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SMS Spunmelt Nonwoven Fabric Making Line
HG Spunbmelt Nonwoven Fabric Making Machine Technical Specification
All Types of Nonwoven Fabric Production Lines to Elevate Your Business
| Model |
HG-1600mm |
HG-2400mm |
HG-3200mm |
| technology |
Spun bond and Melt blown non woven making |
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| Spinning beam |
SMS/SMMS/SSMS/SSMMS |
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| Raw material |
Polypropylene |
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| Output(ton) |
12/13/13/16ton |
16/18/18/22ton |
20/22/22/30ton |
| Speed (m/min) |
400/500/500/500 m/min |
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| GSM range(g/sqm) |
8-100 g/sqm |
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| Filament Denier |
1.6-2.0 denier |
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Production Line Key steps
What is Spunbond Nonwoven Fabric?
Spunbond nonwoven fabric is created by spinning polymer fibers directly onto a conveyor belt or forming them into a mat. This process involves the following key steps:
Polymer Extrusion: Polymers such as polypropylene (PP) are melted and extruded through spinnerets to form continuous filaments.
Fiber Formation: The filaments are then cooled and stretched to enhance their strength and flexibility.
Web Formation: The continuous filaments are laid down in a random or oriented pattern to form a web.
Bonding: The web is bonded through various methods such as thermal bonding, chemical bonding, or mechanical bonding to create a cohesive fabric.
Finishing: The final fabric may undergo additional processes such as dyeing, coating, or embossing to meet specific requirements.
The Advantage of HG Nonwoven Fabric Making Machines
1. High accurate raw material blender for raw material and additives;
2. High capacity extrusion machine with good screw and barrel;
2. High capacity extrusion machine with good screw and barrel;
3. High performance melt filtration system;
4. High Speed with high accurate melt pump;
5. Latest melt flow design and spinning system;
6. Well-know PLC control system and Siemens motors;
7. Smart operation program and monitoring system;
8. Imported Enka / Kasen spinneret and meltblown die;
Applications of Spunbmelt Nonwoven Fabrics
Medical and Hygiene Products: Spunbond and meltblown nonwoven fabrics are widely used in the production of medical gowns, masks, drapes, and diapers. Their high breathability, softness, and fluid resistance make them suitable for maintaining hygiene and preventing contamination.