyeing time
Can be easily operated at high temperatures and pressure
Comparatively low liquor ratios, typically ranges between 1:4 and 1:20
Fabrics are handled carefully and gently.
A. Overflow Dyeing Machine
Overflows Dyeing Machines are designed for use in delicate knitted and woven fabrics that
are made up of natural as well as synthetic fibers. They are also extensively used in the
production of carpets. The main difference between jet and overflows machines is that in jet
machines the fabric gets transported by a bath that flows at high speed through the nozzle,
while in Overflow Dyeing Machine it is the gravitational force of the liquor overflow that is
responsible for fabric transportation.
7. Functioning of an Overflow Dyeing Machine
A typical Overflow Dyeing Machine works like this. A winch that is not motor driven usually
is located in the top side of the machine where the fabric is hanged. A longer length of textile
is made to hang from the exit side of the winch as compared to the inlet side. By applying the
force of gravitation the longer length of textile is pulled downward more strongly than the
shorter one. Consequently the fabric is soaked in the bath without any sort of tension. The
following diagram well illustrates the working process.
Advantages of Overflow Dyeing Machine
No evaporative losses- As the dyeing vessel is closed, there is no evaporative losses
stemming from the dye bath. Further, depending on the situation the temperature may
be raised to more than 1000oC.
No buildup of steam condensate in the dye bath- The latest technology implies that
the dye bath gets heated by a heat transducer which is steam driven. This technology
apart from being very efficient ensures that there is no buildup of steam condensate in
the dye bath.
8. Low liquor ratios- Dyeing is conducted at relatively low liquor ratios, e.g. 10:1 and
may be lesser resulting in substantial savings in water and energy.
Excellent dye liquor contact- Excellent dye liquor contact with the fabric rope
results in better and more improved level dyeing.
Computer control- The machines are operated by computer and hence, operator error
is eliminated.
B. Airflow Dyeing Machine
This is another development of the very popular jet dyeing machines. The main difference
between the Air Flow Machine and Jet Dyeing machine is that the airflow machine utilizes an
air jet instead of the water jet for keeping the fabric in circulation. Typically the fabric is
allowed to pass into the storage area that has a very small amount of free liquor. This results
in a reduction in consumption of water, energy and chemicals.
The figure below shows how in an Airflow Machine the bath level is always under the level
of the processed textile. Here the fabric does not remain in touch with the liquor (the bath
used is below the basket that holds the fabric in circulation). This invariably means that the
bath conditions can be altered without having any impact on the process phase of the
substrate.
Advantages ofAirflow Machine
Completely Separated circuit for liquor circulation without getting in touch with the
textile
Bath less Dyeing operation
Rinsing process offers all the added benefits of continuous processing as it is no
longer a batch operation
Extremely low liquor ratio
Virtually nonstop process
Comparatively lesser energy requirement due to faster heating/cooling and optimum
heat recovery from the hot exhausted dye liquors
Reduction in consumption of the chemicals (e.g. salt) dosage of which is based on the
amount of dye bath
Lesser water consumption savings up to 50% from the conventional Jet dyeing
machines
9. Sensitivity towards ecology
Economical operation
More safety while dyeing.
Jiggerdyeing machine
Based on experience and developments in industry and controller technology, the This-
Jigger is developed. Suitable for processing fabric at atmospheric temperatures of up to 98°C
and in HT execution up to 143°C, this Jigger is especially recommended for the treatment of
crease sensitive, permeable and non-permeable articles in open width form, offering optimum
flexibility for the finishing of all modern fibres and blends. Incorporating innovations in step
less tension and material speed control and with an economical dye trough designed for
uniform dyeing in short liquor ratio conditions.
An industrial PC, proven in the exhaust dyeing industry, including PLC and a fabric rope
monitoring system is used for the complete machine control, ensuring the maintenance of
optimum processing conditions.
