Epoxy Ceramics & Urethanes

Chemical Barrier Coatings: These hi-tech 2-pack chemical resistant coatings are invaluable and highly successful for coating concrete and steel to provide protection against attack from most acidic solutions at temperatures of 200°C dry and 60°C wet.

Ceramics are a very effective barrier to protect against erosion and corrosion and they excel at dramatically reducing viscous drag by eradicating surface roughness providing a smooth and energy efficient surface. Specifically designed efficiency coatings can give up to 8% efficiency improvement without altering the fluid flow characteristics. This offers a very short pay back time for the coatings to pay for themselves in the energy efficient savings they make.

Pump bowl and impeller - re-profiled and lined using Epoxy Ceramic to resist cavitation and improve pump efficiency.

Urethane coatings are able to offer many of the advantages of rigid plastic, metals, glass and ceramic coatings but have the added advantage of coating flexibility. This flexibility avoids the possibility of the coating cracking in an unstable application and overcomes the movement caused by expansion and contraction of any component.

We offer a range of polyurethane’s that can offer protection to almost any substrate against the effects of corrosion, erosion, cavitation, abrasion and chemical attack. They can be sprayed, poured, trowelled, grouted, moulded, brushed and cast. The adhesion properties of polyurethanes linked with its versatility offers an engineering scope, which is superior to that of many rigid coating materials.

Hovercraft propeller blade coated with black urethane. The 2mm thick coating will provide erosion protection for the underlying GRP substrate when it is in service.



Pump casings are coated internally with an epoxy based efficiency coating. This will assist in maintaining the pumps efficiency and will reduce viscose drag which in turn will reduce the running costs. In addition to improved efficiency this coating will provide protection against erosion, corrosion and cavitation.

Pipe section treated our Bristol works was lined with an acid resistant epoxy ceramic that will resist a wide range of acids at ambient temperatures.
Condenser tube plate installed in a nuclear power station in the South West. Protected with a polyurethane elastomer at a DFT of 1.5mm which will provide erosion and corrosion protection which is imperative where dissimilar metals and salt water are present in the same location.
This pipe section from a cooling water systems carrying salt water is protected from corrosion and erosion by a polyurethane elastomer applied at a DFT of 2mm in our Bristol works prior to installation at a South West nuclear power station.