Spunlace reinforcement technology: multiple advantages of shaping Industry Spunlace Nonwoven Fabric

1. Flexible entanglement, non-destructive fiber
The core of spunlace reinforcement technology is to use high-pressure micro-water flow to puncture and entangle the fiber web. Unlike traditional chemical bonding or thermal bonding methods, spunlace reinforcement does not require the use of any chemical adhesives or high-temperature treatment, thus avoiding the risk of fiber damage due to chemical action or high temperature. During the spunlace process, the fibers are entangled with each other through the impact and rebound of the water flow, forming countless tiny flexible entanglement points. This entanglement method not only strengthens the structure of the fiber web, but also retains the original characteristics of the fiber, such as hygroscopicity, breathability, softness, etc., making the final product more in line with the requirements of modern textiles for comfort and functionality.

2. High strength and durability
Although Industry Spunlace Nonwoven Fabric is reinforced by flexible entanglement between fibers, its strength should not be underestimated. By precisely controlling parameters such as water pressure, water flow velocity and spray angle during the spunlace process, spunlace nonwoven fabrics with excellent tear resistance and abrasion resistance can be produced. This high strength and durability make spunlace nonwoven fabrics widely used in many fields such as medical care, hygiene, home decoration, and clothing. In the medical field, spunlace nonwoven fabrics are often used as raw materials for medical supplies such as surgical gowns, masks, and bandages. Their high strength and durability ensure the safety and reliability of these supplies during use.

3. Excellent water absorption and breathability
Another notable feature of Industry Spunlace Nonwoven Fabric is its excellent water absorption and breathability. This is mainly due to the tight entanglement between fibers and the hygroscopic properties of the fibers themselves. During the spunlace process, the fibers are more easily entangled with each other after being wetted by water, forming a tighter fiber network. This tight fiber network not only improves the water absorption of nonwoven fabrics, but also allows air and moisture to flow freely between fibers, thereby giving nonwoven fabrics good breathability. This excellent water absorption and breathability make spunlace nonwoven fabrics have a wide range of application prospects in cleaning products, sanitary products and other fields.

4. Environmental protection and sustainable development
Another important feature of spunlace reinforcement technology is its environmental protection. During the production process, spunlace nonwovens do not require the use of chemical adhesives or high-temperature treatment, thus avoiding the problems of chemical residues and energy consumption. The fiber raw materials used in spunlace nonwovens are mostly renewable resources, such as cotton, wood pulp, etc., which makes spunlace nonwovens have significant advantages in environmental protection and sustainable development. The water resources in the spunlace reinforcement process can be filtered and recycled, further reducing production costs and environmental impact.

5. Diversified fiber selection and product application
Spunlace reinforcement technology also has the characteristics of diversified fiber selection and wide application of products. During the production process, different fiber raw materials can be selected for mixing and proportioning according to different needs to produce spunlace nonwovens with different properties and characteristics. The use of natural fibers such as cotton and linen can produce soft, comfortable and breathable nonwovens; while the use of synthetic fibers such as polyester and nylon can produce high-strength and wear-resistant nonwovens. This diverse fiber selection makes spunlace nonwovens have broad application prospects in various fields, such as medical, health, home decoration, clothing, industry and agriculture.

6. High-precision and automated production
With the development of modern science and technology, spunlace reinforcement technology has achieved high-precision and automated production. Modern spunlace equipment is equipped with advanced control systems and sensors, which can accurately control various parameters in the spunlace process, such as water pressure, water flow speed, spray angle, etc., to ensure that the non-woven fabrics produced have stable quality and performance. The introduction of automated production lines has also greatly improved production efficiency and reduced production costs, making spunlace non-woven fabrics more competitive in the market.