Significant innovations in the process technology ensure modern utilization
1. Direct drive of the main rollers via frequency controlled three-phase motors with
brake drive current return (energy saving)
2. A dye trough design ensuring minimum possible liquor ratio
3. Fabric rope monitoring control system for precise calculation and control of the fabric
speed and tension
4. Uniform dyeing conditions in the dye trough, independent of the batch size
5. Water meter for controlled rinsing
6. Dosing of dyes and chemicals dependent on the fabric length passing through the dye
bath
7. Addition pressure pump for shading corrections and dosing
8. On the HT-Jigger dosing under pressure possible
9. External pump and heat exchanger ensure uniform liquor heating and circulation
10. Sidewise displacement of the main batch roller
11. Analogue level for dyeing kier
12. Floor level track system*
13. Easy maintenance
10. Fig: Schematic diagram of Jigger dyeing machine
High-temperature High-pressure Auto jigger dyeing Machine
This machine is for the jig dyeing at high temperature and high pressure conditions of all
types of thick, thin fabrics, Terylene, chemical fiber and real silk fabrics. Under normal
temperature and pressure conditions, it can replace common jigs to dye all types of natural
silk, rayon and polyamide fiber. The machine is reasonably structured, with good safety and
capacity, easy to maintain.
Major Technical Parameters
Roller diameter 219mm
Max. Rolling width 1800mm
Max. Rolling diameter 680mm
Working speed 40-110m/min
Max. Pressure 0.28MPa
Max. Temperature 140
Limitations of JiggerDyeing
1. Jigs exert considerable lengthwise tension on the fabric and are more suitable for the dyeing of
woven than knitted fabrics.
2. In textile preparation due to the swelling and dissolution of size, this makes the fabric slippery and
unstable in roll form.
3. The low liquor ratio makes washing-off difficult.
4. There is little mechanical action in a jig machine and it is less suitable where vigorous scouring is
required before dying.
5. Moir effects or water marks may arise on some acetate and nylon fabrics because of pressure
flattening the structure of the rolled fabric.
11. Winch Dyeing Machine
Winch dyeing machines comes with the lucrative options of low cost design, simplicity in
operation and maintenance yet uncompromising features when it comes to versatility.
Mostly woolen fabrics are dyed by using Winch Dyeing machine. The dyeing machine
derives its name "Winch" as the fabric rope gets circulated in the machine by way of a
mechanical action of a horizontal rotor or reel, called as a winch or sometimes winces. The
cross-section of the winch rotor may be circular or elliptical.
As shown in the diagram below, the winch dyeing machine has a front compartment; a
perforated partition separates it from the main dyeing chamber. It is this front compartment
where dyestuff and dyeing auxiliary additions are made. Gradually they move to main dyeing
vessel from there. The process works like this first a series of fabric ropes are immersed in
the dye bath. This fabric ropes must be of equal lengths. A part of each rope is then taken
over two reels or over the winch itself. In the subsequent course of dyeing operation a rope of
fabric is circulated through the dye bath and the winch. The dyestuff and auxiliaries are dosed
manually or automatically according to the recipe method.
Features:
- Width the wide soft nozzle. It plans a soft the hazard which gets a soft process wide and soft
nozzle system especially.
Air parts system(the selective evening sunlight): It is tied with the system which pours an
air in the knit fabric which has not become dog width, the back which is entangled it prevents
and also the quality improves.
The work characteristic which excels: The mechanical structure is simplicity the excellent
work and irrigation to be easy and the American expert the work is possible.
Width wide application : Reel [li] and other it will come, Oh, the wool, the cotton and the
pulley Oh America [tu], the acryl, the viscose and the pulley nose the product back which
sprouts dyeing, bleaching and washing the product which is various are possible with the bell.
Performance Mechanism: Wide and soft nozzle. The special designed wide
12. soft flow nozzle system with high liquor flow to achieve the soft and smooth
process.
Air ballooning system(Option): Air ballooning device which are to be shoot
air in the tubular type knitted fabrics so that fabric can be dye at any
condition.
