Polypropylene Filter Press Plate | For Stone Processing / Ceramic Industry / Municipal Engineering | Support High-Pressure Dehydration Operation
The PP filter plate is made of high-strength polypropylene raw materials with a specially adjusted formulation and is injection-molded in a single process. It offers excellent tensile strength, high-temperature resistance, and structural stability. These plates perform reliably under high-pressure filtration environments and are widely applied in stone slurry dehydration, ceramic glaze recovery, and municipal sludge treatment.
Key Features:
- High Strength & Stability: One-time injection molding with reinforced ribs enhances compression resistance and ensures plate integrity under pressure.
- Leak-Proof Design: Precisely molded sealing edges effectively prevent leakage, improving operational safety and cleanliness.
- Efficient Cake Release: Smooth plate surface reduces filter cake adhesion, making discharge faster and easier to clean.
- Versatile Applications: Widely used in wastewater cutting in stone factories, glaze filtration in ceramic production, and sewage sludge dewatering.
- Material Compatibility: Made from corrosion-resistant composite polypropylene (PP), suitable for a wide range of chemical and industrial media.
Technical Specifications:
- Raw Material: Composite Polypropylene (PP), acid and alkali resistant
- Filtration Pressure: Up to 1.6MPa, suitable for high-pressure filtration tasks
- Plate Types: Available in chamber and membrane (diaphragm) styles
- Industry Use: Stone processing, ceramics manufacturing, municipal engineering
- Customization: Support for laser-engraved logo, feed port size, and plate specifications
- Certifications: Complies with ISO 9001; CE certification available for export
Why Choose Our Filter Plates
- Factory-direct supply ensures competitive pricing, stable inventory, and fast delivery.
- Technical support from our engineering team to assist with project design and customization.
- Reliable long-term performance in demanding industrial conditions with reduced maintenance.