A Polyurethane Screen is a wear-resistant screening medium made from cast or injection-molded PU elastomers. It fits vibrating screens, trommels, and dewatering units to separate materials by size while resisting abrasion, impact, and corrosion.
Aggregates and sand plants
Iron ore, copper, coal, and gold processing
Quarry scalping and final sizing
Dewatering, desliming, and fines recovery
Recycling (C&D, glass, plastics) and industrial minerals
A Polyurethane Screen often outlasts wire cloth and provides cleaner cuts than rubber in many duties. It reduces noise, lowers pegging/blinding, and maintains aperture accuracy.
High wear life with excellent cut accuracy
Lower noise and improved operator safety
Reduced blinding due to PU elasticity and tapered holes
Corrosion and chemical resistance in wet circuits
Modular replacement to minimize downtime
Choose the panel format and aperture that match your material, moisture, and machine.
Modular Panels (e.g., 305×305 mm): Fast change-outs, common on deck systems with pin-and-sleeve or snap-lock fastening.
Tensioned Screens: Hooked edges for retrofit into wire-cloth frames on side-tension machines.
Trommel Panels: Curved sections for rotary drums with bolted or clip-on systems.
Flip-Flow Mats: Highly elastic mats for sticky fines that require large amplitude.
Aperture geometry governs stratification, throughput, and blinding behavior.
Square: Balanced accuracy and open area for general sizing.
Slotted (Rectangular): Higher open area; choose slot direction to fight blinding.
Tapered/Conical: Wider at the bottom to reduce pegging and keep holes free.
Dewatering Slots: Narrow slots with high open area to accelerate drainage.
Start with target cut size, moisture, and feed gradation, then match thickness and hardness to duty.
Cut Size (D50): Typically select aperture 1.2–1.5× desired top size of the undersize for wet screening; closer to 1.0–1.2× for dry, well-graded feeds.
Panel Thickness: Thicker panels extend life but reduce open area; use thinner faces in finishing decks.
Shore Hardness: 85–95A for general wear; softer compounds for sticky fines; harder for coarse, high-impact scalping.
Open Area: Balance capacity and life; higher open area boosts throughput but may wear faster.
Moist, clay-bound feeds often blind screens. A Polyurethane Screen can mitigate this with the right design.
Choose tapered or slotted apertures with longitudinal slots for sticky feeds.
Use flip-flow or high-frequency decks to increase acceleration.
Add ball decks or ultrasonic assists where compatible.
Adjust feed rate and distribution to ensure uniform bed depth.
Correct fastening ensures flat seating and consistent cut.
Verify deck support spacing and panel compatibility (pin sizes, clip types).
Pre-tension tensioned PU screens to manufacturer values.
Stagger panel joints across the deck to avoid wear lines.
Check for proud fasteners that can damage the Polyurethane Screen.
Routine checks extend service life and protect downstream equipment.
Look for rounded edges of apertures (indicates wear and shifting cut).
Replace panels with cracks at bolt holes or pins.
Monitor pressure spray nozzles for alignment on wet decks.
Track tons per panel to predict change-out windows.
While unit price may be higher than wire, a Polyurethane Screen often lowers total cost per ton through longer life, fewer change-outs, and stable cut. Consider inventory commonality—standard modular sizes simplify stocking and reduce downtime.
Abrasiveness and top size of feed
Deck inclination and vibration frequency
Water addition and washing pressure
Aperture shape, panel thickness, and hardness
Target cut size and allowable by-pass
Feed moisture, clay content, and temperature
Deck type (modular, tensioned, trommel, flip-flow)
Aperture shape (square, slot, tapered) and open area
Shore hardness and panel thickness for duty
Fastening system compatibility and change-out speed
Often yes, due to tapered apertures and reduced blinding that keep effective open area high during operation.
Use thicker panels, reinforced ribs, and higher hardness. Consider hybrid decks (rubber on impact zone, PU on sizing zone).
Yes. Narrow slots and high open area deliver rapid drainage and sharp separation on dewatering decks.
When undersize carry-over rises, apertures show rounding or elongation, or panel fixings loosen repeatedly, schedule a change-out.
Match panel format, aperture geometry, thickness, and hardness to your feed and deck. With the right specification, a Polyurethane Screen delivers clean cuts, high uptime, and lower cost per ton across wet and dry screening applications.
Previous
None
Next
None
Comments
Please Join Us to post.
0