Excellent Workability: The compact structure of machine provides easy
operation and maintenance and even the unskilled.
Wide Application: The machine provides multi-purpose of dyeing and bleaching
and washing for terry towel, velour, wool, cotton, polyamide, acrylic and
viscose and poly/cotton brand and so on.
Technical Characteristics:
Capacity (kg): 400 ~ 450
Electric power: 18kw
Max temp: 98 °C
Number of nozzle: 4
Beam Dyeing Machine
The beam dyeing machine operates with the same principle as that of package dyeing
machine. It can be effectively used to dye yarn or fabric. The process works like this, fabric
or yarn in open width is rolled on to a perforated beam. The beam then subsequently slid into
a vessel that is closed and pressurized. The color impregnates the fabric as the dye liquor is
allowed to go on circulating through the perforations in the beam. Usually the beam machines
are designed in such a manner so as to hold a single beam or multiple beams in a batch.
Features of Beam dyeing Machine
Able to adjust water level in accordance to fabric volume.
Even dyeing and superior dyeing quality.
Optimized circulation system along with high performance pumps.
Advantages of a Beam Dyeing Machine
13. The fabric is put under controlled tension, and is wound on to a perforated beam. This
results in elimination of creases from the fabric. It also ensures total control of
dimensions of the roll of fabric.
The fabric is not allowed to do any movement during the process of dyeing. This
actually means that there is no application of mechanical action on to the fabric.
Fig. Beam Dyeing Machine
Technical Specification of the featured model
Loading Cap: 100 kg
Electric wattage: 22Kw
Maximum Operating Pressure: 5kgf/cm2g
Maximum Operating Temperature: 158°C
DYEING PROCESS OF COTTON FABRIC WITH REACTIVE DYES
Dyeing process is the process of giving of colour at textile material equally (uniformly).
In principle mechanism of dyeing process consists of 3 steps:
1. Migration dyestuff towards fibre.
2. Adsorption molecule dyestuff at surface of fibre.
3. Diffusion dyestuff from surface of fibre to fibre interior.
To get good result hence there are 6 important thing which must be taken care of :
1. Hardness of water
2. Chemicals balance (dyes, auxiliaries, salt, alkali)
3. Liquor Ratio (comparison of water with fabric weight)
4. pH dye solution (beginning of process and phase process of fixation )
14. 5. Dyeing temperature
6. Dyeing time
100% cotton fabric can be dyed with following types of dyes:
- Reactive Dyes
- Direct Dyes
- Sulphuric Dyes
- Vat Dyes
- Pigment Dyes
Among some of the above dyes, reactive dye is most applied at 100% cotton fabric good in
the form of knitted fabric or woven fabric.
Reactive dye is applied for following reasons:
1. Simple dyeing process.
2. Choice of more colours available
3. Good colour resilience
Basedon its reactivity, reactive dyes are divided into 2 types, that is:
1. Hot reactive dyes
Reactive dyes which have low reactivity
2. Cool reactive dyes
Reactive dyes which have high reactivity
Reactive Dyes are applied to for following reasons:
- Good dye condensation
- Good colour resilience
- Dyeing at hot temperature so that penetrating of dye into fibre is better
- Have good levelness of dyeing result
- Have choice of complete colour
- Easier process control
15. - Very suited for mercerized cotton cloth
- Generally resistant to process “ post bleach ”
Principle
In principle process of dyeing 100% cotton knitted fabric with reactive dye is with circulation
material textile with dye solution and some auxiliaries, with certain concentration, certain
time and certain temperature applies of dyeing machine.
PROCESS OF DYEING WITH HE TYPE REACTIVE DYES WITH EXHAUST
DYEING SYSTEM
1. METHOD SALT ADDITION STEP BY STEP: This method is suited for all dyeing
colours and for machine in which dyeing solution do not have circulation, for example Winch
machine.
