The legal validity of this report can only be claimed on presentation of the complete report.

Contents Page No 1 Introduction... 3 2 General Description of Construction... 3 3 Leaf Sizes... 4 4 Configurations... 4 5 Leaf Size Adjustment... 4 6 Overpanels... 4 7 Glazing... 7 8 Facing Materials... 9 9 Lippings... 10 10 Door Frames... 10 11 Intumescent materials... 12 12 Adhesives... 14 13 Tested Hardware... 14 14 Additional & Alternative Hardware... 14 15 Door Gaps... 19 16 Fixings... 19 17 Sealing to Structural Opening... 21 18 Insulation... 22 19 Smoke Control... 22 20 Conclusion... 22 21 Declaration by the Applicant... 23 22 Limitations... 24 21 Validity... 24 Appendix A Performance Data... 25 Appendix B Assessed Glazing Systems... 27 Appendix C Revisions and Amendments... 29 Appendix D Data Sheets... 30 Ref: FEA/F02141 Revision G Page 2 of 37

1 Introduction This document constitutes a global assessment to collate the fire resistance test evidence for Pacific Rim Wood Ltd Flamebreak 60 minute fire resisting doorsets, a construction manufactured by P.T. Kutai Timber of Indonesia. The assessment uses established extrapolation and interpretation techniques in order to extend the scope of application. It does this by determining the limits for the design, based on the tested constructions and performances obtained. The assessment is an evaluation of the potential fire resistance performance, if the elements were to be tested in accordance with BS 476: Part 22: 1987. 2 General Description of Construction The construction of Flamebreak 60 door leaves includes the following basic components: Component Species/type Configuration (all dimensions in mm) Min. Density (kg/m³) Core three layer Outer layers Parasorianthes falacateria or Albisia falcatta Vertically orientated 13.5 thick x 45 wide lamels 180D360 Inner layer Mixed tropical hardwood Horizontally orientated 15 thick x 28 wide lamels 480 Stiles Agathis or mixed tropical hardwood in 2 lamels 35 wide (total) x 42 thick incorporating a 9 wide x 9 deep tongue into the core Agathis D 480 or Mixed tropical hardwood D 610 Top Rail Agathis or mixed tropical hardwood in 3 lamels 75 wide (total) x 42 thick incorporating a 9 wide x 9 deep tongue into the core Agathis D 480 or Mixed tropical hardwood D 610 Bottom Rail Agathis or mixed tropical hardwood in 3 lamels 35 wide (total) x 42 thick incorporating a 9 wide x 9 deep tongue into the core Agathis D 480 or Mixed tropical hardwood D 610 Facings Various timber based products see section 8 for details 6 thick Various Lippings all edges Hardwood 10 thick 640 The Flamebreak design is supplied with stiles and rails to the specification in the table above. The stiles and bottom rail may either remain in position or be removed for manufacturing since the testing has evaluated constructions with and without these elements. The top rail must remain in position. Ref: FEA/F02141 Revision G Page 3 of 37

3 Leaf Sizes It can be seen from the list of fire resistance tests contained in appendix A, that the most demanding configuration of the tested design is the unlatched, single acting, double leaf doorset and therefore extrapolation is based primarily upon this test. The assessment for increased leaf dimensions is based on the margin of over performance of the design above 60 minutes integrity, and the characteristics exhibited during test. Doorsets containing leaves with smaller dimensions than those stated are deemed to be less onerous and are therefore automatically covered. 4 Configurations Based on the test evidence listed in appendix A, this assessment covers the following doorset configurations: Abbreviation LSASD & ULSASD DASD LSADD & ULSADD DADD Description Latched & unlatched single acting single doorset Double acting single doorset Latched & unlatched single acting double doorset Double acting double doorset Unequal leaf double doorsets are covered by this assessment with no restriction on the smaller leaf dimension, providing the main leaf remains within the permitted size limits. 5 Leaf Size Adjustment Door leaves to this design may be altered as follows: Element Leaf Reduction Leaves may be reduced in height and width without restriction, but reduction in height must be from the bottom edge only. The top rail must be preserved at its manufactured dimensions. Timber lippings The dimensions stated in section 9 may be reduced by 20% for fitting purposes. 6 Overpanels 6.1 Solid Overpanels of the same construction as the door leaves may be used with this doorset design only when fitted with a transom. The transom must be of the same section and material assessed for the door frames and the overpanel must be fully contained within the door frame (see following diagram). Door frame joints must utilise one of the following four methods: mortise and tenon joints; half lapped joints; mitre joints; butt joints (see section 10.2). Ref: FEA/F02141 Revision G Page 4 of 37

All methods require joints to be tight, with no gaps, and require mechanical fixing with the appropriate size ring shank nails or screws. Butt joints must be additionally bonded with urea formaldehyde or equivalent. Overpanels must be fixed by screwing through the rear of the frame with steel screws passing at least 30mm into the centre line of the overpanel. Fixings must be no more than 100mm from each corner and a maximum of 250mm centres in between. The intumescent seals specified for the jambs in appendix D, must also be fitted to all edges of the overpanel. The seals may be fitted in the overpanel edges or alternatively in the frame reveal. It is permitted to include a glazed aperture within the overpanel providing the glazing is within the parameters given in section 7. Maximum overpanel heights are as follows: Single doorsets D 2000mm Double doorsets D 1500mm. Overpanel fixings Intumescent seals Transom Leaf head Note: Drawing is representative of doorset construction only, actual construction must be as the text within this document specifies. Ref: FEA/F02141 Revision G Page 5 of 37

