Selvage denim

Selvage denim

Selvage is the edge of a fabric as it comes from the loom. Selvages are woven or knit so that they will not fray, ravel, or curl.

Selvage denim refers to a unique type of selvage that is made by means of using one continuous cross-yarn (the weft), which is passed back and forth through the vertical warp beams. This is traditionally finished at both edges with a contrasting warp (most commonly red); that is why this type of denim is sometimes referred to as "red selvage." This method of weaving the selvage is possible only when using a shuttle loom.

Shuttle looms weave a narrower 30-inch fabric, which is on average half the width of modern shuttleless Sulzer looms. Consequently a longer piece of fabric is required to make a pair of jeans from selvage denim (approximately three yards).

To maximize yield, most jeans are made from wide denim and have a straight outseam that utilizes the full width of the fabric, including the edges. Selvage denim has come to be associated with premium quality jeans, which show the finished edges from the loom rather than the overlocked edges that are shown on other jeans.

Process For Adding Value To Denim:

Process For Adding Value To Denim:

The word Denim is believed to have evolved from a French fabric known as serge de Nmes. The cloth from Nmes was a twill woven cloth made of a silk-wool blend; however; the fabric mix of this cloth casts some doubt on this origin sinceDenim has always been made from cotton. Since the mid-1950s Denim Garments has become a mainstay in the wardrobe of American youth. Denim represents a rugged cotton twill textile, in which the weft passes under two or more warp fibers, producing the familiar diagonal ribbing identifiable on the reverse of the fabric, which distinguishes denim from cotton duck. Denim was traditionally colored blue with indigo dye to make blue jeans though jean represents a different, lighter cotton textile. Although Denim jeans are favorites among the youth, it has changed style and significance throughout the years. Globally, Denim designers are experimenting with fabric and garment details including embellishments in order to add value to its garments. New add-ons are being incorporated in the form of patches, appliqu, rhinestones and glitter.

The process of adding value to this legendary outfitter enhanced from time and time by devising some new methods such as:

By changing the color and metallic sparkle spray on denim garments

Value-addition substantially allows higher earnings in relation to money spent on impartation of the value. It may be either functional or aesthetic. Functional value-addition may not function more effectively on the garment. In many cases, the garment may not look effectively, if it is not treated for value-addition. Aesthetic value-addition is a cosmetic treatment and ornamentation. It attracts the attention and you can see the appealing results at the earliest. This kind of value-addition is governed by latest "trends" and consumer preferences. The color spray gives an aesthetically appealing 'cast', which gives a "consumer-liking" value.

 Softeners should be used for bulky feel on denim garments

"Bulky" or "flat and firm" has relation to aesthetics and personal liking as there is no dearth of finishes for such attributes. These finishes are generally applied wet-on-wet at the end of garment washing by exhaust method. It is, therefore, imperative to select a softener/lubricant, which is exhaustible for the best performance of the garment. It is also important to maintain whilst applying the right conditions such as pH, temperature and exhaustion time in order to transfer the maximum softener/lubricant onto garment from the treating liquor. Such products could be cationic softener, exhaustible polyethylene, micro-amino silicone for suppleness, macro amino silicone for surface smoothness and so on. One needs to prepare an atlas of fabrics to assess the degree of bulk with the type of softeners and their concentrations. Further some combination of softeners may show enhanced effect immediately.

Approaches to mild washing effects on sulphur-dyed denim garments

Garment washing may affect the whiteness level of your garments, as they can look dull or yellow after processing. Most garment washers add whitener to the process to ensure a bright white finished product. Make sure to determine any costs involved and factor them into your product costing. There are many special effects, such as weathering, stone washing, acid washing and distressing that can be produced by garment washers. These effects being very popular have their own drawbacks. They are costly, have higher fallout rates, and are generally rougher on the fabrics. Talk to your garment washer about prices and what to expect of the process you choose to do.

