Wednesday 26 December 2012

Dyeing of Silk with Acid Dyes



This is as per a brochure from CSTRI ( Central Silk Board)

Receipe

M:L- 1:30
Dye- X% on the weight of the material
Glauber Salt- 10% on the weight of the material.
Acetic Acid- 4-6% ( 40% strength)
Temperature: 85-90 deg C, pH-4-6, Time- 15 minutes

Procedure

- Preparation of dye solution: Dissolve required dye powder in boiling water in a separate beaker/vessel.
- Set the dye bath with required quantity of water.
- Add Glauber Salt
- Add dye solution.
- Enter the presoaked material at 40 deg C. Work for 10 minutes.
- Take out the material.
- Add acetic acid and stir well.
- Enter the material.
- Gradually raise the temperature to 85-90 deg C.
- Work for 35-40 minutes
- Take out the material followed by cold wash.
- Removal of excess water by using hydro extractor.
- Dyeing under shade.

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Wednesday 19 December 2012

Bleaching and Optical Brightening of Silk



This is as per a brochure from CSTRI ( Central Silk Board)

Bleaching Receipe

M:L- 1:30
Soda Ash- 0.5 GPL or 1% on the weight of the material.
Sodium Silicate- 1.5 GPL
Hydrogen Peroxide- 20 MI/Lit
Temperature- 80 deg C, Time- 60 to 90 Min, pH-9

Procedure
-Take required quantity of water.
-Dissolve soda ash and sodium silicate
- Enter the material at 40 deg C
- Work for 5 min.
- Take out the material and add Hydrogen Peroxide
- Raise the temperature to 80 deg C
-Work for 60-90 min followed by cold wash.
- Removal of excess water by using hydro extractor.

Optical Whitening Receipe

M:L- 1:30
Ranipal WHN-3% on the weight of the material
Hydrose- 2 GPL
Temperature- 60-70 Deg C, Time-15 min, pH-9

Procedure

- Take required quantity of water.
- Add Ranipal WHN and hydrose ( Dissolve Ranipal in hot water)
- Enter the material at 40 deg C.
- Raise the temperature to 60-70 deg C
- Work for 15 minutes followed by cold wash.
- Removal of excess water by using hydro extractor.
- Drying under shade.

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Wednesday 12 December 2012

Degumming of Silk



This is as per a brochure from CSTRI ( Central Silk Board)

Receipe

M:L- 1:30
Soap- 5 GPL or 15% on the weight of the material.
Soda Ash- 1 GPL or 3% on the weight of the material
Temperature- 90-95 deg C., Time- 30 to 45 minutes, pH- 9.5 to 10.5

Methods/Procedure

- Dissolve soap and soda in the required amount of water.
- Enter the material at 40 deg C
- Raise the temperature to 90-95 deg C
- Work for 30-45 minutes
- Take out the material and hot wash for 10 minutes for 60 to 70 deg C.
- Followed by cold wash.
- Removal of water by using hydroextractor.
- Drying under Shade.

Single Bath Degumming and Bleaching

Receipe

M:L- 1:30
Soap- 5 GPL or 15% on the weight of the material.
Soda Ash- 0.5 GPL or 1% on the weight of the material.
Sodium Silicate- 1.5 GPL
Hydrogen Peroxide- 20 MI/Lit
Temperature - 85-90 deg C, Time- 60 to90 min., pH- 10

Procedure

- Take required quantity of water.
- Dissolve Soap, Soda Ash and Sodium Silicate
- Enter the material at 40 Deg C
- Work for 5 minutes
- Take out the material and add hydrogen peroxide.
- Raise the temperature to 85-90 deg C
- Work for 60 to 90 minutes followed by hot wash and cold wash.
- Removal of excess water by using hydro extractor.
- Drying in Shade

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Wednesday 5 December 2012

Dyeing of Silk with Reactive Dyes



This is as per a brochure from CSTRI ( Central Silk Board Bangalore)

Receipe

M:L- 1:30
Dye: X% on the weight of material.
Glauber Salt- 20% of the weight of material ( 1st Stage)
Glauber Salt- 20% of the weight of material (2nd Stage)
Soda Ash- 5% of the weight of material ( 1st Stage)
Soda Ash- 5% on the weight of material (2nd Stage)
Temperature ( Cold Brand)- 50 deg C
Temperature ( Hot Brand) - 60 deg C
pH-9,  Time: 65-75 minutes

 Procedure

Preparation of dye solution:

Dissolve required dye powder in boiling water in a separate beaker/vessel.

