The Problem
Cold room floors operate under extreme conditions—low temperatures, thermal cycling, moisture pressure, and heavy pallet loads. Many cold rooms only start showing floor failure after operations begin, when repairs become costly and disruptive.Common Failures & Industry Observations
- Over 60–70% of cold room floor failures are linked to improper vapor barrier or insulation coordination.
- More than 50% of cracked cold room slabs are caused by thermal movement not accounted for in slab design.
- Epoxy flooring failures in cold rooms occur in over 40% of cases where PU flooring should have been specified instead.
- Moisture migration below slabs is a leading cause of long-term delamination and cracking.
Why Cold Room Floors Fail
Cold rooms introduce thermal contraction, condensation, and differential movement between insulation panels, slab edges, and structural concrete. When a cold room floor is treated like a normal warehouse slab, cracking, debonding, and moisture problems are almost inevitable.Our services & how we solve it
We design and rebuild cold room floors as a complete system, not just a concrete slab. Our services include:
- Cold room slab design with correct reinforcement and thickness
- Proper vapor barrier and moisture control detailing
- Coordination with insulation panels and cold room systems
- PU flooring systems suitable for thermal shock and hygiene
- Repair or full rebuild of failed cold room floors