2. METHOD ADDITION SALT IN THE BEGINNING OF PROCESS (SALT-AT-START):
This method is more compatibly applied for dyeing colour from medium to depth colour and
for machine with dyeing solution circulation and it’s the textile material, the example jet
dyeing machine, jet flow machine.
Example of dyeing recipe for red colour:
- Reactive Orange HER 2.0 %
- Reactive Red HE-7B 1.5 %
- Glauber salt 70 g/l
- Soda Ash 20 g/l
- Dispersing-sequestering agent 1 – 2 g/l
- Anti crease mark agent 1 – 2 g/l
- Anti foam agent 1 g/l
Liquor Ratio 1: 10
Temperature 80 0C
The time 60 minute
Jet dyeing machine
Auxiliaries and its function
1. SALT (GLAUBER SALT / SULPHATE SODIUM / Na2SO4)
Function to increase absorption of reactive dye into fibre
16. 2. ASH SODA (CARBONATE SODIUM / Na2CO3)P: Function to react dye with fibre
(fixation)
3. DISPERSING-SEQUESTERING
Functions to tie metal ion (iron, calcium, copper, magnesium and other) which is in the
dyeing solution be so that got by colour better dyeing result. Besides functioning to increase
reactive dye solution in high rate electrolyte.
4. ANTI CREASE MARK AGENT
Functions to prevent incidence of crease-mark / rope mark ( piebald of fold ) during process
of dyeing takes running.
5. ANTIFOAM AGENT
Functions to eliminate foam arising during dyeing process because it can cause piebald
dyeing colour and colour scraggly. Foam arises from water circulation and material which
quickly by, also from auxiliaries which can generate foam. Too much foam can result in
machine stuck.
WASHING PROCESS
There are 4 phase process of wash which is done after dyeing process :
1. Hot rinsing before soaping process
- Eliminate or drop concentration of salt and alkali as many as possible
- Avoid from the happening of precipitation of reactive dye
- Eliminate the happening of wrinkling line at fabric as result of degradation
of dyeing temperature solution which would throw.
2. Soaping: Eliminate reactive dye pickings which is hydrolysis by nit and is not
Fixation / reacts with fibre
- Increase power reactive dye diffusion to exit from surface of fibre
3. Hot rinsing after soaping.
- Help to prevents reactive dye pickings to return to surface of fabric ( back staining )
Phase of washing process for light colour fabric, medium colour and deep of colour
A. LIGHT COLOUR (dyes < 1%, concentration of salt < 30 g/l )
- Hot rinsing (70 0C, 10 minutes)
- Soaping (95 0C, 10 minutes)
17. - Hot rinsing (70 0C, 10 minutes)
- Cold rinsing (30 0C, 10 minutes), overflow
B. MEDIUM COLOUR (dyes 1 – 4 %, concentration of salt 30 – 60 g/l )
- Hot rinsing (70 0C, 10 minutes)
- Hot rinsing (70 0C, 10 minutes)
- Soaping (95 0C, 10 minutes)
- Hot rinsing (70 0C, 10 minutes)
- Hot rinsing (70 0C, 10 minutes)
- Cold rinsing (30 0C, 10 minutes), overflow
C. DEEP OF COLOUR (dyes > 4%, concentration of salt > 70 g/l)
- Hot rinsing (70 0C, 10 minutes)
- Hot rinsing (70 0C, 10 minutes)
- Soaping (95 0C, 10 minutes)
- Soaping (95 0C, 10 minutes)
- Hot rinsing (70 0C, 10 minutes)
- Cold rinsing (30 0C, 10 minutes), overflow
- Fixing process
FIXING PROCESS: For medium colour and deep colour the process fixing by using of fixing
agent. Fixing agent functions for :
1. Strengthen strong tying dye with fabric fibre.
2. Increase resilience cleans fabric.
Process of workmanship with fixing agent:
- Fixing agent 1 – 2 % (medium colour) or 2 – 3 % (deep colour)
- pH 5
- Temperature 50 – 60 0C
- Time 20 minutes
After completing in cold rinsing then dried.