Set the dye bath with required quantity of water.
Add dye solution and add 20% Glauber salt and 5% soda ash at 1st stage.
Enter the material and work for 10 minutes.
Add 20% glauber salt and 5% sold ash at 2nd stage and work for 20 minutes.
For Cold brand reactive dyes, work for 45 minutes at 50 deg.
For hot brand reactive dyes, work for 45 minutes at 60 deg.
Take out the material followed by cold wash.
Remove excess water by using hydro extractor.
Dry under shade.


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Tuesday 4 December 2012

Chemicals used in Textile Processing-2



1. Bleaching Powder

It is hypochlorite of calcium and sodium. Bleaching powder on treatment with small quantities of dilute acid liberates hyopchlorous acid, whcih can easliy furnish nascent oxygen and thus acts as an oxidizing and bleaching agent. It is used for the following purposes:

1. As an oxidising agent in garment processing
2. For bleaching cotton, linen and wool.
3. In rendering wool unshrinkable.

2. Hydrogen Peroxide, H2O2

Hydrogen peroxide is a colorless, odorless, syrupy liquid in the anhydrous state. It is a powerful oxidizing agent. It destroys the color of some organic compounds and is used in garment and textile industry for bleaching delicate fabrics like wool, straw and silk.

3. Potassium Chlorate KClO3

Potassium chlorate is a white crystalline solid, which is soluble in water. On heating it decomposes to give oxygen. The ease with which it can lose oxygen, it acts as a strong oxidizing agent. It is used for garment printing.

4. Potassium Chromate

Potassium chromate is available in the form of lemon yellow crystals with no water of crystallization. In garment industry it is used as a mordant.

5. Potassium Dichromate

It is available in the form of orange red crystals. It is soluble in water. In neutral or acidic solution, potassium dichromate furnishes nascent oxygen and thus acts as an excellent oxidizing agent. It is used in garment industry as an oxidizing agent and as mordant in dyeing.

6. Potassium Permanganate

It acts as a powerful oxidising agent in neutral, alkaline or acidic solution and hence used in the garment industry as an oxidising agent.

7. Sodium Perborate

Sodium perborate is mainly used as a bleaching agent for a variety of fabrics namely wool, cotton, rayon, linen etc. It is also used as an oxidising agent and dye fixing agent.

8. Sodium Hypochlorite

Sodium hypochlorite liberates hypochlorous acid and thus acts as a powerful oxidizing and bleaching agent. It is used in textile and garment industry for bleaching process.

9. Sodium Bisulfite, NaHSO3

An aqueous solution of sodium bisulfite is obtained when an aqueous solution of sodium carbonate is saturated with sulphurdioxide. It is an important reducing agent and is used as an antichlor after bleaching garments with chlorine.

10. Sodium Hydrosulfite

It is used as reducing and bleaching agent in garment and textile industry.

11. Sodium Metabisulfite

On heating, it decomposes into sodium bisulfite and sulfur dioxide and hence it is an important reducing agent. It is used as an antichlor after bleaching garments with chlorine.

12. Sodium Sulfite

It forms colorless crystals very soluble in water. It is decomposed by dilute mineral acids with the evolution of sulfur dioxide. It is used as mild bleaching agent for silk and woollen fabrics and as an antichlor after chlorine bleach.

13. Sodium Sulfide

Its aqueous solution shows and alkaline reaction due to hydrolysis. It is used for manufacture of sulfur dyes and as reducing agent in garment industry.

14. Sodium Sulfoxylate Formaldehyde

It is also known as Rongalite C. It is a powerful reducing agent and exerts its full reducing action only at high temperatures. It finds extensive application in garment and textile industry for printing and stripping dyed fabric prior to re-dyeing.

15. Sodium Thiosulfate

It is also know as hypo. It is a colorless, crystalline and efflorescent substance. It is used as an antichlor after bleaching garments with chlorine.

16. Stannous Chloride: It is used as mordant in garment dyeing and printing.

17. Dextrin

It is a modified starch prepared by heat treatment of starch in the dry state, with or without the addition of small quantities of chemicals. It is a white powder, and finds extensive use as sizing and finishing agent.