Tint denim garments without changing the tone of Indigo

Tinting is achieved by application of the direct/reactive dyes. In case of direct dyes, the second application would be that of dye-fixing agent for an adequate fastness. In case of reactives, the fixing chemical goes along with the dyestuff. After the application, the treated garment is dried in the air or in a tumble drier for adequate fastness. If tinting were done by immersion method, the tint would be all over. However, if a localized area is the target, a spray method is used. In either case the tinting, as the term signifies, is done very lightly to achieve a particular cast, either overall or localized. If indigo does not change tone would look like a print with a sharp boundary. When tone changes fad gradient, the effect looks more aesthetically appealing and is considered desirable. The tone-change should be gradual and not abruptive.

Significance of ozone-fastness in indigo garments

Oxidizing agents have a property of attacking chromophoric group of the dyestuff and destroying-discharging the color. Potassium permanganate is a well-known chemical extensively used for discharge of indigo in denim garments. However, potassium permanganate is used as and when discharge is required and the ultimate purpose is value-addition. Ozone is another strong oxidizing agent, which could discharge indigo in denim-garments. The folds in folded-denim garment otherwise have relatively greater exposure to atmospheric ozone than the rest of the garment, which is protected by virtue of garments being stacked. This results into localized discharge of indigo at the folded marks. There are inorganic as well as organic ozone-seavenger, which protect the indigo in denim garments from the attack of ozone and hence control the value-loss. There are many buyers who ask for denim fabrics/garments finishes with ozone seavenger.

Effects on perlite - cellulase treatment on denim garments

Perlite being used in denim washing is a high-temperature expanded version of natural mineral in granule form of 1.5 mm size. The perlite treatment combined with enzyme treatment for softness, sheen, and mildly abraded surface. Perlite can reduce the enzyme dosage and enhance abrasion. However, the abrasion is quite mild, which gets with pumice stones and only cellulose. Depending upon the degree of abrasion needed, the cellulase - perlite treatment could take 60-120 minutes using liquor ratio and some 100 gm perlite per kg of garment. Since perlite dust causes, sensitization and allergies when inhaled, some standard protective-care needs to be taken during manufacture, packing, storage, transportation, material handling and usage. Further perlite needs to be looked first before cellulose and other chemicals and then the machine run for minutes with water.

Tinting with white discharge effect on denim garments

The standard route to blasting/discharging/tinting is quite elaborate, in the light of three effects to be imparted on the same garment. There have been short cuts, which may be right/wrong/ingenious. If tinting is done on blasted/discharged areas, it obviously remains a spray method. However, if the tinting is overall, it follows the dyeing route. The process starts on gray garment being hand blasted followed by desizing and biopolishing. After drying the garment, tint-spray is given followed by air/machine drying and finishing. For tinting by dyeing method, the biopolished garment can straight away go for tinting wet-on-wet followed by finishing and drying.

In case of white discharge tinting the route would start with desizing-biopolishing on gray garment, peroxide bleaching after biopolishing being optional. After drying the garment, a potassium permanganate spray is given to areas where white discharge is aimed at. After air-drying for about 10-15 minutes, a neutralization step consisting of provide-acetic acid is given which is followed by hot and cold rinses. In case of spray tinting the garment will have to be dried first, whereas for overall tinting, dyeing the method could be followed wet-on-wet. Finally the finishing and drying would complete the process.

Getting reverse effects on denim in discharge process

In spray process, first apply neutralizer where you want the resist effect and thereafter, spray potassium permanganate on applied portion and its surrounding area. Then, neutralize the garment to remove potassium permanganate. It gives a halo effect to denim garments.

Washes For Denim Fabric

Basic Washes in Denim Fabric:

Denim:

Serge De nimes

Serge - A kind of material

Nimes - A town in France

Jeans:

Genoa - Worn by Genoavese sailors In Italy in 1500.

When the Denim wash Started?

The concept of washing Denim was started By Jack Spencer for the brand Lee.

Stone wash was first started by Francois Girbaud.

The concept of Sand blasting was started in 1988 by a number of branded companies in Italy.

Types of Denim washes:

Chemical Wash:

Denim Bleaching: Strong oxidative and bleaching agent such as sodium hypochlorite or potassium permanganate.

Enzyme wash: Application of organic enzymes. Easy to stop the action of enzymes.