6.2 Fanlights Timber frame doorsets including a transom may include a glazed fanlight. The timber frame and glazing beads must be hardwood with a minimum density of 640 kg/m3, whilst the frame section must be a minimum of 70mm x 44mm. Timber door frame and transom construction must comply with the specification contained in section 10. The maximum assessed fanlight dimensions are detailed in the table below, subject to the following restriction: The glazing system and glass must be able to demonstrate adequate performance when tested as a window or screen in accordance with BS 476: Part 22: 1987 or BS EN 1634D 1: 2000, at the pane dimensions to be installed. Configuration Height (mm) Width (mm) Single & double doorsets 600 Overall door width Assessed glass type Bead fixings Glazing seal Transom Leaf head Note: Drawing is representative of doorset construction only, actual construction must be as the text within this document specifies Ref: FEA/F02141 Revision G Page 6 of 37

7 Glazing 7.1 General Test RF02055 has demonstrated that the design is capable of tolerating glazed apertures. The maximum permitted glazed area for all configurations is 0.72m2 and the glazing must meet the following criteria: 7.2 Assessed Glazing Systems The glazing system must be one of the following proprietary tested systems: Product Manufacturer 1. ThermDADGlaze 60 Intumescent Seals Ltd 2. Fireglaze 60 Sealmaster Ltd 3. System 90+ Lorient Polyproducts Ltd 4. System 36/15 Lorient Polyproducts Ltd 5. System 63 Lorient Polyproducts Ltd (only suitable for circular apertures with glass types 1 & 2 ) 6. Pyroglaze 60 Mann McGowan Fabrications Ltd 7.3 Assessed Glass Products Glass Type (Trade name) Manufacturer 1. 6 & 7mm Pyroshield II Pilkington Group Ltd (see section 7.5) 2. 6 & 7mm Pyroshield Pilkington Group Ltd 3. 6mm Pyran S Schott Glass Ltd 4. 6mm Pyrostem CGI Ltd (limited to 0.6m 2 ) 5. 10mm Pyrodur Pilkington Group Ltd 6. 12mm Pyrobelite AGC Flat Glass Europe 7. 14mm Swissflam Lite Vetrotech Saint Gobain Ltd 8. 15mm Pyrostop Pilkington Group Ltd 9. 16mm Pyrobel AGC Flat Glass Europe All glass types must be fitted fully in accordance with the manufacturers' tested details/installation requirements, particularly with respect to edge cover and expansion tolerances. Ref: FEA/F02141 Revision G Page 7 of 37

7.4 Glazing Beads & Installation Glazing beads must be from hardwood as specified in the following table: Material Profile Density (kg/m 3 ) Application Hardwood Splayed 640 All proprietary systems detailed in 7.2 and shown in appendix B and glass types 2 D 9 specified in 7.3 Hardwood Square 640 Proprietary systems 1 & 2 as specified in 7.2 and glass types 7, 8 & 9 specified in 7.3 Glazed openings must not be less than 100mm from any door edge. Multiple apertures are acceptable up to the maximum approved area, with a minimum dimension of 80mm between apertures. The aperture shape is not restricted, providing the intumescent material and beads are proven to be compatible with that shape. A square bead profile may be used as an alternative to the splayed beads subject to the restricted glass types and glazing systems specified in the tables above. See appendix B for square bead options. Glazing bead fixings must be retained in position with 60mm long x 2mm diameter steel pins or 60mm long No 6D8 screws, inserted at 35D40º to the vertical at no more than 50mm from each corner and at 150mm maximum centres. Pneumatically fired pins are acceptable providing they meet the specification given above. Timber for glazing beads must be straight grained joinery quality, free from knots, splits and checks. False timber beads must not be applied across the glass face without specific test evidence to justify the system used. Sectional drawings detailing the tested and approved proprietary glazing systems are contained in appendix B. 7.5 Pyroshield II The following table details the maximum pane sizes and approved glazing systems permitted for Pyroshield II in the Flamebreak doorset design. Glass Type Pyroshield 2 Glazing System (section 7.2) Maximum Pane Size* (height x width mm) Maximum Area (m²) 1 1300 x 550 0.715 3 1300 x 310 0.4 *The heights and widths listed are the maximum single dimension allowable for an individual pane utilising the relevant glazing system; maximum dimensions may not be increased even if the other dimension for the pane is reduced. Glazed openings must not be less than 100mm from any door edge. Multiple apertures are acceptable up to the maximum approved area, with a minimum dimension of 80mm between apertures. The aperture shape is not restricted, providing the intumescent material and beads are proven to be compatible with that shape. Ref: FEA/F02141 Revision G Page 8 of 37

Glazing bead fixings must be retained in position with 60mm long x 2mm diameter steel pins or 60mm long No 6D8 screws, inserted at 35D40º to the vertical at no more than 50mm from each corner and at 150mm maximum centres. Pneumatically fired pins are acceptable providing they meet the specification given above. Timber for glazing beads must be straight grained joinery quality, free from knots, splits and checks. False timber beads must not be applied across the glass face without specific test evidence to justify the system used. Sectional drawings detailing the tested and approved proprietary glazing systems are contained in appendix B. 8 Facing Materials 8.1 Structural Facings The following facing materials have been approved for use with the Flamebreak 60 design: Material Thickness (mm) Hardwood Plywood Min. Density (kg/m 3 ) Maximum Leaf Size (mm) Permitted Configurations 6 520 530 All All MDF 6 750 8.2 Decorative and Protective Facings From: 2080(h) x 960 (w) To: 2132(h) x 936 (w) LSASD & ULSASD & DASD The following additional facing materials are permitted for this door design since they would degrade rapidly under test conditions without significant effect: Facing Material Maximum Permitted Thickness (mm) Paint 0.5 Timber veneers 2 PVC/plastic laminates 2 Decorative paper / nond metallic foil 0.4 Notes: 1. Metallic facings are not permitted except for push plates and kick plates (see section 14.6) 2. The door leaf thickness may be reduced by a total maximum of 0.5mm for calibration purposes in order to accommodate the chosen finish 3. Materials must not conceal intumescent strips 4. PVC/plastic laminates must not be applied to leaf edges Ref: FEA/F02141 Revision G Page 9 of 37