18 Glucose

It acts as a strong and cheap reducing agent in garment industry.


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Monday 3 December 2012

Chemicals used in Textile Processing-1






1. Acetic Acid

Acetic acid is a colorless and corrosive liquid with pungent smell of its own. It is miscible with water, alcohol and ether in all proportions. Acetic acid is used in garment industry for dyeing purposes.

2. Citric Acid

Citric acid is in the form of colorless, translucent crystals or a white granular to fine crystalline powder. It is used as sequestering agent, as mordanting agent in dyeing and cleansing agent for boiler water.

3. Formic Acid

Formic acid is a colorless and pungent smelling mobile liquid. It is miscible with water, alcohol and ether in all proportions. It acts both as an acid and as reducing agent due to presence of both carboxylic and aldehyde group. Formic acid is used in dyeing wool and cotton fabrics.

4. Hydrochloric Acid, HCl

Hydrochloric acid gas is a colorless, pungent smelling gas with acidic taste. It fumes in moist air and is extremely soluble in water.

5. Nitric Acid, HNO3

Nitric acid is a colorless fuming liquid when pure but may be colored yellow due to its dissociation products mainly nitrogen dioxide. It is a strong acid and acts as a powerful oxidizing agent. Nitric acid is used in the manufacture of dyes.

6. Oxalic Acid, HOOC.COOH.2H2O

Oxalic is a colorless, crystalline solid with two molecules of water of crystallization. Oxalic acid is used in garment and textile industry for the removal of ink stains from cloths and bleaching of straw for hats. Its antimony salts are used as mordant for dyeing and printing.

7. Liquid Ammonia, NH4OH

Ammonia is a colorless gas with characteristic pungent odor and an alkaline taste. It is used as a cleansing agent for removing grease in dry cleaning.

8. Caustic Soda ( Sodium Hydroxide), NaOH

Caustic soda is a deliquescent white crystalline solid, which readily absorbs moisture and carbon dioxide from the atmosphere. It is used for mercerizing cotton.

9. Soda Ash ( Washing Soda), Na2CO3

Sodium carbonate is a white crystalline solid containing water of crystallization. It is used in laundry as washing soda. It is also used for softening water.

10. Sodium Bicarbonate ( Baking Soda), NaHCO3

Sodium bicarbonate is available in the form of white crystals, sparingly soluble in water. It is alkaline in nature.

11. Sodium Silicate 

Liquid alkaline Sodium silicate is mostly used in garment industry as a fixing agent and for rendering the garments fire proof.

12. Trisodium Phosphate, Na3PO4

It is a white crystalline solid soluble in water. It is used as detergent in garment processing.

13. Common Salt

It is used as to exhaust dyeing with direct and reactive dyes.

14. Diammonium Hydrogen Phosphate

It is used in printing paste as an acid liberating agent.

14. Glauber Salt, Na2SO4.10H2O

It is used in dyestuff, textile and garment industry. In textile and garment industry, it is added to the dye bath for cotton fabrics to promote dye exhaustion.

15. Magnesium Chloride

It is a colorless, crystalline deliquescent substance soluble in water. It is used in textile and garment industry for sizing, dressing and filling of cotton and woollen fabrics, for thread lubrication or carbonization of wool.

16. Tatar- Emetic

Potassium Antimonyl Tartarateis known as Tartar-emetic. It is used as mordant in large quantities in garment and textile industry.

17. Zinc Chloride

It is a white deliquescent solid exceedingly soluble in water. The concentrated aqueous solution of zinc chloride dissolves cellulose.

18. Zinc Sulphate ZnSO4.7H2O

It is a crystalline solid very soluble in water. It is used as mordant in printing.

---to be continued---


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Wednesday 28 November 2012

Vastraa-2012- My Experience





I happen to attend the meet as a buyer. It was an experience to be remembered for a long time.

The event was organised after much thought had been put into place, as is evident by the arrangements. The idea of prefixed B2B meetings was novel and ensured that the participants really engaged into business interactions.

As the first effort, kudos to the organisers who managed to bring in more than 350 foreign and domestic buyers and provided for the hospitality. The results were encouraging as more than 350 million US dollar worth of business was transacted in those four days.

