- Innovative applications of nylon thermal fuse in the field of clothing
- Future competition will be an ecological competition! Jilin Chemical Fiber Forum in Hangzhou
- The establishment conference of Guangzhou Modern Textile and Garment New Quality Productivity Research Institute and the co-construction conference of the textile industry innovation ecosystem were held
- During the Great Snow season, how does nylon thermal fuse stabilize the foundation
- The 2025 Digital Transformation Conference of the Textile and Garment Industry was held
- Nylon thermal fuse A new bonding tool in the textile field
- Nylon thermal fuse empowers the upgrading of the textile industry
- Xinye County held a symposium on the development of the textile and garment industry chain
- The 2025 Central and Western China Textile and Garment Characteristic Industry Cluster Cultivation Seminar and Industrial Chain Supply and Demand Matching Activity was grandly held
- Modern interpretation of the efficient bonding process of nylon thermal fuse
- Contact: Mr. Jin +86 15805011538
- Email: xmzx333@163.com
- Web: www.xlfiber.com
- Add: 85 Jinghua Avenue, Xiyuan Industrial Park, Zhangping City, Fujian
PES Hot melt adhesive omentum—Xielong chemical fiber hard core products are coming!
Today, I will introduce a hard-core product, Xielong Chemical Fiber PES Hot melt adhesive omentum. PES hot-melt adhesive omentum is a kind of hot-melt adhesive omentum. The Chinese name of PES is copolyester and the color is white. It is a non-elastic polymer material.
Xielong chemical fiber PES Hot melt adhesive omentum has good washing resistance, and can be soaked in water for a long time without opening the glue.
Xielong chemical fiber PES Hot melt adhesive omentum detailed parameter introduction
Product name: PES Hot melt adhesive omentum
Main ingredient: copolyester (PES)
Product melting point: 110-120℃
Melt index: 80MI (at 160℃)
Color shape: white/mesh
Wide range: 5mm-3260mm
Weight range: 8-120g/㎡
Operating temperature: 130-160℃
Pressing time: 10-15
Pressing pressure: 1.5-2.5Kgf/㎡
Application of Xielong Chemical Fiber PES Hot melt adhesive omentum
The materials suitable for bonding of PES hot melt adhesive membrane mainly include non-woven fabric, polyester fabric, PET film, polyester sponge, XPE foam, metal and other materials. Because of its good washing resistance, it is very popular in circulating water filtration.
The application fields of PES Hot melt adhesive omentum will gradually be enriched with the continuous improvement of the production technology of the entire industry. In the future, PES hot melt adhesive omentum will have a lot of room for development.
Fujian Zhangping Xielong High-tech Chemical Fiber Co., Ltd.
is a professional supplier of material spinning, weaving and dyeing of shoe material textile. The main products are nylon thermal fuse, polyester thermal fuse, TPU special filament, TPU thermal mesh, PES Hot melt adhesive omentum, PA hot-melt omentum, etc.
The launch of Xielong Group's new materials will provide environmentally friendly, safe, and better-performing products for the development of shoe materials, clothing, luggage, furniture, and decoration industries.
If you want to know more product information, please contact: Ms. Jiang 18861266688 Manager Chen 13960259999 Website: http://www.xlfiber.com
- Future competition will be an ecological competition! Jilin Chemical Fiber Forum in Hangzh
- Innovative applications of nylon thermal fuse in the field of clothing
- The establishment conference of Guangzhou Modern Textile and Garment New Quality Productiv
- During the Great Snow season, how does nylon thermal fuse stabilize the foundation
- The 2025 Digital Transformation Conference of the Textile and Garment Industry was held
- Nylon thermal fuse A new bonding tool in the textile field
- Nylon thermal fuse empowers the upgrading of the textile industry
- Xinye County held a symposium on the development of the textile and garment industry chain
- The 2025 Central and Western China Textile and Garment Characteristic Industry Cluster Cul
- Modern interpretation of the efficient bonding process of nylon thermal fuse