About Meltblown Nonwove Melt blown is a one step process to make fabrics from polymer. The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. The main purpose of melt blown fabric is to provide barrier property for the liquid. Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: Adjustable Pores And Capillary Structure Excellent barrier properties Filament size 1 -3 �µm High Elasticity High Filtration capability Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). Large Area-to-weight ratio Self-bonding The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. Very good thermal insulation for apparel application Weak tensile properties Wicking Properties Application of spun-bond nonwoven fabrics: Sanitary and Hygiene: Sanitary napkins, Baby diapers and Incontinence diapers Medical and Surgical: Gowns, Face masks, Caps, Drapes, etc Other Miscellaneous Applications: Filtration Material, Agriculture, Oilsorbents Hot-melt adhesives Headliners, etc
About Meltblown Nonwoven Melt blown is a one step process to make fabrics from polymer. The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. The main purpose of melt blown fabric is to provide barrier property for the liquid. Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: Adjustable Pores And Capillary Structure Excellent barrier properties Filament size 1 -3 �?�µm High Elasticity High Filtration capability Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). Large Area-to-weight ratio Self-bonding The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. Very good thermal insulation for apparel application Weak tensile properties Wicking Properties Application of spun-bond nonwoven fabrics: Sanitary and Hygiene: Sanitary napkins, Baby diapers and Incontinence diapers Medical and Surgical: Gowns, Face masks, Caps, Drapes, etc Other Miscellaneous Applications: Filtration Material, Agriculture, Oilsorbents Hot-melt adhesives Headliners, etc
About Meltblown Nonwoven Melt blown is a one step process to make fabrics from polymer. The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. The main purpose of melt blown fabric is to provide barrier property for the liquid. Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: Adjustable Pores And Capillary Structure Excellent barrier properties Filament size 1 -3 �?�µm High Elasticity High Filtration capability Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). Large Area-to-weight ratio Self-bonding The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. Very good thermal insulation for apparel application Weak tensile properties Wicking Properties Application of spun-bond nonwoven fabrics: Sanitary and Hygiene: Sanitary napkins, Baby diapers and Incontinence diapers Medical and Surgical: Gowns, Face masks, Caps, Drapes, etc Other Miscellaneous Applications: Filtration Material, Agriculture, Oilsorbents Hot-melt adhesives Headliners, etc
About Meltblown Nonwoven â?¢ Melt blown is a one step process to make fabrics from polymer. â?¢ The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. â?¢ The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. â?¢ The main purpose of melt blown fabric is to provide barrier property for the liquid. â?¢ Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. â?¢ Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: â?¢ Adjustable Pores And Capillary Structure â?¢ Excellent barrier properties â?¢ Filament size 1 -3 �µm â?¢ High Elasticity â?¢ High Filtration capability â?¢ Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). â?¢ Large Area-to-weight ratio â?¢ Self-bonding â?¢ The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. â?¢ Very good thermal insulation for apparel application â?¢ Weak tensile properties â?¢ Wicking Properties Application of spun-bond nonwoven fabrics: â?¢ Sanitary and Hygiene: â?¢ Sanitary napkins, â?¢ Baby diapers and â?¢ Incontinence diapers â?¢ Medical and Surgical: â?¢ Gowns, â?¢ Face masks, â?¢ Caps, â?¢ Drapes, etc â?¢ Other Miscellaneous Applications: â?¢ Filtration Material, â?¢ Agriculture, â?¢ Oilsorbents â?¢ Hot-melt adhesives â?¢ Headliners, etc
Supplier: Spunlace non woven fabric and final products
Supplier: Knitted t-shirt , polo shirt , hood jackets in fleece , denim pants, bermudas, skirts
Services: Provide inspection from fabric to final garments inspection as per buyer's quality standard requirement
Buyer: Knitted t-shirt , polo shirt , hood jackets in fleece , denim pants, bermudas, skirts
Coated fabrics are flexible composite materials formed by applying bonding agents to either one or both sides of the fabric substrate and precisely coating it with different rubber compounds depending on the end application of the fabric. After the coating is cured it creates a strong bond between the rubber and the fabric. The final product after coating and curing is solid and flexible. It has a good stability and is washable, durable and much stronger than uncoated fabrics. Rubber coated fabrics are very close textured and therefore exhibit low permeation and diffusion. They can be electrically conductive and can also be weather, oil and temperature resistant. Zenith offers rubber-coated fabrics with special characteristics. We manufacture various types of fabrics for different applications such as barrier protection, abrasion resistance, air retention and high strength to weight ratios, flex resistance and resistance to chemical gases and fuels. Zenith uses basic fabrics such as Cotton, Nylon, Polyester, glass, knits, silk, Kevlar. Fabrics of various blends are coated with Nitrile, Chloroprene, Silicon, NR/SBR, Butyl, Hypalon (CSM), EPDM & blended polymers for variety of applications in the fields of Insulation, Defense, aviation, marine and offshore operations. ZRF fabrics are available from 0.3mm to 1.5mm thickness, 1.0 meter to 1.5 meter in width and in long lengths up to 100 meters. Zenith’s expertise in compounding is due to its extensive research and development program. All coated fabrics are vigorously tested for specification given by the customer. With our extensive testing procedures and fully equipped lab we ensure that all fabrics meet the highest quality standards. Zenith is using solvent-based coating, which gives better results as far as adhesion is concerned. Zenith’s large scale production capabilities and short development periods assures consistent quality and faster deliveries.
