Supercritical Fluid (SCF) | Supercritical Fluid Dyeing | Advantages ofSupercritical Fluid Dyeing

Supercritical Fluid (SCF)

Supercritical fluid is one kind of fluid which is highly compressed gases which combine properties of gases and liquids in an intriguing manner.It is a substance which can be either liquid or gas, used in a state above the critical temperature and critical pressure where gases and liquids can coexist. It shows unique properties that are different from those of either gases or liquids under standard conditions.A supercritical fluid has both the gaseous property of being able to penetrate anything, and the liquid property of being able to dissolve materials into their components.

Supercritical Fluid Dyeing
In textile industry water is the usual medium for dyeing and cleaning. This is the reason why textile industry is one of the biggest consumer of water in all industries. Textile refining processes without using water have to be applied because costs of water and waste water are increasing more and more, the legislator fixes more rigorous limit values for the sewage load and also the water resources become more and more limited in several areas.

Supercritical Fluid graph

In cooperation with the DTNW (German textile research centre Northwest) Uhde has developed a textiles-refining process which is uncoupled completely from the water cycle. Therefore the new, ecologically sensible ways which are enough, moreover, also for the highest quality requirements are opened to the dyeing by textiles.

Advantages of Supercritical Fluid Dyeing
This relatively new and innovative process offers unbeatable advantages compared to conventional dyeing.

1. Qualitatively equivalent, partially better dyeing result
2. No damage of the fibre
3. Significantly shortened process and dyeing times
4. Low dye and chemicals consumption
5. No water consumption
6. No reductive post laundry necessary
7. CO2 is easily recyclable
8. No drying process and therefore no drying devices necessary
9. CO2 is innocuous and ecologically friendly
10. Energy savings - by the short process times, the lower heat capacity of the CO2 compared with water and no need for drying of the material after the dyeing.

The Dyeing Process
The textiles to be dyed are wrapped on a dyeing beam to achieve an equal dyeing result. The dyeing beam is placed in the dyeing autoclave C and the dyestuff is filled into the receiver D2. The pressure vessels are closed and is CO2led in several steps through the plant.

1. Pretreatment
In the first step the textiles are cleaned from pollutions and sticking auxiliary materials from the production because the rests of wax, oils and other hydrophobic substances can disturb the dyeing process. With the pressurization pump P1 liquid CO2 from the buffer tank D1 is compressed to supercritical pressure and heated up in the heat exchanger E1 to supercritical temperature. The supercritical CO2 flows through the textiles in the dyeing autoclave C and, besides, solves carefully all sticking pollutions from the fibres. The loaded CO2 flows via a expansion valve and becomes by the pressure decrease gaseous. Thereby the solution power is reduced and the extracted pollutions precipitate and are collected in the separator S. Afterwards the cleaned CO2 is liquefied in the condenser E3 and is led via the buffer vessel D1 back into the circulation.

2. Dyeing
After the pre-treatment the actual dyeing process begins by switching of the dyestuff receiver D2 into the CO2circulation. The supercritical CO2 solves the dyestuff in the dyestuff receiver and flows through the dyeing autoclave C. The CO2 loaded with dyestuff is delivered through the textiles and the dyestuff is adsorbed in the fibres. After the dyeing autoclave the CO2 flows through a filter to the circulating pump P2 and afterwards is fortified in the dyestuff receiver with fresh dyestuff and is led as long as in the circulation, until the desired dyeing intensity of the textiles is achieved.

3. After Treatment
After finishing the dyeing step the CO2 circuit and dyed Material are cleaned from excess dyestuff. Therefore the dyestuff receiver is taken out of the CO2 circuit and the loaded CO2 is expanded via the expansion valve into the separator. The excess dyestuff precipitates fall out and is collected in the separator. The CO2 is circulated as long as the plant and the textiles is cleaned from the excess dyestuff leftovers.

After finishing the complete dyeing process the CO2 circulation is stopped and the dyeing autoclave is depressurized to atmospheric conditions. The dyed textiles are taken out of the autoclave.

Feed of the Arm Sewing Machine | Study on Feed of the Arm SewingMachine and Production of Sample

Name of the Experiment: Study on Feed of the Arm sewing machine and production of Sample.

Introduction:
There are many types of sewing machines. Some are used for special purposes such as Feed of the Arm machine, Industrial Overlock machine etc. This type of machine works with continuous sewing and so they are called automatic machine. Here we study on such a type of machine that is Feed of the Arm sewing machine.