9 Lippings 9.1 Timber lippings Doors require lipping on all edges and the vertical edge lippings must overdrun the horizontal edge lippings. Lippings must meet the specification contained in the following table: Material Size (mm) Min Density (kg/m 3 ) Hardwood meeting or exceeding class J30 as specified in BS EN 942: 2007 (subject to adequate repair of any defects) 1. Flat = 10 15 thick with a maximum of 2mm profiling permitted at corners of lipping (see section 10.1) 2. Rounded = 12 17 thick with a radius matching the distance between leaf edge and floor pivot (see section 10.1) 3. Rebated = Not assessed 640 9.2 Hardwood Blocking for Pivots The following option is permitted for lipping the bottom of doors that are to receive pivot fixings and are to be used in severe duty locations (diagram below). It is not necessary to introduce additional blocking at the head of the door because of the presence of the integral top rail. The hardwood insert may be a maximum of 15mm high by a length suitable for the hardware to be installed plus a maximum of 50mm (not full door width). The hardwood insert must be a maximum of 38mm wide and fitted centrally in the leaf leaving 8mm of leaf material on either face. The inserted block must be bonded on all contact faces using adhesives approved for the application of lippings (see section 12). Alternatively lippings in accordance with details shown in section 9.1 may be used Cross section through bottom of leaf fitted onto floor spring and pivot Hardwood blocking insert or use thicker lipping (up to max thickness specified in section 9.1) Floor pivot Ref: FEA/F02141 Revision G Page 10 of 37

9.3 Meeting stile astragals Generally fire doors should be able to open simultaneously. However, where additional performances are required (e.g. acoustic performances) it may be necessary to provide for sequential opening. The astragal detail may be used where these conditions apply, without adverse influence on existing fire test/assessment data. Astragals can be applied to both door leaves and may be profiled for aesthetic effect providing they meet the minimum specification given below. The hardwood for the astragal must be hardwood of the same minimum density being used for the lipping material. See following diagram. 10 Door Frames 10.1 Door Frame Construction Door frames for this design must meet the following specification: Material Section Size (mm) Minimum Density (kg/m³) Hardwood 70 wide x 32 thick 640 All door frame timber must be to class J30 as specified in BS EN 942: 2007 (subject to adequate repair of any defects). A 12mm deep planted stop is adequate for single acting frames. Frame joints may be mortice and tenoned, mitred, half lapped or butted and with no gaps (see section 10.2). All jointing methods require mechanical fixing with the appropriate size ring shank nails or screws. The following diagram depicts the assessed frame profiles and dimensions: Ref: FEA/F02141 Revision G Page 11 of 37

A = min 70mm B = min 32mm (see table above) C = min 12mm R = radius from floor spring 8mm max radius to create a maximum 2mm edge profiling Standard Scalloped Profiled edges 10.2 Door frame joints Half Lapped Joint Mitre Joint Mortice and Tenon Joint Butt Joint Note: Drawing is representative of doorset construction only, actual construction must be as the text within this document specifies. Ref: FEA/F02141 Revision G Page 12 of 37

10.3 Door frame installation The following diagrams indicate acceptable and unacceptable door frame installations: Max 10 x 10mm shadow gap with 2mm intumescent mastic capping or 10 x 4mm PVC encased intumescent seal 15mm 6 to 10mm Permitted Permitted Permitted Not Permitted Not Permitted Permitted 11 Intumescent materials It is important that the type, size and fitting detail for the intumescent seals remains as tested. These products can often exhibit significantly different characteristics which could alter the performances obtained during test and therefore they must not be considered interchangeable, irrespective of whether the product has been tested and the seal dimensions are maintained. The intumescent materials tested for this doorset design are as follows: Element Location Product & Manufacturer Edge seals Hinges Locks and latches Fitted in the frame jambs or leaf edges Under both hinge blades Under forend & keep 1. PVC encapsulated Palusol 100 Mann McGowan 2. Pyrostrip 500P Mann McGowan 3. Type 617 D Lorient Polyproducts Ltd 4. Pyroplex Rigid Box Seal Pyroplex 1. 1mm Interdens Dufaylite Developments Ltd 2. 1mm ThermDADStrip Intumescent Seals Ltd 3. 1mm G30 Sealmaster Ltd 1. 1mm Interdens Dufaylite Developments Ltd 2. 1mm ThermDADStrip Intumescent Seals Ltd 3. 1mm G30 Sealmaster Ltd Ref: FEA/F02141 Revision G Page 13 of 37

Element Location Product & Manufacturer Top Pivots Flush bolts Lining all sides of the mortices Lining all sides of the mortices 1. 2mm Interdens Dufaylite Developments Ltd 2. 2mm ThermDADStrip Intumescent Seals Ltd 3. 2mm G30 Sealmaster Ltd 1. 2mm Interdens Dufaylite Developments Ltd 2. 2mm ThermDADStrip Intumescent Seals Ltd 3. 2mm G30 Sealmaster Ltd The required seal specification for each doorset configuration is contained in appendix D. 12 Adhesives The following adhesives must be used in the construction of doorsets to this design: Application Product Facings Core Lippings Melamine PVA Urea or resorcinol formaldehyde. PU may only be used on single leaf doorsets at all permitted leaf sizes 13 Tested Hardware The following hardware has been successfully incorporated in the tests: 1. Royde & Tucker H Load H101 steel butt hinges 2. Dorma TS83V overhead closers 3. Henderson Hardware 63mm tubular mortise latch with aluminium lever handles 4. Euro Star 57mm tubular mortise latch with aluminium lever handles 14 Additional & Alternative Hardware 14.1 Latches & Locks Latches and locks must either be as tested, or alternatively components with the following specification are acceptable: Element Maximum forend and strike plate dimensions: Maximum body dimensions: Dimensions (mm) 235 high x 24 wide x 4 thick 18 thick x 100 wide x 165 high. Intumescent protection: See section 11 Materials: All parts essential to the locking/latching action, including the latch bolt, forend and strike are to be steel or stainless steel Ref: FEA/F02141 Revision G Page 14 of 37