A very interesting idea was of business fashion shows. That brought in lots of crowed and the buyers could see the garments in action.

I managed to meet more than 40 sellers all across the Rajasthan. More than that interaction with more than 100 foreign buyer gave me a pulse of the market and trends.

There is a need to bring in more exhibitors of traditional fabrics.

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Monday 1 October 2012

Fabric Losses during Spreading




The percentages of various costs that add up to the garment cost are as follows:

1.Raw Material cost: 50%
2.Direct labour Cost: 20%
3.Indirect Labour charges and factory overheads: 30%

The raw material cost ranges from 40% for hosiery to 60% for lingerie. The cost of fabrics is 80% of the cost of raw material. 

The fabrics can be broadly divided into the following three categories:
1. Tubular Knitted Fabric
2. Narrow open width fabric: The fabric width can accommodate two body pieces. Maximum market efficiency can be achieved if the number of smaller pattern pieces in the garment are relatively more. 
3. Wide open width fabric: This type of fabric is having a width of 1.5 meters and three body pieces can be placed in the width of the fabric. 

Fabric Losses
During the cutting process two types of fabric losses occur:
1. Marking Loss
2. Spreading Loss

Marking Loss arises due to the gap and the nonuseable areas at places between the pattern pieces of a marker. Marker efficiency indicates the amount of marking loss. 

Spreading loss is the fabric loss outside the marker. The various fabrics outside the marker are classified into different groups:

1. End of Ply Loss
2. End of Piece Losses
3. Edge Losses
4. Splicing Losses 
5. Remnant Losses
6. Ticket length Losses

1. End of Ply loss: The flexibility, limpness, extensibility alongwith the limitation of the spreading machinery necessitates an allowance of some fabric at the end of each ply. These losses may be upto 2 cm at each end or 4 cm per ply.

The end of ply loss is 1-2% of the total fabric usage. 

2.  End of Piece(Thaan) Losses: In textile industry, fabrics are produced and processed in different batches. This makes the fabric ends unsitable for use due to marks or distortions created.  

The end of piece varies from 0.5-1% of the total fabric usage. 

The loss is minimized if the average length of pieces that are purchased is increased. 

3. Edge Losses:  In normal practice during marker planning, the width of the marker is kept a few centimeters less than the edge-to-edge width of the fabric. The marker is made according to the usable width of the fabric. The usable fabric width depends upon the quality of the selvedge, the consistency of fabric width, and also on the precision of edge control during spreading. Let the fabric edge-to-edge width is 100 cm, and the marker width is 3 cm less than the fabric width. The edge loss is 3%. If the fabric edge-to-edge width is 150 cm, the loss is 2%.

Thus wider width has other benefits besides improved marker efficiency. 

4. Splicing Losses: Splicing is the process of overlapping cut ends ( the end of one length of the fabric and the beginning of the other) of two separate pieces of the fabrics so that the spreading is continuous.  Splicing is necessary as one roll of fabric is finished and the next taken into use. 
Also during spreading there may be some objectionable fabric faults, which make the product unsalable or substandard. These fausts are removed by cutting the lay at the fault point and incorporating splicing position into marker plans. 

During splicing the splicing line should be so selected that none of the pattern pieces contains the fault is incomplete. 

The position of the splice lines also dependent on the quality of the fabric being spread. If cutting out faulty material at the lay is a regular requirement, it is vital that the markers are provided with clearly defined splice lines. 

The splicing losses may vary up to the 5% of the total fabric usage. 

5. Remnant Losses: Remnant lengths are produced whenever companies separate different shades of fabric pieces and lay up only complete plies. 
Remnants are also generated when short lengths of material are left over after the completion of the lay, and are returned to the stores. 
All remnants are put to one side and cut separately. 

6. Length Losses ( L Losses): Woven fabrics and some knitted fabrics are sold by length.  Each fabrics piece is measured by the fabric supplier and a ticket is attached to each piece indicating the length for which the customer is invoiced. In many cases the gross length and the net length are marked in the ticket. This loss can be reduced by inspecting the length of the incoming fabric and reporting the fabric supplier in case of yardage short. 


What is FPT ( Fabric Package/Performance Test) and GPT ( Garment Package/Performance Test)




GPT- Garment Package/Performance Test



This test is done to analyze the performance of a garment after washing by the customer as per the wash care label.

