From Canada

This brochure describesIcynene water-blown,spray foam insulationand its use in new build,refurbishment andrenovation projects.Icynene is suitable fordomestic, commercialand public buildings,including schools andhospitals. It can also beused to insulate vehicles,including camper vansand buses.

Icynene was developedin Canada over 30 yearsago as a safe alternativeto urea formaldehydeinsulation, and remainsthe only 100% water-blown insulation in theworld. Icynene isdistributed in over 38countries and is theworld’s best-selling opencell insulation. Icynene isonly installed by Icynenetrained and accreditedinstallers.

Key EHQHƓWV of Icynene• Low thermal conductivity: provides good thermal performance in new and existing

structures.

• Non-irritant and hygienic: unlike many other spray foam insulations Icynene is totally inert,odorless and produces no harmful emissions after installation.

• Air-tight: it expands in volume by up to 100 times after spraying, pushing its way intocracks and voids to form a complete seal to surfaces and cavities.

• Vapour open: the open cell structure allows water vapour to diffuse through the foam,preventing harmful build up of moisture within a structure.

• A good acoustic insulant: ideal for reducing sound transmission into and around buildings.

• Does not sag: unlike other Ŵexible insulants – such as mineral ƓEre and cellulose – whichslump and sag over time, Icynene retains its shape, giving long term thermal performance.

Technical GHVFULSWLRQIcynene open cell foam is a water-blown,two-part foam, consisting of a polyol resinand MDI catalyst. It is available in threetypes, each suited to a different range ofapplications.

• Icynene LD-C-50 (H2 foam lite): rapidlyexpanding foam intended for sprayingonto surfaces and used for insulatingwalls, roofs and ŴRRUV�

• Icynene LD-C-70 (H2 foam lite plus):rapidly expanding foam intended forspraying onto surfaces and used wherehigher foam density is required.

• Icynene LD-P-50: contains less catalystthan LD-C-50, producing a slow risefoam which is ideal for ƓOOLQJ cavities,particularly in sensitive structures.

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Properties LD-C-50 LD-C-70

Density kg/m³ 7.5 – 8.3 11±1

Dimensional stability: length: +0.03* -0.5**width: +0.02 -0.2thickness: -0.1 +0.2

Maximum thickness in one pass 300mm 300mm

Colour Yellow Cream

CerWLƓFaWLRQ• Agrément cerWLƓFate 08/4598.

Icynene LD-C-50

• Agrément cerWLƓFate Pending. Icynene LD-C-70

• Irish Agrément Board 09/0333 Icynene LD-C-50

• European Technical Approval ETA-08/0018 (VTT)

• AMICA (European Association for Chronic Toxic Injury).

• Component chemicals manufactured toISO 9001.

* (% at 23ºC and 75%RH)** (% at 70ºC and 90%RH)

3Spray Foam Insulation

PerformanceStructural: Icynene foam is self supportingand does not slump or sag. It is sufƓFLHQWO\Ŵexible to allow differential movement ofthe materials to which it is bonded withoutdelaminating from the surface.

Chemical: Icynene foam can be sprayeddirectly onto zinc without causingcorrosion. It is compatible with mostcommon chemicals occurring inconstruction.

Fire: Like most other foams Icynene foamis combustible and must be protected fromnaked ŴDPHV and ignition sources. When Icynene foam is installed in a timberstructure behind 12mm plasterboard thestructure achieves a Ɠre rating of B-s1, d0.

Icynene does not propagate ŴDPH anddoes not drip. It is self-extinguishing.

Air: Icynene spray foam is airtight andforms an effective air barrier.