14.2 Hinges Flamebreak 60 leaves must be hung on a minimum of 3 hinges. Leaves over 2300mm high must fit 4 hinges. Hinges with the following specification are acceptable: Blade height: Element Blade width (excluding knuckle): Blade thickness Fixings: Materials: Hinge positions: Leaf dimensions <2300mm: Leaf dimensions >2300mm: 90 D 120mm 30 D 35mm 2.5 D 4mm Specification Minimum of 4 No. 30 long No. 8 or No.10 steel wood screws per blade Steel or stainless steel Top 200 D220mm from the head of the leaf to the centreline of the hinge 2 nd Minimum 200mm from centreline of top hinge to centreline of second hinge OR equally spaced between top and bottom hinge Bottom Top 220 D 300mm from the foot of the leaf to the centreline of the hinge 200 D 220mm from the head of the leaf to the centreline of the hinge 2 nd Minimum 200mm from centreline of top hinge to centreline of second hinge 3 rd Equally spaced between 2 nd hinge and bottom hinge Bottom Intumescent protection: See section 11 220 D 300mm from the foot of the leaf to the centreline of the hinge 14.3 Automatic Closing Automatic closing devices, must either be as tested or components of equal specification that have demonstrated contribution to the required performance of this type of 60 minute doorset design, when tested to BS 476: Part 22: 1987 or BS EN 1634D1: 2000. Note: The top pivots to floor spring assemblies must be protected with 2mm thick intumescent gasket as specified in section 11 and 5mm of head seal must remain continuous past each side of the mortice 14.4 Flush Bolts Flush bolts may be incorporated into the top and bottom of the meeting edge of the inactive leaf of a double doorset, provided that the following maximum dimensions are not exceeded and square edge lippings are used: 200mm long x 20mm deep x 20mm wide. The mechanisms of the flush bolts must be of steel and the mortice must be lined on all edges with 2mm thick intumescent gasket as specified in section 11. Alternatively the hardware manufacturers tested gaskets may be used. Ref: FEA/F02141 Revision G Page 15 of 37

The mortice must be as tight to the mechanism as is compatible with its operation. The mechanism of the flush bolt must be located opposite the intumescent seals specified for the meeting edge of a double doorsets as specified in appendix D. The following diagram depicts the location of the required intumescent gaskets Flush bolt mechanism Door leaf Intumescent gaskets 14.5 Surface Fixed Barrel Bolts It is permitted to fit a surface fixed barrel bolt to the top closing corner of a double leaf providing the item does not require removal of material from the leaf or door frame and does not interfere with the perimeter intumescent seals. The item must be no longer than 450mm. 14.6 Pull Handles These may be surfacedfixed to the door leaf provided that they are steel or brass, and that their length is limited to 1200mm between the fixing points. No additional intumescent protection is required provided that the hole for the bolt through the leaf is tight. 14.7 Push Plates/Kick Plates FaceDfixed hardware such as push plates and kick plates may be fitted to the doorsets provided that their fitting requires the removal of no part of the door leaf. These items of hardware are permitted up to a maximum of 20% of the door leaf area if mechanically fixed and a maximum of 30% if bonded with a contact or other thermally softening adhesive. Plates must not return around the door edges. 14.8 Door Selectors Selectors may be fitted providing the installation does not require the removal of any timber from the leaf, stop or frame reveal and they do not interfere with the selfdclosing action of the door leaf. Ref: FEA/F02141 Revision G Page 16 of 37

14.9 Letter Boxes/Plates Letter boxes/plates may be fitted providing the product has demonstrated a contribution to the required performance of this type of 60 minute doorset design, when installed within a timber based doorset of comparable thickness and tested to BS 476: Part 22: 1987 or BS EN 1634D1: 2000. Margins to the leaf edges must remain as detailed for glazing. The position of the letter box/plate will be dictated by the pressure regime tested in the proving evidence (normally below mid height). 14.10 Door Security Viewers Door security viewers with brass or steel bodies of a diameter less than or equal to 15mm may be used provided that the throughdhole is bored tight to the case of the viewer (maximum tolerance +1 mm). Lenses must be glass and the item must be bedded in to a tested intumescent mastic. 14.11 Air Transfer Grilles 14.11.1 General Air transfer grilles may be fitted providing the product has suitable test evidence to BS 476: Part 22: 1987 or BS EN 1634D1: 2000 that demonstrates a minimum 60 minutes integrity performance when installed within a timber based doorset of comparable thickness. Margins to the leaf edges will remain as detailed for glazing and the position of the unit will be dictated by the pressure regime tested in the proving evidence (normally below mid height). The area occupied by the air transfer grille must not exceed that proven by the supporting fire test for the specific type of grille being used, and must be deducted from the percentage of glazing, if both elements are fitted. 14.11.2 Pyroplex Air Transfer Grilles Based on the available test evidence the following Pyroplex air transfer grilles have been considered acceptable for use with the Pacific Rim Wood Flamebreak 60 design. The grilles must be fitted a minimum of 100mm from the edge of the door leaf and 80mm apart if more than one grille is to be fitted. The area occupied by the air transfer grille must be deducted from the percentage of glazing, if both elements are fitted. The test evidence has demonstrated that the grilles may be fitted up to a maximum height of 2200mm from the threshold apart from grilles ATG 2251 and ATG 2250. Part No. Dimensions (mm) Air Flow (sq. cm) Compatible Faceplates ATG 1500 150 x 150 153 FP1500 ATG 1503 150 x 300 307 FP1503 ATG 1300 300 x 300 614 FP1300 ATG 2251* 112 x 225 161 FP2251 ATG 2250* 225 x 225 323 FP2250 *ATG 2251 and ATG 2250 must only be used above 1000mm height from the threshold of the door Ref: FEA/F02141 Revision G Page 17 of 37