Objectives:
1. To know about the machine parts.
2. To sketch the thread path.
3. To produce a sample.

Specification:

• Brand  : JUKI
• Model  : MFD 47605U
• Type  : Flat bed.
• Group  : Chain stitch
• Needle no  : 2 
• Needle name  : EYX128 
• Needle size  : 9, 11, 14, 16, 18, 20 & 21 
• SPM  : 3000-3200 
• TPI  : 15-20 

Main Adjustment Points:
1. Thread.
2. Tensioner.
3. Needle.
4. Pressure feed.
5. Stitch density.
6. Looper.

Different parts:
1. Thread stands 

2. Thread guides
3. Disc type tensioner 

4. Pressure feed lever
5. Thread take-up lever 

6. Needle
7. Looper

Description:
This machine may be of flat bed type. In our lab 31 no. machine is Feed of the Arm machine. In this machine 2 needle, 2 loopers may also be used & sewing may be done using from 4 threads. Sewing with Feed of the Arm machine, 1 inch cloth up to16 inches thread is needed. The SPM of this type of machine is usually 3000 and 8-16 stitches may be done per inch. It is a very expensive machine and is used for mainly sewing Jeans, Grabidding goods & Double stitching pants.

Conclusion:
This type of machine can not be used for normal purpose. But for making a complete garment their importance can not be denied. Special care and sufficient knowledge is necessary for proper working. Otherwise faulty sewing may be done. I would like to give special thanks to our teacher. I am also grateful to our instructors. I think this will be very helpful in my future life.

Flat Lock Sewing Machine

Experiment name: Study on flat lock sewing machine and production of sample.

Introduction: 

There are many types of sewing machines. Some are used for special purposes such as bar tack machine, button hole machine etc. This type of machine works in a cycle and so they are called simple automatic machine. Here we study on such a type of machine that is flat lock sewing machine.

Objectives:
1.To know about the machine parts.
2.To sketch the thread path.

Specification:

• Brand  : JUKI
• Model  : MFD 47605U
• Type  : Flat or Cylinder bed
• Group  : Chain stitch
• Needle no  : 3 
• Needle name: UY-128 
• Needle size: 9, 11, 14, 16, 18, 20 & 21 
• SPM  : 2500-6000 
• TPI  : 25-35 

Adjustment  : Thread, tension, needle, pressure feed, stitch density, looper etc.

Function  : Sewing all types of knitted cloth.

Different parts:

1. Thread stand
2. Thread guides
3. Disc type tensioner
4. Pressure feed lever
5. Thread take-up lever
6. Needle
7. Looper

Description: 

This machine may be of flat bed or cylinder bed type. In our lab 21, 22 nos. machines are flat bed and 32 no. machine is cylinder bed type. Flat bed is used for sewing body cloth and cylinder bed is used for sleeve cloth. In this machine 4 needles may also be used and sewing may be done using from 4 to 9 threads. Sewing with flat lock machine the most quantity thread is needed. For example for sewing 1 inch cloth up to 32 inches thread is needed. The SPM of this type of machine is usually 6000 and 8-16 stitches may be done per inch. It is a very expensive machine and is used for mainly sewing knitted goods but also used for making woven cloth.

Conclusion: 

This type of machine can not be used for normal purpose. But for making a complete garment their importance can not be denied. Special care and sufficient knowledge is necessary for proper working. Otherwise faulty sewing may be done. I would like to give special thanks to our teacher. I am also grateful to our instructors. I think this will be very helpful in my future life.

Industrial Button Hole Machine | Specification of Button Hole Machine

Name of the Experiment: Study of Industrial Button Hole machine.

Introduction:
There are many types of sewing machine. Some are used for special purposes such as Button Attaching machine, Bar tack machine etc. This type of machines works in a cycle and so these are called simple automatic machine. Here we study on a type of machine that is Button hole machine.

Objectives:
1. To know about the machine parts.
2. To know about the thread path.
3. To draw the thread path diagram of button holing machine.
4. To know different parts of button holing machine.
5. To know the working principle of button holing machine.
6. To know the types of needle, its no, size, SPM, group, TPI of the machine.
7. To know about the button holing machine.