Acid wash: Pumice stones presoaked in a solution of hypochlorite or potassium permanganate.

Mechanical Washes:

Stone Wash : Tumble with pumice stones. Variations in composition, hardness, size, shape ,and porosity make these stones multifunctional.

Micro sanding:

It can be done in 3 ways:

Sand blasting: This technique is based on blasting an abrasive material ( mostly Sand) in granular, powered or other form through a nozzle.

Machine Blasting: In this fabric treatment process, a series of cylindrical rolls in a horizontal arrangement, either wrapped with an abrasive or chemically coated with an abrasive.

Hand Sanding or hand brushing: Use of Sand paper to abrade surface...

Microgenix Offerings for Denim & other fabrics:

Microgenix offers a wide range and variety of products for denim and as well as other fabrics.

Categories 

• Neutral Enzymes/neutral cellulase
• Acid Enzymes/ Acid cellulase
• Anti Back Staining (ABS)
• Washing off agents
• Softeners
• Silicon Specialties

In a nutshell, microgenix offers all chemical solutions from pre-treatment to finishing for denim. Not just that, we offer solutions for other categories of textile and garments as well viz. knits and wovens.

The link below will give a detailed information about the products that are offered by Microgenix:

http://www.microgenix.co.in/microgenix-products.pptx

Sewage treatment

Sewage treatment is the process of removing contaminants from waste water and household sewage, both runoff (effluents), domestic, commercial and institutional. It includes physical, chemical, and biological processes to remove physical, chemical and biological contaminants. Its objective is to produce an environmentally safe fluid waste stream (or treated effluent) and a solid waste (or treated sludge) suitable for disposal or reuse (usually as farm fertilizer). Using advanced technology it is now possible to re-use sewage effluent for drinking water.

Sewage disposal

Industrial wastewater effluent with neutralized pH from tailing runoff. Taken in Peru.

In some urban areas, sewage is carried separately in sanitary sewers and runoff from streets is carried in storm drains. Access to either of these is typically through a manhole. During high precipitation periods a sanitary sewer overflow can occur, forcing untreated sewage to flow back into the environment. This can pose a serious threat to public health and the surrounding environment.

Sewage may drain directly into major watersheds with minimal or no treatment. When untreated, sewage can have serious impacts on the quality of an environment and on the health of people. Pathogens can cause a variety of illnesses. Some chemicals pose risks even at very low concentrations and can remain a threat for long periods of time because of bio accumulation in animal or human tissue.

Treatment

Further information: Sewage treatment, Agricultural wastewater treatment, and Industrial wastewater treatment

There are numerous processes that can be used to clean up wastewaters depending on the type and extent of contamination. There are two basic approaches: to use the waste in the water as a resource (such as constructed wetlands) or strictly as a pollution (such as the majority of today's treatment plants). Most waste water is treated in industrial-scale energy intensive waste water treatment plants (WWTPs) which include physical, chemical and biological treatment processes. However, the use of septic tanks and other On-Site Sewage Facilities (OSSF) is widespread in rural areas, serving up to 20 percent of the homes in the U.S.

The most important aerobic treatment system is the activated sludge process, based on the maintenance and re circulation of a complex biomass composed by micro-organisms able to absorb and adsorb the organic matter carried in the waste water. Anaerobic waste water treatment processes (UASB, EGSB) are also widely applied in the treatment of industrial waste waters and biological sludge. Some waste water may be highly treated and reused as reclaimed water. Increasingly, for most waste waters ecological approaches using reed bed systems such as constructed wetlands are being used. Tertiary treatment is being increasingly applied and most common technologies are micro filtration or synthetic membranes. After membrane filtration, the treated wastewater is indistinguishable from waters of natural origin of drinking quality (without its minerals). Nitrates can be removed from waste water by natural processes in wetlands but also via intensive microbial denitrification, for which a small amount of methanol is typically added to provide the bacteria with a source of carbon. Ozone waste water treatment is also growing in popularity, and requires the use of an ozone generator, which decontaminates the water as ozone bubbles percolate through the tank but is energy intensive.

