Nylon 6 chip is obtainable by hydrolytic polymerization of caprolactam in the presence of dicarboxylic acids as chain regulators, subsequent processing of the polymer melt into the chip, extraction of the low molecular weight portions from the chip with water, and subsequent drying of the chip.
Nylon 66 is made of hexamethylenediamine and adipic acid are combined with water in a reactor which gives nylon salt after the polymerization process nylon 66 is produced. They are used for manufacturing textile grade yarns as well as industrial products. Available luster is Bright & Semi Dull.
Nylon 6 chip is obtainable by hydrolytic polymerization of caprolactam in the presence of dicarboxylic acids as chain regulators, subsequent processing of the polymer melt into the chip, extraction of the low molecular weight portions from the chip with water, and subsequent drying of the chip.
Nylon 66 is made of hexamethylenediamine and adipic acid are combined with water in a reactor which gives nylon salt after the polymerization process nylon 66 is produced. They are used for manufacturing textile grade yarns as well as industrial products. Available luster is Bright & Semi Dull.
Nylon 6 chip is obtainable by hydrolytic polymerization of caprolactam in the presence of dicarboxylic acids as chain regulators, subsequent processing of the polymer melt into the chip, extraction of the low molecular weight portions from the chip with water, and subsequent drying of the chip.
Nylon 66 is made of hexamethylenediamine and adipic acid are combined with water in a reactor which gives nylon salt after the polymerization process nylon 66 is produced. They are used for manufacturing textile grade yarns as well as industrial products. Available luster is Bright & Semi Dull.
Nylon 6 chip is obtainable by hydrolytic polymerization of caprolactam in the presence of dicarboxylic acids as chain regulators, subsequent processing of the polymer melt into the chip, extraction of the low molecular weight portions from the chip with water, and subsequent drying of the chip.
Nylon 66 is made of hexamethylenediamine and adipic acid are combined with water in a reactor which gives nylon salt after the polymerization process nylon 66 is produced. They are used for manufacturing textile grade yarns as well as industrial products. Available luster is Bright & Semi Dull.
Cation Dyeable Chip, Deep Dyable Chip, Pale Dyable Chip
Nylon 6 chip is obtainable by hydrolytic polymerization of caprolactam in the presence of dicarboxylic acids as chain regulators, subsequent processing of the polymer melt into the chip, extraction of the low molecular weight portions from the chip with water, and subsequent drying of the chip.
Nylon 66 is made of hexamethylenediamine and adipic acid are combined with water in a reactor which gives nylon salt after the polymerization process nylon 66 is produced. They are used for manufacturing textile grade yarns as well as industrial products. Available luster is Bright & Semi Dull.
Although yarn-dyed nylon products have various problems such as fastness or shrinkage attributable to the nature of nylon, Song-i Textile has developed a technology that can resolve them. Using this technology, we are currently manufacturing high quality fabric products that can be used for not only outdoor wear but also lining materials by applying various check patterns and colors. The recently developed P/N Spandex product has adopted dope-dyed nylon textured yarn to enhance its fastness. This product also features a plate ground, which has generated a positive response from the market as an excellent material for outdoor wear.
TP 601 Green (Oilon)
Oilon was first introduced into the market back in 1974. It was the very first authentic lubricated nylon having a blended liquid lubricant system built in during the process stages. This resulted in a substantial increase in bearing life by 5 times more than natural cast nylon and 25 time more that of phosphor bronze.
Key benefits:
Self Lubricating
Increase component lifespan
Excellent wear and abrasion resistance
High impact strength
Industry users:
Petrochemical
Construction
Transport
Food and food packaging
Bottling and canning
Pharmaceuticals
Steel mills
Quarrying/mining
Cranes
Conveyors
Offshore
Typical applications:
Wear pads
Support rails
Sheaves
Rollers
Guide plates
Bearings
Spacers
JIN IL Tec - TP 601 Green is available in plate, rod, tube, cut-to-size and custom casting.
We are manufacturing various piece-dyed and yarn-dyed mixed fabric products including C/N Spandex and N/C Spandex, We are also equipped with a manufacturing system that enables low-volume production. We are developing the high-sensitivity of various woven fabrics applied high quality fine denier spun yarns and functional chemical fiber materials.