Performance daWD

Properties LD-C-50 LD-C-70 LD-P-50

Compressive strength������������������������7 Pending���������������������������(>10% deformation) (kPa)

Dynamic stiffness (MN/m³) 4.3 – 8.4 Pending 4.3 - 8.4

Reaction to Ɠre Class F Class E Class F

Thermal conductivity (W/mK) 0.039 0.03� 0.039

Water absorption (kg/m²) 0.3 >5% by volume 0.3

Water vapour permeability, µ 3.3 4.3 3.3

01 x �.7 )aP s m(/³m( ytilibaemrep riA -9 4.2 x 10-8 ������������������������� x 10-9

Biological: Icynene does not support thegrowth of mould or fungus and is not afood source for rodents or insects.

Durability: Icynene spray foam can beexpected to last for the life time of thebuilding.

Environmental: Icynene spray foam doesnot contain any chemical blowing agents,HFCs or PBDEs. It has a Global WarmingPotential (GWP) of 1 and an OzoneDepletion Potential (ODP) of 0.

Water: Icynene spray foam will not 'wick'water, but it is not a waterprRRƓQJ measureand will not prevent the passage of liquidwater. If wetted, Icynene foam retains itshape, without shrinking or distorting, andregains its performance when dry. Icynenefoam is vapour open and does not preventthe passage of water vapour.

Icynene spray foam expands around pipes,services and penetrations to provide anunbroken layer of insulation which will notslump or settle. As Icynene foam is Ŵexibleit accommodates differential movement inother building components whilemaintaining an airtight seal.

AirWLJKWQHVV

Air leakage is responsible for a VLJQLƓFDQWproportion of heat loss from buildings andfor the transportation of contaminants intothe building. On application, Icynene foamforms an airtight barrier, reducing airmovement between the building interiorand the atmosphere.

'HVLJQ workFireIcynene LD-C-50 must notform the exposed surface ofan element in habitablerooms. They should beprotected behind a layer ofƓre resistant material, such as12.5mm plasterboard withjoints supported and sealed.Where Icynene is appliedwithin an unoccupied roofspace the existing ceiling willusually provide sufƓFLHQWprotection.

Icycnene LD-C-70 can becoated to give a Class 0surface, making it suitable foruse as exposed surface. (Notethe coating will reduce thevapour permeability of thefoam.)

Icynene foam must be keptaway from heat producingappliances and be separatedfrom ŴXH pipes. The requiredseparation distance will bedetermined from the ŴXHmaterial and the temperatureof exhaust gases.

ThermalIcynene foam is effective inreducing heat loss byconduction through thebuilding fabric. It forms acontinuous layer of insulation,without gaps or breaks: incontrast to rigid insulationboards which are difƓFXOW to ƓWaccurately into framing.

U-value WDEOH LD-C-50

Element Bridging timbers LD-C-50 thickness (mm) U-value between across (W/m²K) timbers faceExisting 50 x 150mm rafters: 400mm centres 150 70 0.20sloping roof 150 90 0.18New 47 x 200mm rafters: ���PP centres (1) 200 20 0.20sloping roof 200 40 0.18 200 �����������������0 ����������������� 200 120 0.13Loft (2) 50 x 100mm joists: 400mm centres 100 100 0.20 100 120 0.18 100 150 ����������������� 100 200 0.13Timber 38 x 140mm studs: ���PP centres 140 – 0.30frame wall (3) 140 10 0.28 140 45 0.21 38 x 200mm studs: ���PP centres 200 45 0.17

U-value WDEOH LD-C-70

Element Bridging timbers LD-C-70 thickness (mm) U-value between across (W/m²K) timbers faceExisting 50 x 150mm rafters: 400mm centres 150 70 0.18sloping roof 150 90 �����������������New 47 x 200mm rafters: ���PP centres (1) 200 20 0.18sloping roof 200 40 ����������������� 200 �����������������0 0.15 200 120 0.12Loft (2) 50 x 100mm joists: 400mm centres 100 100 0.18 100 120 0.17 100 150 0.15 100 200 0.12Timber 38 x 140mm studs: ���PP centres 140 – 0.28frame wall (3) 140 10 0.25 140 45 0.20 38 x 200mm studs: ���PP centres 200 45 �����������������

Plasterboard taken as 12.5 mm at 0.25 W/mK and all timber percentages taken from BRE Report BR 443.

