PP670 Buoyant Hexagonal Profile Media revolutionizes liquid purification with its engineered polypropylene structure. These buoyant pellets utilize a six-sided geometric design to maintain continuous 360° contact with contaminants while suspended in process flows. The multi-bonded fiber matrix achieves exceptional microbial adsorption and sub-micron particle retention without chemical binders. Ideal for demanding applications including food-grade filtration, sterile-grade medical processing, wastewater flotsam recovery, and consumer water purification systems, this non-shedding media delivers >92% pathogen retention.
| Item | Parameter | |||||
| Material | PE/PP | |||||
| Water Absorbency | It has good water absorbency and can continuously suspend in water. | |||||
| Color Fastness | The finished product does not fade and does not shed hair after being washed with water once. | |||||
| Specification | 5mm*5mm*3mm | |||||
| Fiber Diameter | 25±10μm | |||||
| Porosity | >76% | |||||
| Pore Diameter | φ5-70um | |||||
| Specific Gravity | 0.85-0.95 | |||||
| Single Particle Weight | 0.016±0.003g | |||||
Low-density PP construction with optimal rigidity maintains buoyancy to enable omnidirectional filtration through all six surfaces while exhibiting superior water absorption kinetics.
Multi-bonded fiber matrix achieves high-efficiency capture of microorganisms and sub-micron particulates, delivering exceptional wastewater purification efficacy.
Binder-free manufacturing process ensures zero chemical leaching, non-shedding performance, and colorfast operation.
1. Electronics/Chemical Manufacturing: Process liquid pretreatment
2. Wastewater Treatment: Floating media bioreactors (FMBR)
3. Medical Devices: Sterile fluid filtration
4. Consumer Products: Water Purifier Cartridges/Showerhead Filtration Systems/Potable Water Filtration
5. Food Processing: Beverage Clarification/Edible Oil Polishing/ Pharmaceutical Fluid Sterilization
6. Environmental Remediation: Surface Flotsam Recovery/High-hygiene Liquid Filtration/Bacterial Adsorption in Aquatic Systems