We need three identical garments to perform this test:
1.       One Garment- Dimensional Stability
2.       One Garment – Appearance
3.       One Garment – Seam Slippage and Strength
4.       Button Pull Test- A Mock Patti is needed with about ten buttons attached to it.

Dimensional Stability is observed after washing.

Under appearance, visual observations are made regarding any changes in the fabric after washing. Defects like puckering, pilling, free movement of zipper.
Seam Slippage and Strength Test is done for all the seams present in the garment.

The aim is to find if the finished product is identical to the unfinished product.

Various buyers have their different requirements for GPT.

GPT is done after one wash or after three washes. Generally for Indian domestic suppliers or US buyers, GPT is done after three washes. For European buyers, GPT is done after one wash.

FPT- Fabric Package/Performance Test

Under FPT, about 3 meters fabric is required, the following tests are conducted:
1.       Yarn Count
2.       Construction
3.       GSM
4.       Fiber Composition
5.       Tensile Strength
6.       Tear Strength
7.       Colorfastness to washing at 40 deg.
8.       Colorfastness to rubbing.
9.       Colorfastness to perspiration.
10.   Colorfastness to Water.
11.   Shrinkage.

Here is an FPT from a company. 

Basically it contains the color properties and physical properties of the fabric. 


Thursday 20 September 2012

Learning about Viscose, Modal and Tencel



The production process of the three fibers has been convered elsewhere in the blog. Here I would like to discuss some of the properties useful for fabric buyers for comparison.

In dry state viscose is only slight weaker than cotton. However, in the wet state, the strength is about 38% that of cotton. That makes it a very tricky fiber to blend with cotton and subsequent dyeing with cotton. The fabric undergoes changes in shape when wet processing.

Also strength of cotton increases when wet- being 1.14 times that in dry state. However, for viscose it is about 0.5 times that in dry state. This necesssitates that the viscose should be dry cleaned rather than ordinarily washed.

Modal's strength is comparable to cotton in dry state. In wet state, it is about 78% of the cotton strength. For Tencel, it is much more than cotton both in dry and wet state.

A table comparing the properties of the three is given below:


The above table represents three fibers from Birla. VSF is the first generation viscose. Modal is second generation and Tencel is the third generation viscose.

This Link describes the precautions to be followed in viscose processing.

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Friday 14 September 2012

Complete Free Course in Spinning



Complete free course in spinning!And that too, by none other than the masters of Spinning Technology, Rieter.



 Look no further, Rikipedia, has brought for you the complete course in fiber preparation, spinning preparation and yarn manufacturing.

 Please click this link to access the course.

 I just wish I could use this while I was a student.

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Saturday 8 September 2012

Weaving of Pintuck four line



A very popular fabric is made in the Bijnor cluster where the picks are crammed after every inch or so so as to form distinct cords which in the market is called as pintuck. The fabric has a popularity as a fabric for Indian ethnic garments for mens and ladies.

The technique of weaving uses dobby mechanism on powerloom with four shafts. Two warping beams are used. The upper beam is at lower tension than the lower beam. The upper beam is used to make a shed for the crammed in picks whereas lower beam makes the ground fabric.

The order of drawing in is 1-3-2-4. Shafts Number 1 and 2 ( counted from the front) are used for weaving ground weave whereas 3 and 4 for the pintucking operation.

Here are some pictures. I have also uploaded a video ( some part of it to be seen by looking sideways).

A view of the top warp beam

A view of the bottom warp beam

Dobby and dobby chain

Final Fabric

The two warp beams
                             
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Friday 7 September 2012

Pyjamas and Khadi- A visit to Khurrampur Village, Bijnor



It was refreshing to see the changed status of women of Khurrampur, using their home stitching machines and making Pyjamas  that are going to be sold in the markets at the Metros and T-2 and T-3 cities of India.

Thanks to the initiative taken by the sourcing arm of an ethnic retail company in India, this is one of the many projects undertaken by this company to improve the status of women in this country, besides providing the sustainable means of livelihood.

Traditionally these women are weaving handspun  khadi in their homes getting some meagre wages from the middlemen on the pitlooms. With the direct intervention their economic situation will undoubtedly improve.

