Polyurea Resins
Polyurea is a two component thermosetting elastomer that gels in seconds, so it is almost always sprayed through plural component equipment that mixes both parts at the gun. The cured membrane is tough and flexible: tensile strength up to 25 N/mm², elongation of 200 to 700%, hardness from Shore A 80 to Shore D 60, and strong abrasion and impact resistance. It cures over damp substrates and across a wide temperature range, the trade off being its demand for specialist equipment and applicator skill.
What Is Polyurea Resin?
Polyurea is a two component thermosetting elastomer that gels in seconds, so it is almost always sprayed through specialist plural component equipment that meters and mixes both parts at the gun. The cured membrane is tough and flexible: tensile strength up to 25 N/mm², elongation of 200 to 700%, hardness from Shore A 80 to Shore D 60, and strong abrasion and impact resistance. It cures over damp substrates and across a wide temperature range, the trade off being its demand for specialist equipment and applicator skill.
Types of Polyurea Resin Systems
Polyurea Key Features
Polyurea Applications
Polyurea Chemical Resistance Profile
Polyurea offers good general chemical resistance, but it is not specified primarily for chemistry. Its core advantages are rapid cure, mechanical performance and waterproofing rather than resistance to aggressive acids. In broad terms:
Polyurea resists well:
Polyurea has limitations against:
Polyurea Suitable Build-Up Methods
Protective Coatings
The dominant build-up for polyurea, sprayed as a single high-build pass that delivers the full lining envelope in one operation.
Bund Lining Repairs
Rapid-cure remediation where a bund must be back in service inside hours rather than days, particularly on live data centre and retail forecourt assets.
Surface Preparation
Every polyurea specification is preceded by aggressive preparation tuned to the chemistry's adhesion requirements.
Site Fabrication
Selectively, for sprayed reinforcing detail bands at re-entrant corners and over-laminated movement details where polyurea's elasticity is the right answer.
Polyurea Application Conditions and Requirements
Polyurea Surface Preparation Requirements
Polyurea demands more aggressive preparation than epoxy or PU, because the rapid cure leaves no time for the resin to wet into a marginal substrate. Our standard requirements are:
Concrete substrates
Abrasive blasted, scabbled or shot blasted to ICRI CSP 5–7, exposing a deeper mechanical profile than a standard epoxy preparation.
Steel substrates
Abrasive blasted to SA 2.5, primed within the manufacturer's specified window before flash rust forms.
Moisture content
Polyurea is moisture-tolerant, but most systems still benefit from substrate moisture under the manufacturer's stated threshold (typically 4–6%).
Detail repair
Cracks, blowholes and broken arrises reinstated with compatible polymer mortar before priming.
Cleanliness
Fully extracted, dust-free, contamination-free substrate at the time of spray.
Priming
Polyurea-compatible primer is essential, since the polyurea itself does not penetrate as well as epoxy. The right primer is what allows the polyurea to bond reliably to concrete or steel.
Polyurea Advantages and Limitations
We position polyurea honestly so the right chemistry can be specified for each duty:
Advantages
Limitations
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Our technical team can advise on the right system for your project.
How Polyurea Compares to Other Systems
Polyurea FAQs
A correctly specified, properly applied and well-maintained polyurea bund lining typically delivers 15–25 years of compliant service, with mechanical durability often outlasting the asset’s other infrastructure. UV-exposed external systems sit at the lower end of that range unless aliphatic chemistry has been specified.
Aromatic polyurea systems chalk and yellow under UV exposure, although mechanical performance generally holds even where appearance has gone off. Aliphatic polyurea retains colour and gloss across years of external exposure, and is specified wherever weathering and UV stability matter alongside the rapid-cure advantage.
Polyurea is not the right chemistry for concentrated mineral acids, strong oxidisers, polar solvents at concentration, hot caustic or hydrofluoric acid duty. We also avoid it where the build-up calls for self-levelling, screed or trowel work, since polyurea’s rapid cure is incompatible with those placement methods.
Yes, polyurea systems can be repaired and overcoated using compatible polyurea chemistry, but cured polyurea normally requires mechanical keying or specialist tie-coat priming for the new layer to bond reliably. Repair work is straightforward in scope but requires the same plural-component spray equipment as the original install.
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