Specification:
Brand  : JUKI
Model  : LBH/781
Group  : Lock stitch
Needle use  : DPX5
Needle size  : 9, 11, 14, 16, 18, 20 & 21
SPM  : 3000-3600
TPH  : 6-7 inch
Pressure  : 123

Different parts:
1. Bobbin winding 
2. Bobbin winding spring tensioner 
3. Back stitch lever
4. Driver wheel
5. Driven wheel
6. Spring tensioner post box 
7. Thread guide 
8. Knife lever  9.Thread take-up lever

10.Needle

11.Knife

12.Wiper

13.Pressure feed guide 

14.Throat plate

15.Bobbin

16.Bobbin case

Main Adjustment Points:
1. Thread. 

2. Tensioner. 

3. Needle.
4. Pressure feed. 

5. Stitch density. 

6. Looper.

Description:
This machine works in cyclic system i.e. during pressing switch after sewing one complete button hole the machine will stop. In fully automatic button hole m/c more than one i.e. pre-selected no. of button holes can be sewn in pre-selected distance. In this system no mark is needed on cloth for button hole. In button hole m/c there is system to make big or small button hole and also to increase or decrease the stitch density. Usually lock stitch or chain stitch is used here. Button hole can be made before or after sewing. Both system has some advantage and disadvantage. If hole is made before then the cut edge is closed in sewing and the button hole is seen very good and clean. But the disadvantage is that after starting sewing there is no chance to change the button hole place & cut edge disturbs to sew well due to flagging. But disadvantage is thread of cloth is come out along the sewing line of button hole that looks very bad. Usually for dense woven & coarse cloth before sewing, for thin cloth after sewing button hole is made.

Fig: Industrial Button Hole machine.

Where,
A=Cone package
B=Guide
C=Guide
D=Spring box tensioner
E=Guide
F=Guide
G=Tensioner
H=Thread cutting ever
I=Take up lever
J=Trimming lever
K=Guide
L=Guide
M=Throat plate
N=Cutting knife
 
Use:
To make button hole in different apparels.

Conclusion:
This type of machine can not be used for normal purpose. But for making a complete garment their importance can not be denied. Special care and sufficient knowledge is necessary for proper working. Otherwise faulty sewing may be done. I would like to give special thanks to our teacher. I am also grateful to our instructors. I think this will be very helpful in my future life.

Button Attaching Machine | Study of Button Attaching Machine andProduction of Sample

Experiment name: Study of Button attaching machine and production of sample.

Introduction: 

There are many types of sewing machine. Some are used for special purposes such as bar tack machine, button hole making machine etc. This type of machines works in a cycle and so these are called simple automatic machine. Here we study on such a type of machine that is button attaching machine.

Objectives:
1.To know about the machine parts.
2.To know about the thread path.

Specification:
Brand: JUKI
Model: MB-377
Group: Chain stitch
Needle no: 1
Needle use: TQX1
Needle size: 9, 11, 14, 16, 18, 20 & 21
SPM: 1200-1500
TPI: Per pressure 64
Adjustment: Thread, tension, needle & button

Different parts:
1.Thread stand
2.Thread guide 
3.Disc type tensioner 
4.Thread guides  5.Thread take-up lever

6.Thread guide

7.Needle

8.Clamp

Description:
There are different types of button attaching m/c and different types of clamps are needed for different types and sizes of buttons. Especially there may two or three holes in the button. Again button of three holes may be attached by parallel or cross sewing. Buttons may be of different types specially there may be shank below the button or during sewing shank may be made by thread. For sewing button lock stitch, chain stitch or hand stitch machine may be used. When using chain stitch the sewing looks neat below the button but the safety of stitch is low that is the button may be fall out opening the sewing. This will not happen when used lock stitch but it is not as neat as chain stitch. In automatic machine by a hopper and pipe button is fed in button clamp in auto system and button is positioned. Moreover a predetermined number buttons can be attached in a cycle in a predetermined distant in a dress.

Conclusion:
This type of machine can not be used for normal purpose. But for making a complete garment their importance can not be denied. Special care and sufficient knowledge is necessary for proper working. Otherwise faulty sewing may be done. I would like to give special thanks to our teacher. I am also grateful to our instructors. I think this will be very helpful in my future life.

Blind Stitch Sewing Machine | Study on Blind Stitch Sewing Machine andProduction Sample

Name of the Experiment: Study on Blind Stitch sewing machine and production sample.

