What exactly is Isolite® Expanded Polystyrene (EPS)?

It is a lightweight cellular material consisting of fine spherical shaped particles, which are comprised of 98% air and 2% polystyrene. This air is trapped within a number of closed hollow cells in each particle.

How is Isolite® manufactured?

When raw EPS particles containing a blowing or expanding agent are softened by heating with steam, the hollowed closed cells are formed within the particles which expand to up to 50 times their original volume.

Blocks of EPS are made by resoftening the expanded particles in a block mould with steam until they fuse together. The block is then cut into sheets or boards.

Shaped EPS products are produced either by cutting blocks with a hot wire or by direct moulding of the expanded particles in specially shaped moulds.

How effective is Isolite® as a thermal insulation material?

Extremely effective...essentially because stabilised air is such a good insulator.

The thermal performance of a material is measured in terms of its resistance to the flow of heat. This thermal resistance is expressed in R-values, the higher the number, the better the insulation.

The R-Value of the most commonly used Class (Class SL) is U3 for every 50mm thickness. Thus, 44mm of this Class of EPS delivers an R-Value of 1.13.

Does Isolite® absorb water?

Isolite® is a closed cell and cannot absorb water. During the process of moulding a block, tiny channels are formed between the EPS particles. If the material is immersed in water these tiny channels can be filled with water. After immersion for more than 360 days, there may be up to 6% water content by volume, which has entered the channels.

Even under such an adverse and rare condition of prolonged saturation, Isolite® suffers little adverse effect. It maintains its shape, size, structure, cohesion and physical appearance. The ability of Isolite® to resist the adverse effects of moisture is exemplified by its widespread use in floats, marinas and other applications, which involve full or partial submergence in water for prolonged periods of time.

Does Isolite® have a capillary action?

No. Isolite® does not have a capillary action. Isolite® is ideally suited when the insulation material is in contact with the ground.

Isolite® is said to breathe. What does this mean?

The breathability characteristic of Isolite® refers to its ability to allow any absorbed moisture to escape when conditions change. It therefore reduces any tendency towards the formation of vapour dams.

In applications where high humidity and temperature differentials are likely, a water vapour barrier such as plastic sheeting should be used. The vapour barrier is best installed on the warm side of the structural component, with the insulation as near as possible to the cold side.

Does age affect the thermal performance of Isolite®?

No. Isolite® consists of 98% air and 2% polystyrene, and nothing else. Because of its cellular structure Isolite® is dimensionally stable, and will not settle over time. When used and installed correctly it does not deteriorate with age and as such is able to deliver constant R-Values for the life of the building.

Is Isolite® strong?

Yes. Isolite® is manufactured in a number of classes (or densities), and each class exhibits excellent compressive and flexural strength and dimensional stability characteristics a very high strength to weight ratio. The range of classes available enables specifiers to select the most appropriate balance between structural and insulation properties for any building application.

How effective is Isolite® as an acoustic Insulation material?

Because Isolite® has a closed cell structure, it offers only a limited absorption of airborne sounds.

Is Isolite® resistant to chemicals?

It depends. It is resistant to virtually all aqueous media including dilute acids and alkalis and to methanol, ethanol and silicone oils.

It has limited resistance to paraffin oil, vegetable oils, diesel fuel and vaseline, which may attack the surface of Isolite® after long-term contact.

It is not resistant to hydrocarbons, ketones, esters, paints containing thinners, and solutions of synthetic adhesives. In roof construction requiring hot asphalt, care should be taken to follow recommended installation instructions for hot bituminous asphalt to prevent melting or collapse of Isolite® insulation boards.

Is Isolite® degraded by ultraviolet light?

Prolonged exposure to sunlight will cause a slight discolouration (yellowing) of Isolite® insulation and cause some surface embrittlement.

Even so, the thermal insulation properties will not be affected unless exposure results in loss of thickness of the EPS boards, although the friable surface can make bonding difficult. For this reason, EPS insulation should be covered to protect it from UV light if it is to be stored in the open for extended periods.

Is Isolite® durable?

Yes. Because Isolite® is an inert, organic material, it will not rot and is highly resistant to mildew. It also provides no nutritional value to ants, termites, or rodents.

To prevent damage to Isolite® by pests and insects seeking to gain access to the other materials in buildings which provide a food source, EPS may be coated with a thin cement slurry.

Provided Isolite® does not suffer mechanical damage or failure of any fittings that may be used, it should have a life equal to that of the building in which it is installed.

Does Isolite® contain CFCs?

No. Isolite® is chlorofluorocarbon (CFe) and hydro chlorofluorocarbon (HCFe) free. At no stage during the manufacture or application of EPS is the use of CFCs or HCFCs, or other compounds which are said to contribute to the destruction of the earth's ozone layer, required.

Does Isolite® burn?

Because Isolite® insulation boards contain a fire retardant additive, they do not present an undue fire hazard when correctly installed.

Like timber, particleboard and other organic building materials, Isolite® will burn when in contact with a flame. Due to the presence of the fire retardant additive in Isolite®, this flame will self extinguish almost immediately after the fire source is removed.

Does Isolite® give off toxic fumes?

The level of toxicity of Isolite® in a fire situation is no greater than that of timber and other commonly used building materials; the same toxic gas, carbon monoxide is produced. Also produced are carbon dioxide and soot (carbon). There is no emission of such gases as hydrogen cyanide or hydrogen chloride.

Where can Isolite® be used in building construction?

In almost any application where insulation or a combination of insulation and strength are required.

As an insulation material, it is used in a number of roof, wall, ceiling, and sub floor systems ... often in combination with other materials such as steel (in sandwich panels commonly used for cold store construction), concrete (as an insulation core in tilt up wall panels) and gypsum and plasterboard (as skins for ceiling panels and other prefabricated components).

Is Isolite® subject to New Zealand Standards?

Yes. Manufacturers when stating the class of EPS and therefore its physical characteristics are required to manufacture to AS 1366 Part 3 - 1992. As such, the properties of EPS required for a particular application are guaranteed.

Is Isolite® cost effective compared to alternative insulation?

Because of the high level of versatility of Isolite® and the wide range of applications for which it is suitable, its cost effectiveness compared to alternative materials can generally be accurately assessed only on a case by ease basis.

In many applications however, particularly where an element of structural strength is required, EPS is the most cost effective insulation material available. Isolite® is the only insulation material that in practical, economic and efficiency terms can be applied to all areas of building constructions – ceilings, roofs, walls, floors and under slab – to provide superior standards of thermal insulation – that’s why Isolite® is the Ultimate Insulation.