Non-intensive, Facile Repellent Nanofibrous Textile Coating
Role of Surface Structure from Using Hydrophilic Polymer, & Increased Coating Adhesion from Atmospheric Pressure Plasma
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Utilizing atmospheric plasma, this work enhances coating adhesion on hydrophobic surfaces made from electrospun nanofibers, specifically for military Nylon 6,6/cotton fabric. The method promises efficiency, reducing processing time and resource consumption compared to traditional textile finishing. It maintains essential garment characteristics like moisture vapor transmission, crucial for heat dissipation, while providing protection against chemical and thermal hazards. This multilayered approach is significant for military, industrial, and medical textiles, showcasing multifunctional properties and environmental benefits.
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Non-intensive, Facile Repellent Nanofibrous Textile Coating, Michael Sieber
- Language
- Released
- 2011
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- Title
- Non-intensive, Facile Repellent Nanofibrous Textile Coating
- Subtitle
- Role of Surface Structure from Using Hydrophilic Polymer, & Increased Coating Adhesion from Atmospheric Pressure Plasma
- Language
- English
- Authors
- Michael Sieber
- Publisher
- LAP LAMBERT Academic Publishing
- Released
- 2011
- Format
- Paperback
- Pages
- 144
- ISBN13
- 9783846555439
- Category
- Nature in general
- Description
- Utilizing atmospheric plasma, this work enhances coating adhesion on hydrophobic surfaces made from electrospun nanofibers, specifically for military Nylon 6,6/cotton fabric. The method promises efficiency, reducing processing time and resource consumption compared to traditional textile finishing. It maintains essential garment characteristics like moisture vapor transmission, crucial for heat dissipation, while providing protection against chemical and thermal hazards. This multilayered approach is significant for military, industrial, and medical textiles, showcasing multifunctional properties and environmental benefits.