ESD Flooring
ESD (Electrostatic Discharge) flooring is an engineered resin system built to control and safely dissipate static charge to earth, protecting sensitive electronics, ignition-risk areas, and controlled environments. POLYZEN engineers each ESD floor as a complete grounded system — from a conductive copper-grid network to the static-control finish — for electronics manufacturing, data centres, defence, and explosive-atmosphere facilities.
How a POLYZEN ESD floor is built
Survey & Mechanical Preparation
Diamond grinding or shot-blasting removes the weak laitance layer and opens the concrete profile for a true mechanical bond.
Conductive Priming
A conductive primer is applied to create a uniform charge-carrying base across the prepared slab.
Copper Earthing Grid
A copper-strip grounding network is laid and connected to the building earth — the path that carries static charge safely away.
Static-Control Build-Up
The defining layer — a dissipative or conductive resin body engineered to a controlled electrical resistance.
Finish & Seal
A static-control topcoat that locks in the floor's electrical performance and surface durability.
Test, Cure & Handover
Surface-resistance testing to verify electrical performance, controlled cure, and staged return-to-service.
ESD flooring systems
Anti-Static (Dissipative) ESD Flooring
Controlled static dissipation for electronics, labs, and clean assembly areas.
Conductive primer → copper earthing grid → dissipative resin body → static-control seal
Conductive ESD Flooring
The lowest-resistance path to earth for the most static-sensitive zones.
Conductive primer → copper earthing grid → conductive resin body → conductive seal
Earthing & Grounding Integration
The copper-grid groundwork that makes any ESD floor actually work.
Conductive base → copper-strip grid layout → earth-point bonding → continuity check
Which ESD floor do you need?
Sectors we serve
Frequently asked questions
What is ESD flooring?
An engineered resin floor system that controls and safely dissipates static electricity to earth, protecting sensitive electronics, equipment, and ignition-risk environments.
What is the difference between dissipative and conductive ESD flooring?
Dissipative floors discharge static at a slower, controlled rate, while conductive floors offer the lowest resistance and fastest path to earth for the most static-sensitive areas. The right choice depends on the facility's electrical specification.
Why does an ESD floor need a copper earthing grid?
The copper-strip grid connected to the building earth is what actually carries the static charge away — without a properly bonded grounding network, a static-control resin alone cannot do its job.
Where is ESD flooring required?
In electronics manufacturing, data centres, defence and munitions facilities, telecom, aerospace, and any area where static discharge can damage equipment or create an ignition risk.
Is the floor's electrical performance tested?
Yes — surface-resistance testing is carried out to verify the floor meets the required electrical performance before handover.
Which ESD system is right for my facility?
It depends on your static-sensitivity level, applicable standards, and risk environment — POLYZEN surveys the site and engineers the correct dissipative or conductive system.
Ready to specify your ESD floor?
Tell us your facility, area, and conditions — we'll engineer the right system.