Coated fabrics are flexible composite materials formed by applying bonding agents to either one or both sides of the fabric substrate and precisely coating it with different rubber compounds depending on the end application of the fabric. After the coating is cured it creates a strong bond between the rubber and the fabric. The final product after coating and curing is solid and flexible. It has a good stability and is washable, durable and much stronger than uncoated fabrics. Rubber coated fabrics are very close textured and therefore exhibit low permeation and diffusion. They can be electrically conductive and can also be weather, oil and temperature resistant. Zenith offers rubber-coated fabrics with special characteristics. We manufacture various types of fabrics for different applications such as barrier protection, abrasion resistance, air retention and high strength to weight ratios, flex resistance and resistance to chemical gases and fuels. Zenith uses basic fabrics such as Cotton, Nylon, Polyester, glass, knits, silk, Kevlar. Fabrics of various blends are coated with Nitrile, Chloroprene, Silicon, NR/SBR, Butyl, Hypalon (CSM), EPDM & blended polymers for variety of applications in the fields of Insulation, Defense, aviation, marine and offshore operations. ZRF fabrics are available from 0.3mm to 1.5mm thickness, 1.0 meter to 1.5 meter in width and in long lengths up to 100 meters. Zenith’s expertise in compounding is due to its extensive research and development program. All coated fabrics are vigorously tested for specification given by the customer. With our extensive testing procedures and fully equipped lab we ensure that all fabrics meet the highest quality standards. Zenith is using solvent-based coating, which gives better results as far as adhesion is concerned. Zenith’s large scale production capabilities and short development periods assures consistent quality and faster deliveries.
Coated fabrics are flexible composite materials formed by applying bonding agents to either one or both sides of the fabric substrate and precisely coating it with different rubber compounds depending on the end application of the fabric. After the coating is cured it creates a strong bond between the rubber and the fabric. The final product after coating and curing is solid and flexible. It has a good stability and is washable, durable and much stronger than uncoated fabrics. Rubber coated fabrics are very close textured and therefore exhibit low permeation and diffusion. They can be electrically conductive and can also be weather, oil and temperature resistant. Zenith offers rubber-coated fabrics with special characteristics. We manufacture various types of fabrics for different applications such as barrier protection, abrasion resistance, air retention and high strength to weight ratios, flex resistance and resistance to chemical gases and fuels. Zenith uses basic fabrics such as Cotton, Nylon, Polyester, glass, knits, silk, Kevlar. Fabrics of various blends are coated with Nitrile, Chloroprene, Silicon, NR/SBR, Butyl, Hypalon (CSM), EPDM & blended polymers for variety of applications in the fields of Insulation, Defense, aviation, marine and offshore operations. ZRF fabrics are available from 0.3mm to 1.5mm thickness, 1.0 meter to 1.5 meter in width and in long lengths up to 100 meters. Zenith’s expertise in compounding is due to its extensive research and development program. All coated fabrics are vigorously tested for specification given by the customer. With our extensive testing procedures and fully equipped lab we ensure that all fabrics meet the highest quality standards. Zenith is using solvent-based coating, which gives better results as far as adhesion is concerned. Zenith’s large scale production capabilities and short development periods assures consistent quality and faster deliveries.