Here are some of the pictures of that village. They have completed their orders of khadi for this season. Hence all the looms are without warps. However, thanks to the pyjama project, women can continue to earn their livelihood by stitching.

Look at the Pit and Small Khadi Loom

A view of the Rainbow in Khurrampur Village

Grandson and Proud Grandfather- Khurrampur

Notice the cord to lift the frames

Wooden Warpers beam

One More Khadi weaving Pitloom

Pitlooms are a part of every family in Khurrampur village

Instrument to Wind Yarn

Government is Doing its Bit

Side View of the Khadi Loom

Craft is everywhere in the village


A view of the open Sky with silver clouds

New Tool for Empowerment- Stitching Machine

Sunday 19 August 2012

Textile Drying




Textile Drying

Drying happens when liquid is vaporized from a product by the application of heat. Heat may be supplied by convection (direct dryers), by conduction (contact or indirect dryers), radiation or  by placing the wet  material in a  microwave or radio frequency electromagnetic field. Over 85 percent of industrial dryers are of the convective type with hot air or direct combustion gases as the drying medium. Over 99 percent of the applications involve removal of water.

This is one of  the most  energy-intensive unit  operations due to the high latent  heat  of vaporization and the inherent inefficiency of using hot air as the (most common) drying medium.

Drying Curve



The figure above is a typical curve, in the initial period, drying rate is high; later, drying rate decrease because of interference of free moisture on the surface of the product.

Type of Dryers

1.       Hot Air Dryer- Stentor

Fabric drying is usually carried out  on either drying cylinders (intermediate drying) or on stenters (final drying). Drying cylinders are basically a series of steam-heated drums over which the fabric passes. It has the drawback of pulling the fabric and effectively reducing its width. For this reason it tends to be used for intermediate drying.  The stenter is a gas fired oven, with the fabric passing through on a chain drive, held in place by either clips or pins. Air is circulated above and below the fabric, before being exhausted to atmosphere. As well as for drying processes, the stenter is used for pulling fabric to width, chemical finishing and heat setting and curing. 



  

Contact Drying- Steam Cylinders/Cans

This is the simplest  and cheapest  mode of  drying woven fabrics. It  is mainly used for intermediate drying rather than final drying (since there is no means of controlling fabric width) and for predrying prior to stentering. Fabric is passed around a series of steam heated cylinders using steam at pressures varying from 35 psi to 65 psi. Cylinders can be used to dry down a wide range of fabrics, but it does give a finish similar to an iron and is therefore unsuitable where a surface effect is present or required




Source (Text and Images)

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Monday 6 August 2012

Sari Weaving Techniques on Handloom



Unnati Silks have uploaded some stunning videos depicting the handloom weaving techniques in Saris. The same came be viewed here.

The following is just one of the videos showing weaving of Kanchipuram Sari.



The following Techniques of Sari Weaving are covered:

1. Kanchipuram
2. Pochampalli
3. Siddipet
4. Gadwal
5. Narayanpet
6. Ellampillai
7. Managalgiri
8. Bannerugatta
9. Dharmavaram
10. Uppada
11. Venkatgiri
12. Maheshwar
13. Rasipuram
14. Kaithoon Kota
15. Chirala
16. Kondalmpatti
17. Arni
18. Varanasi

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Sunday 5 August 2012

Process of Batik



The word batik has been derived from the word "Ambatik" which translates as "Cloth with little dots".

An amazing video has been uploaded by Moda to depict the process of Batik as practiced in South Asian country. The process is painstakingly long and involves several processes of dyeing, applying wax, washing and drying. Briefly the process involves the following stages:

1. First of all the fabric is dyed with base color.

2. Then base color combination is applied on the fabric with the help of sponge.

3. Then the fabric is dried in the sunshine.

4. Soda is sprinkled on the fabric while it is drying to get the salt effect.

5. The fabric is then covered with wax using copper stamps on wooden blocks.

6. Then the first color combination is removed from the fabric by dipping it into a solution.

7. The fabric is then made wet and put onto a flat surface.

8. Second color combination is then prepared and applied on the fabric with the help of a sponge, the fabric is crinkled carefully before this application.

9. Again the fabric is kept for drying and soda is sprinkled on it to get the salt effect.

10. Then it is dried in the sunshine by hanging.

11. The fabric is then dyed in water glass ( A solution of sodium or potassium silicate, it solidifies on exposure to air and is used to make silica gel). Until it is applied the batik colors are water soluble. Water glass fixes all the colors.