The Pyroplex air transfer grilles must be installed in accordance with the manufacturer s installation details, which include a 6mm thick hardwood aperture liner and Pyroplex intumescent mastic applied around the perimeter of the grille. Full details can be obtained from Pyroplex Ltd. 14.12 Panic Hardware Panic hardware may be fitted, providing the installation does not require the removal of any timber from the leaf, stop or frame reveal, and it does not interfere with the selfdclosing action of the door leaf. 14.13 Acoustic, Weather and Dust Seals Silicon based flame retardant acoustic, weather and dust seals (e.g. Norseal 710, Lorient IS1212, IS1511, IS7025, IS7060) may be fitted to this doorset design without compromising the performance, providing their fitting does not interfere with the activation of the intumescent seals or hinder the self closing function of the leaves. 14.14 CableWay Based on the integrity performance of the doorset construction, with no burn through of the core material, we consider it acceptable to allow the provision for a concealed cabledway to facilitate electrodmagnetic closing/latching mechanisms. The cabledway must be concealed in the following way: 1. A hole drilled centrally through the leaf of maximum 10mm diameter. 2. The cable for the electronic closing/latching mechanisms must be no more than 2mm smaller in diameter than the hole through the leaf. 3. The cable for the electronic closing/latching mechanism must be PVC encased 4. Cable ways are only permitted for use with latched, single leaf, single acting doorsets with maximum leaf dimensions of 2100mm (h) x 900mm (w). 5. The hole must be located below 1500mm from the threshold and must be spaced a minimum of 90mm from any apertures within the leaf e.g glazing, air transfer grilles or letter plates etc. This approval is subject to the hardware manufacturer having the appropriate test evidence for the product for use with this type of 60 minute construction. Test evidence generated in steel doorsets is not acceptable. Any tested intumescent gaskets for the lockset, closing mechanism, receiver plate, cable loops etc. must be replicated. 14.15 Threshold Seals The following types of automatic threshold drop seals may be recessed in to the bottom rail of leaves to this design with out compromising the performance: Manufacturer Lorient Polyproducts Pemko Raven Athmer Product IS8010si 411DAR RP8SI SoundDEx Duo LD15 Ref: FEA/F02141 Revision G Page 18 of 37

15 Door Gaps Door edge gaps and alignment tolerances must fall within the following range: Location Door edge gaps Alignment tolerances Threshold gap Dimension A minimum of 2mm and a maximum of 4mm. Leaves must not be proud of each other or from the door frame by more than 1mm. A maximum of 10mm between bottom of leaf and top of floor covering. 16 Structural Opening The supporting construction must provide the required level of fire resistance designated for the doorset design and be a suitable medium to permit adequate fixity. 17 Fixings The positioning of installation fixings in height should be planned to avoid conflicts with hardware, sealing systems and other building elements. A top fixing must be located within 100mm from the underside of the head A bottom fixing must be located 100mm from the bottom of the jamb Intermediate fixings must be located at centres of not more than 600mm The minimum number of fixings in height must be: 1. Doorset height up to 2000mm = 4 No. 2. Doorset height 2000D2500mm = 5 No. 3. Add 1 No. fixing for each further 500mm increase in door height The fixings must be of the appropriate type for the supporting construction and must penetrate to a minimum depth of 40mm. For storey height doorsets a top fixing must be provided within a 100mm from the underside of the frame head with a further top fixing positioned 100mm from the underside of the transom rail (or bottom edge of the over panel if a flush overpanel design is used) It is not necessary to fix the frame head, although packers must be inserted. However, for doorset widths in excess of 1100mm the use of an additional fixing centre width of the doorset at the head position is recommended See following diagram for illustration on fixings for a typical timber door frame doorset installation: Ref: FEA/F02141 Revision G Page 19 of 37

The frame jambs are to be fixed to the supporting construction using steel fixings at 600mm maximum centres. The fixings must be of the appropriate type for the supporting construction and must penetrate to a minimum depth of 40mm. It is not necessary to fix the frame head, although packers must be inserted. Ref: FEA/F02141 Revision G Page 20 of 37

18 Sealing to Structural Opening The door frame to structural opening gap must be protected using one of the following methods: 1. Gaps up to 10mm must be sealed on both sides with a 10mm depth of acrylic intumescent mastic, fire tested for this application to BS 476: Part 22: 1987 or BS EN 1634D1: 2000. Joint must be fitted with 15mm thick architraves overlapping at least 15mm each side. 2. Gaps between 10mm and 20mm must be tightly packed with mineral fibre capped on both sides with a 10mm depth of acrylic intumescent mastic, fire tested for this application to BS 476: Part 22: 1987 or BS EN 1634D1: 2000. Architraves are optional. 3. Gaps up to 20mm filled with proprietary fire stopping product (e.g. expanding PU foam or preformed compressible intumescent foam). Products must be tested for this application to BS 476: Part 22: 1987 or BS EN 1634D1: 2000. Joint must be fitted with 15mm thick architraves overlapping at least 15mm each side. 4. Timber based or nond combustible subframe up to 50mm thick, with no gaps between the components. Joint must be fitted with 15mm thick architraves overlapping at least 15mm each side. Frame fixing Frame fixing Frame fixing Acrylic intumescent mastic Architrave for joints not filled with mineral wool and optional for filled joints Fire stopping product Mineral fibre infill for joints exceeding 10mm Architrave Architrave Timber based or nond combustible subframe Fixing for subframe Ref: FEA/F02141 Revision G Page 21 of 37