(1) 47 mm cross battens at ��� mm centres.(2) LD-C-50 above ceiling joists.(3) 47 mm counter battens at ��� mm centres.

5

As Icynene foam is Ŵexible, itaccommodates differential movementproduced by drying out and temperatureŴXFWXations, ensuring long-term protectionagainst air leakage.

Applying Icynene foam to an existingstructure will reduce air movement: it isvital to ensure that, after application, therewill be sufƓFLHQW ventilation for the healthand well-being of building occupants, andfor the safe operation of any combustionappliances. It may be necessary to installadditional vents to maintain ventilationrates.

CRQGHQVaWLRQInterstitial condensation forms when highconcentrations of water vapour formbehind impermeable layers on the coldside of thermal insulation. It can causedecay and rust of building materialsleading to structural damage and areduction in the thermal performance ofbuilding materials.

In order to prevent interstitial condensationdesigners should ƓUVW ensure water vapouris extracted from the occupied space asclose to the point of generation aspossible, and then specify constructionswhich will not lead to high concentrationsof water vapour.

Spray Foam Insulation

Open cell Icynene foam is vapourpermeable, allowing the passage of watervapour. It is suitable for ‘breathing wall’constructions, which rely on using materialsof low vapour resistance.

Where it is proposed to insulate existingstructures the effect of upgrading thethermal performance on the temperatureand vapour conditions within the structuremust be assessed by condensation riskanalysis. This is particularly important inpitched roofs with rRRƓQJ underlays whichhave high vapour resistance. Remedialmeasures, such as the installation of avapour control layer, may be required toreduce a condensation risk.

$FRXVWLFThe transmission of sound between roomsin buildings, and into a building fromoutside, causes disturbance for occupantsand should be limited. As an open cellmaterial Icynene foam is effective inreducing airborne sound throughseparating walls and ŴRRUV when appliedbetween timber or metal studs and joists.

Airborne sound insulation and impactsound transmission results exceed thestandards required in Building Regulationsand Building Standards for new dwellingsand those formed by material change ofuse (see acoustic performance table).

$FRXVWLF SHUIRUPDQFH

Construction Test criteria Results

Timber framed separating wall(1) Airborne sound insulation (DnTw (+Ctr)) 59dB

Twin frame timber wall, Airborne sound insulation (DnTw (+Ctr)) 50dBIcynene applied to each frame(2)

Steel stud wall(3) Sound transmission class 48dB

Floor: robust details E-FT-1(4) Airborne sound insulation (DnTw + (Ctr) 59(-10)dB Impact sound transmission (L’nTw) 47dB

Test references:(1) BPC. Report P/4950I/09 (2) ADC. 143 22009 (3) ATL. NGC 2004012(4) BPC. Report P/4950H/09

Icynene foam can also beapplied to the underside ofroofs to reduce thetransmission of external noiseinto a building. It can also besprayed on the underside ofsheet metal roofs to reduceintrusive rain noise.

New buildIcynene foam is well-suited for insulating walls and roofs in newbuildings; it provides a high standard of thermal insulation,minimises air leakage and reduces the transmission ofcontaminants from outside, as well as reducing nuisance noise.Icynene foam forms a permanent, seal to studs, Ŵexing andmoving with the rest of the construction, so improving the long-term airtightness of the building and reducing energy use.

Timber or steel frame walls may be insulated by sprayingIcynene foam between the studs, to their full depth �ƓJXre 01),while walls of portal frame builds may be insulated by ƓOOLQJ thecavities between the internal and external faces with Icynenefoam �ƓJXre 02).

Roofs may be insulated by spraying to the underside of thedeck �Ŵat roofs), timber sarking, or to the underside of therRRƓQJ membrane (pitched roofs - ƓJXre 05). Because Icynenefoam expands when sprayed it is easy to form a continuouslayer of insulation even across challenging roof shapes.