12. Then it is washed with water twice.

13. Then it is subjected to boiling to remove the wax that covered the first color combination.

14. Then it is washed with water and dried to get the final finished fabric.

You can watch the video here:


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Thursday 2 August 2012

Cost of Fashion



Just stumbled upon a few reports on the condition of women working in textile mills in South India. The reports called "Maid in India" and "Captured by Cotton" depict vividly the plight of women enrolled under the Sumangali Schemes of various Textile Mills.



The reports go to show the low cost fashion available in high streets which can be due to the conditions under which workers work in textile and garment factories.

There is another report depicting the prevalence of child labour in the sequin units in Tuglakabad and Sangam Vihar district of Delhi and how the laws are flouted by bribing off the officials.

Some eye-opening articles, I must say.

Here are the links:

1. Maid in India
2. Captured by Cotton 
3. Slavery on the High Streets

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Sunday 29 July 2012

Cotton Price Trends in India



Indian Textile Mills are ramping up imports of cotton



Mills in India, the world's second biggest cotton producer have already imported 500,000 bales and have signed contracts for around 1 million bales at 75-80 cents per lb, compared with the local price of about 88 cents. This can be attributed to the following two reasons. 

a. Tight Domestic Supplies of Cotton 

- Poor rainfall in top producing Gujarat State. Saurashtra and Kutch regions of Gujarat, the country’s largest producer, have received 72% less than the usual rainfall by this time
- A rally in Soyabean prices is prompting some farmers to ditch cotton for Soyabean.
- Record export of good quality cotton earlier this year, with lower quality cotton left this year. 
- Harvesting is getting delayed because of late arrival of Monsoon. If it gets delayed beyond Sep, the domestic cotton prices will sky rocket. 

b. Lower Prices Abroad

Domestic cotton prices are ruling around 88 cents per pound, freight on board, around 14% higher than the African fibre and 10% than the crop in the US, the world’s largest cotton exporter


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Thursday 28 June 2012

Reilly and Daba Tussar Cocoons



Tussar Cocoons from Saal Tree are called Reilly and those from Saaja Tree are called Daba.

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Friday 15 June 2012

Everything about Garment Washing



This is an amazing blog on everything abut garment washing. It has covered enzyme wash, silicon wash, super white wash, acid wash, stone wash and much more with ideal recipes. Plus it has much more that I haven't explored yet.



http://textilecollection.blogspot.in

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Enzyme and Silicon Washing of Canvas - Receipe



Please follow this link to download the document on enzyme wash.

https://docs.google.com/open?id=0B6xT0Q_32_dubHplWXhrZXY0UWs

 

Silicon Wash of Canvas can be reviewed here

https://docs.google.com/open?id=0B6xT0Q_32_duZWNTclA1T2ZaTzg

 

 

 

 

Sunday 3 June 2012

Manufacturing of Powerloom 40s x 40s 72 x 68 Fabric



This fabric is woven on the border areas of Andhra Pradesh and Tamil Nadu states of India and has a widepopularity as a dress material for ladies ( Kurtis and Salwars). It has the potential to be printed or embroidered.

The count for this fabric is 40s  both warp and weft and constructions is 72 and 68. It is available in both 44 inches and 56 inches.

The following are the broad steps in making the fabric

1. Yarn is taken in hank form and is kept in water tanks for two days for them to wet properly. Then the yarn is scoured in hank form itself.

Label on a Hank Yarn



2. Yarn dyeing is done using either reactive or vat dyes. Yarn dyeing is done manually.
Color Kitchen

Dyeing Bath for Hank Yarn - Reactive Dyes
  

3. Yarn is then subjected to sizing using Maida and Gum as components. The yarn is subjected to alternate dyeing and sizing three times.
Yarn Being Dried after Sizing

4. Yarn is then prepared for warping using an ingenious creel and then wound onto a weavers beam using a conventional sectional warping machines. 


5. Pirns are prepared using an indigenous contraption.




6. Yarn is then worked on powerloom having warp stop and weft stop motion.












6. Primitive dobbies are used for woven and zari borders.
 
7. The yarn is then subjected to finishing using water, sometimes in a padding mangle using softner and desizing agent.




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