Spunlace non-woven fabric and needle-punched nonwoven fabric are two different types of non-woven fabrics, each with its own characteristics and production methods.
1.Production Method:
(1)Spunlace Non-Woven Fabric: Spunlace non-woven fabric is produced by entangling fibers together through high-pressure water jets. This process creates a fabric with a smooth and soft texture.
(2)Needle-Punched Nonwoven Fabric: Needle-punched nonwoven fabric is made by mechanically interlocking fibers together using barbed needles. This process creates a fabric with a denser and more stable structure.
2.Texture and Appearance:
(1)Spunlace Non-Woven Fabric: Spunlace fabric typically has a smoother and softer texture compared to needle-punched fabric. It may have a more cloth-like feel and appearance.
(2)Needle-Punched Nonwoven Fabric: Needle-punched fabric tends to have a firmer and more rigid texture due to its denser structure. It may have a slightly rougher feel and appearance compared to spunlace fabric.
3.Strength and Durability:
(1)Spunlace Non-Woven Fabric: Spunlace fabric is generally softer and less durable compared to needle-punched fabric. It may be suitable for lightweight applications where softness is a priority.
(2)Needle-Punched Nonwoven Fabric: Needle-punched fabric is known for its strength and durability due to its denser structure. It is often used in applications requiring more robust performance.
4.Applications:
(1)Spunlace Non-Woven Fabric: Spunlace fabric is commonly used in products where softness and comfort are important, such as wipes, medical dressings, and hygiene products.
(2)Needle-Punched Nonwoven Fabric: Needle-punched fabric is utilized in applications requiring durability and stability, such as automotive interiors, filtration media, geotextiles, and industrial applications.
Overall, while both spunlace and needle-punched nonwoven fabrics are versatile materials with distinct characteristics, the choice between them depends on the specific requirements of the intended application, including texture, strength, and durability.
