Airslide fabric, also known as air-permeable fabric or fluidization fabric.Airslide fabrics for industrial production mainly use heat-resistant and corrosion-resistant synthetic fibers and fabrics as raw materials. On special heavy-duty loom equipment, the warp and weft threads are interwoven according to specific requirements to form a multi-layer plate-shaped, breathable, Tubular fabric. Its construction involves a porous weave that allows air to pass through while retaining the conveyed material. This unique design enables the material to fluidize, forming a fluid-like layer that aids in the transport of bulk solids.

Airslide fabric is a device that supports materials, allows air to pass through evenly, and fluidizes materials. It is the core material of powdery material and granular material conveying equipment.

Airslide fabric, an essential component of airslide systems, undergoes rigorous testing to ensure its quality, performance, and compliance with industry standards. These testing standards play a crucial role in evaluating the fabric’s characteristics and its suitability for efficient material transportation.

Importance of Testing Standards

  1. Consistency: Standards ensure consistent testing methodologies and criteria across the industry, allowing for fair comparisons between different fabric manufacturers.
  2. Performance Evaluation: Standards provide benchmarks for assessing the performance of airslide fabric in terms of tensile strength, tear resistance, abrasion resistance, air permeability, and other crucial parameters.
  3. Quality Assurance: Compliance with testing standards ensures that airslide fabric meets minimum quality requirements, guaranteeing its reliability, durability, and safety in airslide systems.
  4. Industry Compliance: Adhering to testing standards enables manufacturers to meet industry regulations and customer expectations, fostering trust and reliability in the marketplace.
Airslide Fabric
Airslide Fabric

Testing Procedures

  1. Material Analysis: Manufacturers analyze the composition of the fabric to verify the quality of raw materials used in its production. This includes assessing the strength, durability, and chemical resistance of the fibers.
  2. Permeability Testing: Permeability testing evaluates the fabric’s ability to allow air to pass through while retaining the conveyed material. Standards dictate specific airflow rates and pressure differentials that the fabric must withstand to meet industry requirements.
  3. Abrasion Resistance: Given the abrasive nature of many conveyed materials, abrasion resistance testing is crucial to assess the fabric’s durability over time. Methods such as Taber abrasion testing simulate wear and tear to determine the fabric’s resistance to abrasion.
  4. Tensile Strength: Tensile strength testing measures the maximum load a fabric can withstand before breaking. It ensures that the fabric can endure the stresses encountered during operation without failure.
  5. Chemical Compatibility: Chemical compatibility testing assesses the fabric’s resistance to chemicals commonly encountered in industrial environments. This includes exposure to acids, alkalis, and other corrosive substances to determine the fabric’s stability and longevity.

Conclusion

Airslide fabric serves as a critical component in airslide systems, enabling the efficient handling of bulk materials in various industrial applications. Through rigorous testing and adherence to industry standards, manufacturers ensure that airslide fabric meets the highest quality and performance criteria..