Introduction:
For the clothing industry there is a great diversity of regular and special machines for sewing every conceivable type of garment and it is this variety which enables clothing manufacturing to employ specialized equipment for their own particular requirement. These sewing machines are used for sewing fabrics and garments, leather goods, sacks, tents; bags etc. There are many types of sewing machines. Some are used for special purposes such as Chain Stitch machine, Flat Lock machine, Feed of the Arm machine etc, this type of machines works with continuous sewing and so these are called automatic machine. Here we study on a type of machine that is Blind Stitch sewing machine.

Objectives:

1. To know about the machine parts.
2. To sketch the thread path.
3. To know about sewing mechanism of blind stitch sewing machine.
4. To know the working principle of blind stitch machine.
5. To know the types of needle, its no, size, SPM, group, TPI of the machine.

Machine Specification:

• Name  : Industrial blind stitch machine.
• Brand  : Brother
• Model  : CM3-B938 
• Group  : Chain stitch
• Needle no  : 1 
• Needle name  : LW´6T
• Needle size  : 9, 11, 14, 16, 18, 20 & 21 
• SPM  : 2500-3000 
• TPI  : 3-4 inch Sample

Function: Attaching hemming & facing.

Different parts:
1. Thread stand

2. Pressure feed lever 

3. Skip stitch device

4. Thread guides

5. Thread take-up lever 

6. Stitch length adjustment 7. Disc type tensioner
8. Needle Looper

Adjustment point:
1. Thread 

2. Tension 

3. Needle
4. Pressure feed 

5. Stitch density 

6. Looper.

Description:
The stitch produced by this machine in the fabric is not shown from face side and so this is called blind stitch machine. Usually curved needle is used in this machine as it can penetrate in the fabric partially. The needle comes out from the side of the fabric through which it penetrated. Again in maximum blind stitch machine optional skip device is attested by which it is possible to penetrate the outside layer after one or two stitch. The speed of this type of machine is up to 2500 SPM and the stitch length can be 3 to 8 mm long. Usually one thread is used to make the stitch but two threads may also be used. In case of two threads blind stitch, it is safe from opening. Mainly for attaching hemming or facing this machine is used.

Fig: Blind Stitch sewing machine 

Conclusion:
Blind stitch machine is one of the important sewing machines in garment factory of making a complete garment. This type of machine cannot be used for normal purpose. But for making a complete garment their importance cannot be denied. Special care and sufficient knowledge is necessary for proper working. Otherwise faulty sewing may be done. By this practical we learn about the different parts, thread path and blind stitch sewing system in a practical manner. I would like to give special thanks to our teacher. I am also grateful to our instructors. 

Thread Path | Industrial Over Lock Machine | Study of Thread Path, MainAdjustment Points of Different Industrial Over Lock Machine andProduction of Sample

Experiment name: Study of thread path, main adjustment points of different industrial over lock machine and production of sample.

Introduction: 

There are many types of sewing machine. Some are used for special purposes such as bar tack machine, button hole making machine etc. This type of machines works in a cycle and so these are called simple automatic machine. Here we study on such a type of machine that is button attaching machine.

Objectives:
1.To know about the machine parts.
2.To know about the thread path.

Specification:
Name  : Industrial overlock m/c.
Types  : 3, 4 & 5 threads
Brand  : JUKI
Model  : MO-3614 (4 thread)
SPM  : 6500-8500
TPI  : 15-16 (3), 17-18 (4) & 21-22 (5)
Needle no  : 1 needle, 2 loopers (3); 2 needles, 2 loopers (4) & 2 needles, 3 loopers (5)
Needle name  : DCX1
Needle size  : 9, 11, 14, 16, 18, 20 & 21

Main parts:
1.Thread stand 

2.Thread package
3.Thread guide 

4.Disc type tensioner
5.Thread guides 

6.Needles
7.Loopers 

8.Thread cutter

Description:
Mainly over edge machines are overlock machines. In this type of sewing machines there are one or two needles and edge-trimming knife is at the front of needle. To make over lock stitch 2-5 threads are used. Usually SPM of over lock machine is 6500. But SPM of 8500 machines are also found. In this machine there also stretching (stretching max

1: 0.6) and gathering (gathering max 1: 4) systems during feeding cloth. Stitch is done up to maximum 4 mm length and stitch length may also be changed by push button. This type of machines can be used for sewing for both woven and knitted cloths.

Conclusion:
This type of machine can not be used for normal purpose. But for making a complete garment their importance can not be denied. Special care and sufficient knowledge is necessary for proper working. Otherwise faulty sewing may be done. I would like to give special thanks to our teacher. I am also grateful to our instructors. I think this will be very helpful in my future life.