Powerloom accounts for more than 86 percent of the total MMF production in India while the rest comes from other segments like handlooms, hosiery and mills. Incidentally, the GST on cotton textile products has been fixed at 5% while GST on man-made fabric (MMF) is kept at the proposed 18% due to which powerloom units will take a hit, industry officials said.
J Thulasidharan, chairman, Confederation of Indian Textile Industry (CITI) said that if rates are not reduced then there will be flooding of the fabric from China which would wipe out powerlooms. Powerlooms alone employ around 65 lakh workers in 5.5 lakh units spread across the country.
Also the SME (small and medium enterprises) and those who do not have composite mills are going to suffer from excessive competition and high cost.
These players have majority share in fabric production of the country, the CITI chairman said.
An independent weaving unit having around 50 looms and producing 100% viscose fabric would incur an additional cost of over Rs 2 lakh per annum with 18% GST rate on yarn when compared to a composite unit, said M Senthilkumar, chairman, Southern India Mills’ Association (SIMA).
Even with 12% GST rate on synthetic yarn, the additional cost would be Rs 1.3 lakh per loom per year thus creating unhealthy competition between the composite and independent weaving units.
A snakeskin-print bomber jacket from the new Stella McCartney x H&M Spring 2026 collection marks the debut of BioFleax, a…
The Department of Science and Technology, through the Philippine Textile Research Institute, has launched a P6 million Natural Textile Innovation…
Kornit Digital has officially launched its Atlas Matrix platform following a global beta testing program, expanding the company’s digital printing…
Panda Biotech has announced the launch of India’s first fully integrated hemp fiber-to-yarn supply chain ecosystem in partnership with Culturewell…
Avery Dennison and ReCircled have completed a pilot project showing that RFID technology can automate garment data collection and sorting…
Researchers at University of Birmingham have developed ultra-thin “2D” photocatalysts using a water-based manufacturing process.