5. Timber based or nond combustible subframe up to 50mm thick, with gaps up to 10mm between the components filled on both sides with 10mm depth of acrylic intumescent mastic or full depth expanding PU foam, fire tested for this application to BS 476: Part 22: 1987 or BS EN 1634D1: 2000. Joint must be fitted with 15mm thick architraves overlapping at least 15mm each side. Frame fixing Sub frame fixing 15mm thick architrave 10mm of acrylic intumescent mastic or full depth PU foam Guidance for various methods of sealing the frame to structural opening gap is also given in BS 8214: 2008, Code of practice for fire door assemblies, which may be referred to where appropriate. Note: Drawings are representative of doorset installation only, actual installations must be as the text within this document specifies. 19 Insulation Insulation performance may be claimed for a doorset to this design meeting the following: Type Partially insulating Fully insulating Details Doorsets incorporating up to 20% of nondinsulating glazing Unglazed doorsets 20 Smoke Control If the doorset design is required to provide a smoke control function to comply with Building Regulations, it must be fitted with a smoke seal or combined intumescent/smoke seal, that has been tested in accordance with BS 476: Part 31: Section 31.1 and demonstrated to maintain the leakage rate below 3m 3 /m/h when tested at 25Pa. Providing the smoke seals, any interruptions, door gaps, type/configuration of door is consistent with the tested detail, the doorset will comply with current smoke control legislation and a suffix S may be added to the designation. Any other installed components where smoke leakage may occur must also be taken into account. Note: The incorrect specification and fitting of smoke seals may impair the operation of a doorset and therefore compromise the fire resistance performance. 21 Conclusion If Flamebreak 60 doorsets, constructed in accordance with the specification documented in this global assessment, were to be tested in accordance with BS 476 : Part 22 : 1987, it is our opinion that they would provide a minimum of 60 minutes integrity and insulation (subject to section 19). Ref: FEA/F02141 Revision G Page 22 of 37

22 Declaration by the Applicant 1. We the undersigned confirm that we have read and comply with obligations placed on us by FTSG Resolution No 82: 2001. 2. We confirm that the component or element of structure, which is the subject of this assessment, has not to our knowledge been subjected to a fire test to the Standard against which this assessment is being made. 3. We agree to withdraw this assessment from circulation should the component or element of structure be the subject of a fire test to the Standard against which this assessment is being made. 4. We are not aware of any information that could adversely affect the conclusions of this assessment. 5. If we subsequently become aware of any such information we agree to ask the assessing authority to withdraw the assessment. Signed: Name: For and on behalf of Pacific Rim Wood Ltd The legal validity of this report can only be claimed on presentation of the complete report. Ref: FEA/F02141 Revision G Page 23 of 37

23 Limitations The following limitations apply to this assessment: 1. This assessment addresses itself solely to the elements and subjects discussed and does not cover any other criteria. All other details not specifically referred to should remain as tested or assessed. 2. This assessment is issued on the basis of test data and information to hand at the time of issue. If contradictory evidence becomes available, CIF reserves the right to withdraw the assessment unconditionally but not retrospectively. 3. This assessment has been carried out in accordance with Fire Test Study Group Resolution No 82: 2001. 4. Opinions and interpretations expressed herein are outside the scope of UKAS accreditation. 5. This assessment relates only to those aspects of design, materials and construction that influence the performance of the element(s) under fire resistance test conditions. It does not purport to be a complete specification ensuring fitness for purpose and longdterm serviceability. It is the responsibility of the client to ensure that the element conforms to recognised good practice in all other respects and that, with the incorporation of the guidance given in this assessment, the element is suitable for its intended purpose. 24 Validity 1. The assessment is valid initially for a period of 5 years after which time it must be submitted to CIFL for technical review and revalidation. 2. This assessment report is not valid unless it incorporates the declaration given in Section 22 duly signed by the applicant. Signatures: Name: P N Barker A M Winning Title: Senior Consultant Product Assessor Ref: FEA/F02141 Revision G Page 24 of 37

Appendix A Performance Data Primary Data Test Reference RF02054 (Palusol) RF02055 (Pyrostrip 500P) Configuration Leaf Size (mm) Test Standard 2 No. ULSASD A = 2070 x 935 x 54 B = 2062 x 935 x 54 BS 476: Part 22:1987 ULSADD 2155 x 935/845 x 54 BS 476: Part 22:1987 Integrity (mins) A = 54* B = 58* 60 RF02117 (Pyrostrip 500P) 2 No. ULSASD A = 2080 x 937 x 54 B = 2380 x 1179 x 54 BS 476: Part 22:1987 A = 71 B = 61 RF05042 (MDF faces) A: ULSASD 2080 x 936 x 54 BS 476: Part 22: 1987 A = 63 RF08117 (PU lipping glueline and Pyroplex seals) B: ULSASD 2040 x 826 x 54 BS 476: Part 22: 1987 B= 62 WF 307381 (pyroplex seals) ULSADD 2156 x 936 x 54 BS 476: Part 22: 1987 62 ULSASD Unlatched, Single Acting, Single Doorset ULSADD Unlatched, Single Acting, Double Doorset * The failed single leaf, single acting doorset designs have been assessed through a change in intumescent specification. Ref: FEA/F02141 Revision G Page 25 of 37

Supplementary test evidence Assessment Reference Chilt/A07051 Rev B** (assessment of Lorient 617 seals) Warres 191350 (Pyrostem) Configuration Leaf Size (mm) Test Standard Single and double doorsets Fixed sample 1495 926 54 Various BS 476: Part 22: 1987 Principles of BS 476: Part 20: 1987 Integrity (mins) 60 62 ** Details of the supplementary test evidence are contained within this assessment report. Ref: FEA/F02141 Revision G Page 26 of 37