Icynene may also be sprayed to the underside of metal roofdecks to minimise rain noise.

RHIXUELVKPHQW - ZDOOVIcynene can be used to upgrade existing masonry walls byinternally insulating them. The internal face should be battenedout to the required depth with battens at ���PP centres.Icynene is then sprayed to the depth of the battens andtrimmed. The wall is then ƓQLVKHG with plasterboard �ƓJXre 04).

As insulating the inner face will change the temperature prRƓOHthrough the wall, condensation risk analysis should be carriedout to determine whether a vapour control layer (VCL) will berequired.

System built walls, such as Trusteel, can be insulated withIcynene LD-P-50 in the wall cavity. Similarly, cavities behind lathand plaster on solid stone walls can also be insulated withIcynene LD-P-50.

Figure 01: insulating timber frame walls

Figure 02: insulating masonry walls

Figure 03: insulating / refurbishing ground ŴRRUV

7Spray Foam Insulation

Figure 04: insulating / refurbishing walls and intermediate ŴRRUV

Figure 05: insulating pitched roofs

Figure 06: insulating / refurbishing pitched roofs

RHIXUELVKPHQW - ŴRRUVSuspended timber ŴRRUV suffer from heat loss by conduction tothe XQGHUŴRRU void, while VXE�ŴRRU ventilation to prevent dampresults in draughts between the boards and at the ŴRRU perimeter.

Icynene foam can be sprayed to the underside of the boards,ƓOOLQJ the space between the joists �ƓJXre 03). The insulation willreduce conduction heat loss through the ŴRRU – making itwarmer underfoot – and also eliminate air LQƓOWration through thedeck and the perimeter.

The installation should leave a minimum 150mm air gapbetween the underside of the joists and the surface of the sub-ŴRRU void. High-rated electrical cables (such as cooker or showersupplies) should be de-rated or set in trunking or conduit toavoid overheating.

RHIXUELVKPHQW - rRRIVIcynene foam can be sprayed on the underside of tiles and slatesand timber sarking to upgrade the thermal performance ofexisting pitched roofs �ƓJXre ���. The loft may be insulated inorder to improve the overall thermal performance of thedwelling, or to provide additional living space. Where a low U-value is required it may be necessary to Ɠ[ cross battens to theunderside of the rafters to increase the depth of Icynene foam.

The gable walls should also be insulated with Icynene sprayfoam to form a well conditioned space. If the loft is going to beused as an occupied space the Icynene foam must be protectedwith a Ɠre-resistant covering such as 12.5mm plasterboard.

Icynene foam may be sprayed onto the underside of a vapouropen rRRƓQJ underlay. The foam maintains the drape of theunderlay, allowing wind-driven rain to drain from the battenspace without the need for counter battens.

Where the rRRƓQJ underlay has a high vapour resistance (beingeither bituminous felt or polyethylene) condensation risk analysismust be carried out to test for a risk of interstitial condensation.Where there is a risk of condensation a vapour control layershould be installed to the underside of the roof, immediatelyabove.

Single or twin-skin metal sheet roofs may also be upgraded withIcynene foam to reduce air leakage, minimise sound transmissionand avoid condensation forming on the underside of the roof.

Manufacturer/Supplier

Icynene foam insulation is only applied only approved contractors who have undergone Icynene’s rigorous trainingprocedures and is guaranteed for 25 years after installation.

Technical Support

Icynene offers a comprehensive technical support service for designers and building owners:• Site inspections• U-value calculations• Condensation risk analysis• Design advice

Other products

Icynene also produce a 100% water blown closed cell foam (MDR 210) which offers all the Li�iwÌÃ of a closed cellproduct but without the chemical blowing agents. MDR 210 is a rigid foam and is not vapour open, it is particularlysuited to commercial applications and has been used more recently in the insulation of storage containers, and fortheir conversion into residential units.