Zenova Product Testing

Testing

This concluded that Zenova IP thermal insulation paint can improve a properties EPC rating

This concluded that Zenova IP thermal insulation paint
dramatically reduces heat build-up on steel surfaces

This concluded that ZENOVA IP has a high solar reflectance and high thermal emittance.

This concluded that the addition of ZENOVA IP made the plasterboard fire resistant.

This concluded that the addition of ZENOVA IP did not enhance flame spread. Most modern homes are filled with furniture and fixtures made from materials that enhance flame spread.

ZENOVA IP was applied at a thickness of just 0.5mm on plasterboard to achieve the outstanding Reaction to fire classification: B – s1, d0.

The door reached 55 minutes without penetration of flame or excessive heat. This concluded that the additional paint applied improved the longevity and integrity of the door thus increasing its fire resistance performance.

This concluded that the addition of ZENOVA FP made the plywood fire resistant.

This concluded that the addition of ZENOVA FP stops flame spread. Most modern homes are filled with furniture and fixtures made from materials that enhance flame spread.

ZENOVA FP was applied in both tests at a thickness of just 0.75mm on highly combustible plywood to achieve the outstanding Reaction to fire classification: B – s2, d0.

This concluded that the addition of ZENOVA FP stops flame spread and does not contribute significantly to smoke development. Most modern homes are filled with furniture and fixtures made from materials that enhance flame spread.

This concluded that the addition of ZENOVA FP stops flame spread and does not contribute significantly to smoke development. Most modern homes are filled with furniture and fixtures made from materials that enhance flame spread.

This concluded that Zenova IR thermal insulation render dramatically reduces heat build-up on steel surfaces

This concluded that ZENOVA IR has a high solar reflectance and high thermal emittance.

The average thermal conductivity value when taken from three (3) samples was recorded as 0.069 W/mK, which proves that ZENOVA IR has very low thermal conductivity.

This concluded that the addition of ZENOVA IR did not enhance flame spread. Most modern homes are filled with furniture and fixtures made from materials that enhance flame spread.

This concluded that the application of ZENOVA IR made the plywood fire resistant with no lateral flame spread to the end of the specimen and no falling flame particles.

The average thermal conductivity value when taken from 5 samples was recorded as 0.0728 W/mK, which proves that ZENOVA IR has very low thermal conductivity.

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