Appendix B Assessed 60 Minute Glazing Systems 25mm x 4 mm ThermDADBead Assessed glass System 36/15 flexible gasket Assessed glass 20 45 25 2mm ThermDADLine Intumescent liner 60mm pins or screws 5 16 25 5 LX Palusol liner 2mm 60mm pins or screws 17 ThermDADGlaze 60 Intumescent Seals Ltd System 36/15 Lorient Polyproducts Ltd Fireglaze mastic 4mm Assessed glass System 63 flexible gasket Assessed glass 20 45 25 16 25 G60 liner 5 60mm pins or screws 5 LX Palusol liner 2mm 60mm pins or screws 25 Fireglaze Mastic Sealmaster Ltd System 63 Lorient Polyproducts Ltd 500P or 500PSA 25mm x 3 mm Assessed glass System 90+ channel Assessed glass 20 45 19 2mm Pyroglaze 300 intumescent liner 60mm 60mm pins or screws pins or screws 5 Pyroglaze 60 Mann McGowan Ltd 16 25 5 LX Palusol liner 2mm 60mm pins or screws 22 System 90+ Lorient Polyproducts Ltd Ref: FEA/F02141 Revision G Page 27 of 37

Assessed Square Glazing Bead Profiles The following square bead profiled may be used as an alternative to the splayed beads detailed above D refer to section 7 for glazing system and glass restrictions. To finish flush with the leaf face Suited to glass thickness To finish flush with the leaf face 25 25 25 3 3 5 5 Ref: FEA/F02141 Revision G Page 28 of 37

Appendix C Revisions & Amendments Revision CIFL Date Description Reference A A02141 05.03.03 B A03047A 01.02.06 C A07039 21.06.07 D A07171 22.08.07 E A09153 15.07.10 F A09153 rev F 22.07.10 G A11056 05.07.11 Incorporation of additional test evidence Ref: RF02117 and RF02118 to include mixed hardwood stiles and rails and increase the leaf sizes in Appendix D. Inclusion of MDF facings on LSASD. Filed under FEA/F03047. Change of top rail dimension to 100mm. Files under FEA/F03047 Revision A. Update and revalidated for a further five year period. Issued under reference FEA/F07039. Inclusion of Lorient Type 617 seals and revalidation for 5 years. Update and revalidate assessment, including PU glue lines for lippings and Pyroplex seals for single leaf doors. Edit to intumescent gaskets required for flush bolts and top pivots Technical review and update of assessment. Evidence from test WF307381 has been included to permit 2 no 15 x 4 Pyroplex seals for double doorsets. Assessment validated for a further 5 years. Ref: FEA/F02141 Revision G Page 29 of 37

Appendix D Data Sheets for Pacific Rim Wood Ltd Flamebreak Doorsets FD60 Performance Ref: FEA/F02141 Revision G Page 30 of 37

Leaf Sizes Pacific Rim Wood Ltd Flamebreak 60 Doorsets Latched and Unlatched Single & Double Acting Single Doorsets Palusol & Type 617 Configuration Height (mm) Width (mm) LSASD ULSASD & DASD Maximum Overpanel height (mm) Glazing Frame specification From: To: From: To: Transomed 2000 Maximum Glazed Area: 0.72m 2 Approved systems: Min. Section (mm): 70 x 32 Material: 2062 x 960 2112 x 935 2062 x 935 2062 x 935 See section 7 and appendix B Hardwood Density (kg/m 3 ): 640 Intumescent Materials: Lorient Polyproducts Ltd Type 617 or PVC encased Palusol Head: 1 No 30 x 4mm fitted centrally in the frame reveal. Jambs: 2 No 15 x 4mm fitted centrally 10mm apart in the frame reveal. Hardware Protection: see section 11 Maximum Door Leaf Size LSASD ULSASD & DASD 2130 2120 2110 2100 2090 2080 Height (mm) 2070 2060 2050 965 960 955 950 945 940 935 930 925 920 Width (mm) Ref: FEA/F02141 Revision G Page 31 of 37

Pacific Rim Wood Ltd Flamebreak 60 Doorsets Leaf Sizes Latched and Unlatched Single & Double Acting Single Doorsets Pyrostrip Configuration Height (mm) Width (mm) LSASD From: To: 2155 x 1010 2305 x 935 ULSASD & DASD Maximum Overpanel height (mm) Glazing From: To: Transomed 2000 Maximum Glazed Area: Approved systems: 2155 x 985 2255 x 935 0.72m 2 See section 7 and appendix B Min. Section (mm): 70 x 32 Frame specification Material: Hardwood Density (kg/m 3 ): 640 Intumescent Materials: Mann McGowan Fabrications Ltd Pyrostrip 500P Head: 1 No 30 x 4mm fitted centrally in the frame reveal. Jambs: 2 No 15 x 4mm fitted centrally 10mm apart in the frame reveal. Hardware Protection: see section 11 Maximum Door Leaf Size LSASD ULSASD & DASD 2350 2330 2310 2290 2270 2250 2230 2210 2190 2170 Height (mm) 2150 2130 2110 2090 2070 2050 1020 1010 1000 990 980 970 960 950 940 930 920 910 900 Width (mm) Ref: FEA/F02141 Revision G Page 32 of 37