Disposal of waste waters from an industrial plant is a difficult and costly problem. Most petroleum refineries, chemical and petrochemical plants have onsite facilities to treat their waste waters so that the pollutant concentrations in the treated waste water comply with the local and/or national regulations regarding disposal of waste waters into community treatment plants or into rivers, lakes or oceans. Constructed wetlands are being used in an increasing number of cases as they provided high quality and productive on-site treatment. Other industrial processes that produce a lot of waste-waters such as paper and pulp production has created environmental concern, leading to development of processes to recycle water use within plants before they have to be cleaned and disposed.

Reuse

Treated wastewater can be reused as drinking water, in industry (cooling towers), in artificial recharge of aquifers, in agriculture (70 percent of Israel's irrigated agriculture is based on highly purified wastewater) and in the rehabilitation of natural ecosystems.

Use of untreated wastewater by agriculture

Around 90% of wastewater produced globally remains untreated, causing widespread water pollution, especially in low-income countries. Increasingly, agriculture is using untreated wastewater for irrigation. Cities provide lucrative markets for fresh produce, so are attractive to farmers. However, because agriculture has to compete for increasingly scarce water resources with industry and municipal users, there is often no alternative for farmers but to use water polluted with urban waste directly to water their crops.

Health hazards of polluted irrigation water

There can be significant health hazards related to using the water in this way. Wastewater from cities can contain a mixture of chemical and biological pollutants. In low-income countries, there are often high levels of pathogens from excreta, while in emerging nations, where industrial development is outpacing environmental regulation, there are increasing risks from inorganic and organic chemicals. The World Health Organization, in collaboration with the Food and Agriculture Organization of the United Nations (FAO) and the United Nations Environmental Program (UNEP), has developed guidelines for safe use of wastewater.

The International Water Management Institute has worked in India, Pakistan, Vietnam, Ghana, Ethiopia, Mexico and other countries on various projects aimed at assessing and reducing risks of wastewater irrigation. They advocate a ‘multiple-barrier’ approach to wastewater use, where farmers are encouraged to adopt various risk-reducing behaviours. These include ceasing irrigation a few days before harvesting to allow pathogens to die off in the sunlight, applying water carefully so it does not contaminate leaves likely to be eaten raw, cleaning vegetables with disinfectant or allowing fecal sludge used in farming to dry before being used as a human manure.

ETP PROCESS

Process Flow Chart of Effluent Treatment Plant (ETP) 

Collection Tank
↓ 
Storage Tank
↓ 
Mixing & Cooling
↓ 
Neutralization
↓ 
Chemical Coagulation
↓ 
Biological Oxidation Tank
↓ 
Sedimentation & Separation of Sludge
↓ 
Sludge Thickener
↓ 
Filtration
↓ 
Discharge to Drain

Collection Tank: Commencing part, waste from different section enter here. 

Storage Tank: Several blower pipe in this chamber. Mixing properties are different with temp. as well. 

Mixing & Cooling:Cooling Tower is on paddle mixer used for mixing. 

Neutralization: PH is controlled here. 

Chemical Coagulation: Fe₂(SO₄)₃, Al₂(SO₄)₃ etc use for coagulation. 

Biological Oxidation Tank: Artificially Eco-system established. Blowing air helps to live micro-organism. 

Sedimentation & Separation of Sludge: The blanket of precipitations is skimmed off to another tank and remaining solution is removed to pressure filter. 

Sludge Thickener: After exceeding the required level of recycling, sludge passed through thickening chamber. 

Filtration: Filtration layer consists of sand rock which filter wet sludge to extract water rest in it. 

Discharge to Drain: Release to environment with the check of final load of effluent in it.

Ice or Snow Washing......

Ice or Snow Washing

This is achieved by dry tumbling with pumice stones soaked with bleaching agents to produce a 'snow' pattern effect on denim. Stones are used to deposit a chemical on garments to strip off the colour. This chemical deposit removes colour only from the outer surface of the garments and produces a frosted appearance. Indigo and selected sulphur dyes are the most popular candidates for this procedure.

Indilock DLR

Indilock DLR