Finishing

Pretreatment, dyeing auxiliaries interface, mechanical and chemical finishes for handle, shrinkage, and fastness. Energy, water, and effluent optimization are emphasized. This section explains practical decision criteria, typical test methods, and failure modes that matter in real production. Readers get checklists, calculation steps, and case examples connecting specifications to cost, reliability, and compliance. Links map core concepts to upstream inputs and downstream processes so choices remain consistent across sourcing, manufacturing, and end-use performance. Each article includes definitions, diagrams where helpful, and plain-language notes to help newcomers ramp quickly while giving experienced professionals the depth needed to troubleshoot and optimize. Standards references are cited with context, and whenever trade-offs exist, we make them explicit so you can defend decisions.

Insect Repellent Textile Finishing using Natural Bio-molecules

Mosquito repellents created with essential oils extracted from aromatic plants found to be an alternative to artificially created mosquito repellents. The article briefs how the textile substrates with mosquito repellent finish provide better protection against mosquito bites.

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Comparison of Cleaning Treatments for Conservation and Restoration of Cotton, Wool and Silk Fabrics

Cleaning ensures sanitization and thus the safety of the artefact itself and others stored/displayed in its vicinity. At the same time, the process invariably alters the character of textile to a certain extent. Cleaning ensures removal/deactivation of soil and harmful organic matter from the artefact. However, a small number of surface molecules from the textile might be eroded in the process as well. This leads to weakening of the textile and might cause alteration in colour spectrum/ depth etc. Controlled cleaning techniques in conservation laboratories focus on minimizing this damage. However, not much scientific data is available on the efficacy of present cleaning techniques employed in conservation laboratories. Presently aqueous cleaning and solvent cleaning are primary modes utilised as next step to dry tools. Additionally, novel cleaning technologies like enzyme wash and ultrasonic wash provide soil specific methodology that would reduce the threat to the base fabric.

The present paper is a systematic analysis of these cleaning techniques and their impact on aged museum fabrics, i.e., cotton, wool and silk. Change in tensile strength parameters, whiteness index and yellowness index have been used as indicators to test the efficacy of different cleaning techniques on aged museum textiles. Numerical data generated by laboratory experiments clearly indicate that there is no standard cleaning treatment available for the three natural fibres. Each fibre has exhibited suitability to different cleaning treatment while balancing between restored whiteness and minimizing strength loss.

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Role of Textile Effluent Treatment Plants (ETP) to Control Environmental Pollution

Effluents Treatment Plants or ET Plants (ETP) are the most widely accepted approaches towards achieving environmental safety. But, no single treatment methodology is suitable or universally adaptable for any kind of effluent treatment.

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Environmental Aspects in Textile Industry: Ecological Hazards and Remedial Measures

Among many pollution-creating industries, textile has a larger share in terms of its impact with regard to noise, air, and effluent. It is, therefore, felt worthwhile to study the environmental hazards associated with various operations of textiles. In this paper, pollution arising out of noise and air is discussed. Areas of concern and their appropriate rectifying procedures are also taken into account.

Ecological degradation happens in natural fiber right from cultivation to finishing of the ultimate product. Prominent parameters and the possible package of corrective measures are highlighted. Synthetic fiber industry is not an exception to environmental pollution and therefore various pollution-creating activities are pointed out. Management of various textile wastes is also mentioned in this paper.

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parachute

Importance of Air Permeability/Fabric porous structure in production of technical textile fabrics

Fabric air permeability is a measure to what extent it gives air passing through the fabric. The porosity of fabric is the demonstration of the air gap as a percentage within the fabric. It has been important for especially the tent fabric and parachute.

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screen-printing

New Report Shares Details About the Screen Printing Mesh Market by 2028

Majority of the textiles printed in the global market are printed with the screen printing technique due to its simplicity. The demand for screen printing in the packaging industry is significantly high with around 9% of the labels printed globally being screen printed.

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