Leaf Sizes Pacific Rim Wood Ltd Flamebreak 60 Doorsets Latched and Unlatched Single & Double Acting Single Doorsets Pyroplex Configuration Height (mm) Width (mm) LSASD ULSASD & DASD Maximum Overpanel height (mm) Glazing Frame specification From: To: From: To: Transomed 2000 Maximum Glazed Area: Approved systems: 2040 x 865 2124 x 826 2040 x 840 2074 x 826 0.72m 2 Min. Section (mm): 70 x 32 Material: See section 7 and appendix B Hardwood Density (kg/m 3 ): 640 Intumescent Materials: Pyroplex PVC encased Rigid Box Seal Head: 2 No 15 x 4mm fitted centrally 10mm apart in the frame reveal. Jambs: 2 No 15 x 4mm fitted centrally 10mm apart in the frame reveal. Hardware Protection: see section 11 Maximum Door Leaf Size LSASD ULSASD & DASD 2135 2125 2115 2105 2095 2085 2075 Height (mm) 2065 2055 2045 2035 2025 870 865 860 855 850 845 840 835 830 825 820 815 810 Width (mm) Ref: FEA/F02141 Revision G Page 33 of 37

Leaf Sizes Pacific Rim Wood Ltd Flamebreak 60 Doorsets Latched and Unlatched Single & Double Acting Single Doorsets Pyroplex Configuration Height (mm) Width (mm) LSASD ULSASD & DASD Maximum Overpanel height (mm) Glazing Frame specification From: To: From: To: Transomed 2000 Maximum Glazed Area: Approved systems: 2156 x 1019 2323 x 936 2156 x 994 2273 x 936 0.72m 2 Min. Section (mm): 70 x 32 Material: See section 7 and appendix B Hardwood Density (kg/m 3 ): 640 Intumescent Materials: Pyroplex PVC encased Rigid Box Seal Head: 2 No 15 x 4mm fitted centrally 5mm apart in the frame reveal Jambs: 2 No 15 x 4mm fitted centrally 5mm apart in the frame reveal Hardware Protection: see section 11 Maximum Door Leaf Size LSASD ULSASD & DASD 2350 2300 2250 2200 Height (mm) 2150 2100 1030 1020 1010 1000 990 980 970 960 950 940 930 Width (mm) Ref: FEA/F02141 Revision G Page 34 of 37

Pacific Rim Wood Ltd Flamebreak 60 Doorsets Latched and Unlatched Single & Double Acting Single Doorsets Large Leaf Pyrostrip Configuration Height (mm) Width (mm) Leaf Sizes LSASD ULSASD & DASD Maximum Overpanel height (mm) Glazing Frame specification From: To: From: To: Transomed 2000 Maximum Glazed Area: Approved systems: 2380 x 1213 2450 x 1179 2380 x 1188 2400 x 1179 0.72m 2 Min. Section (mm): 70 x 32 Material: See section 7 and appendix B Hardwood Density (kg/m 3 ): 640 Intumescent Materials: Mann McGowan Pyrostrip 500P Head: 2 No 15 x 4mm fitted centrally 10mm apart in the frame reveal. Jambs: 2 No 15 x 4mm fitted centrally 10mm apart in the frame reveal. Hardware Protection: see section 11 Maximum Door Leaf Size LSASD ULSASD & DASD 2470 2460 2450 2440 2430 2420 2410 Height (mm) 2400 2390 2380 2370 2360 1220 1215 1210 1205 1200 1195 1190 1185 1180 1175 1170 1165 1160 1155 1150 Width (mm) Ref: FEA/F02141 Revision G Page 35 of 37

Leaf Sizes Pacific Rim Wood Ltd Flamebreak 60 Doorsets Latched and Unlatched Single & Double Acting Double Doorsets Pyroplex Configuration Height (mm) Width (mm) LSADD ULSADD DADD & From: To: From: To: Maximum Overpanel height (mm) Transomed 1500 Glazing Frame specification Maximum Glazed Area: 0.72m 2 Approved systems: Min. Section (mm): 70 x 32 Material: 2156 x 969 2223 x 936 2156 x 944 2173 x 936 See section 7 and appendix B Hardwood Density (kg/m 3 ): 640 Intumescent Materials: Pyroplex PVC encased Pyroplex graphite Head: 2 No 15 x 4mm fitted centrally 5mm apart in the frame reveal. Jambs: 2 No 15 x 4mm fitted centrally 5mm apart in the frame reveal. Meeting Edges: 2 No 15 x 4mm fitted centrally 5mm apart in one leaf edge. Hardware Protection: see section 11 Maximum Door Leaf Size LSADD ULSADD & DADD 2210 2200 2190 2180 2170 Height (mm) 2160 2150 970 965 960 955 950 945 940 935 2140 930 Width (mm) Ref: FEA/F02141 Revision G Page 36 of 37

Leaf Sizes Pacific Rim Wood Ltd Flamebreak 60 Doorsets Latched and Unlatched Single & Double Acting Double Doorsets Pyrostrip Configuration Height (mm) Width (mm) LSADD ULSADD DADD & From: To: From: To: Maximum Overpanel height (mm) Transomed 1500 Glazing Frame specification Maximum Glazed Area: 0.72m 2 Approved systems: Min. Section (mm): 70 x 32 Material: 2155 x 960 2205 x 935 2155 x 935 2155 x 935 See section 7 and appendix B Hardwood Density (kg/m 3 ): 640 Intumescent Materials: Mann McGowan Fabrications Ltd Pyrostrip 500P Head: 1 No 30 x 4mm fitted centrally in the frame reveal. Jambs: 2 No 15 x 4mm fitted centrally 10mm apart in the frame reveal. Meeting Edges: 2 No 15 x 4mm fitted centrally 8mm apart in one leaf edge. Hardware Protection: see section 11 Maximum Door Leaf Size LSADD ULSADD & DADD 2210 2200 2190 2180 2170 Height (mm) 2160 2150 965 960 955 950 945 940 935 930 925 920 2140 Width (mm) Ref: FEA/F02141 Revision G Page 37 of 37