Sandwich panels for cold storage facilities Product description Ruukki SP2E PU

Transcription

1 Product description Ruukki SPE PU Ruukki SPE PU sandwich panels with rigid polyurethane core are intended for use in industrial buildings as cladding for walls and roofs of stationary cold storage facilities. Ruukki SPE PU panels are featured with high values of heat resistance, guaranteeing excellent thermal insulating power of walls and roofs. Thanks to that, the panels may be twice as thin as the panels with other cores, offering a considerable reduction of freight and installation costs. Product application l cold stores l refrigerated warehouses Ruukki is a metal expert you can rely on all the way, whenever you need metal based materials, components, systems or total solutions. We constantly develop our product range and operating models to match your needs. 1 CPL EN/09.010

2 l General information Product range Features Panel joints 5 Panel joint description 5 Areas of application Thermal performance Structural performance 7 Corrosion resistance 8 Fasteners for panel assembly 8 Corrosivity categories and examples of typical environments in accordance with EN ISO 19-8 Acoustic performance 8 Fire performance 9 General panel assembly guidelines 10 Sealing materials 10 l Accessories for Ruukki SPE PU panels EA1B70 drip wall flashing 11 EA1B71 corner flashing 11 EA1B7 corner flashing 1 EA1B7 joint flashing 1 EA1B7 joint flashing 1 EA1B75 corner flashing 1 K1 cap 15 K cap 1 L50 supporting steel sheet 1 L51 supporting steel sheet 1 L5 sleeve 17 L5 supporting steel sheet 17 L5 fastener 18 L5 fastener 19 L55 fastener 19 l Detailed information M05/S001 M05/S00 Ruukki sandwich panel cladding for cold storage facility layout of installation details. Ruukki sandwich panel cladding for cold storage facility layout of installation details. M05/S01 Joint between Ruukki SPE PU panels. M05/S0 M05/S0 M05/S0 M05/S05 M05/S0 M05/S07 M05/S08 M05/S09 Joint between frozen warehouse wall and socle. Corner joint between wall panels option 1. Corner joint between wall panels option. Corner joint between wall and roof panel. Joint between wall panel and sheeting rail option 1. Joint between wall panel and sheeting rail option. Joint between wall panel and sheeting rail option. Joint between wall panel and sheeting rail option. M05/S10 Ceiling panel suspension option 1 (cross-section perpendicular to loadbearing beam). M05/S11 Roof panel suspension option (cross-section as seen perpendicular to load-bearing beam). M05/S1 Roof panel suspension option (cross-section as seen parallel to loadbearing beam). M05/S1 Roof panel suspension with aluminium profile. M05/S1. Joint between partition wall and floor. 5 M05/S15 Joint between partition wall and roof. M05/S1 M05/S17 M05/S18 Joint between partition wall and external wall. Insulation of frozen warehouse wall with Ruukki SPE PU panels. Joint between Ruukki SPE PU panels and cold storage door example

3 l Product range Ruukki SPE PU panels are composed of two external facings made of steel sheets and a structural insulation core of rigid polyurethane foam featured with excellent thermal insulation properties. Panel facings are made of metal sheet galvanised on both sides. Facing parameters comply with the parameters of steel grades S80GD or S0GD and zinc coatings Z190 g/m, Z75 g/m or AZ150 g/m. Standard versions of the sheets are polyester 5 µm coated. Alternatively we offer sheets with PVDF 5 µm coatings. In case of facilities with extra hygiene requirements like food production/storage, panel facings may be made of PVC(F) 10 µm or stainless stell 1.01 and 1.0 acc. to EN :007. Film is added on both sides to protect panels against physical damage during loading, unloading, storage and installation. The core is made of HCFC-free, rigid, self-extinguishing polyurethane foam expanded with environmentally safe pentane. l Features Ruukki panels with polyurethane cores are featured with a very low thermal conductivity coefficient. Thanks to that, the panels may be twice as thin as the panels with other cores (e.g. a polystyrene core), offering a considerable reduction of freight and assembly costs, still keeping the structure s required thermal insulation. Longitudinal profiled edges of panels creating tongueand-groove system with double scarf joint on the outside and inside and butyl sealing compound applied during assembly, guarantee joint tightness, even if there are heavy temperature or moisture differences on both sides of the partition wall made of Ruukki SPE PU panels. The panels are featured with good mechanical properties stemming from the properties of polyurethane itself and from durable and reliable joint between the core and steel facings. Polyurethane is resistant to chemical agents and biological corrosion. It is not attacked either by rodents or insects. l Notice Detailed solutions introduced here are recommended by Ruukki Polska, but the final decision related to the shape of a particular solution is taken by designer. Produced in a continuous process, the polyurethane core is highly homogenous thus providing excellent and repeatable thermal and mechanical properties on a consistent basis. The foam s density is of 7± kg/m, whereas its design thermal conductivity ratio l calc = 0.01 W/m K in temp. 0 C.

4 l Technical specifications of Ruukki SPE PU sandwich panels with polyurethane core Table 1 Panel type and thickness [mm] External facing thickness [mm] Internal facing thickness [mm] Modular panel width [mm] Maximum panel length L [m] Panel weight [kg/m ] U value* [W/m K] Technical approvals and certificates SPE PU 10 SPE PU Quality Certificate ISO 9001:000 Declaration of Conformity CE acc. to EN 1509 National Conformity Declaration SPE PU /010 Technical Approval AT /010 Hygienic Certificate HK/B/07/01/009 SPE PU * the heat transmittance value U was calculated for the l calc value of 0.01 [W/m. K] and includes impact of linear thermal bridge on panel joint l Ruukki SPE PU panels are produced in a wide range of steel facing profiling available Table Panel type Internal facing External facing L M F* L = linear 5 5 Ruukki SPE10PU Ruukki SPE10PU Ruukki SPE180PU Ruukki SPE00PU L l l l F* l l l L l l l F* l l l L l l l F* l l l L l l l F* l l l ~1 M = microprofiled ~1 ~1 0,5 F* = flat * In case of the flat profiling type, the facing surface may be slightly corrugated. FF combinations are designed for partition walls only.

5 l Panel designations Table Panel type Panel thickness External facing profile Internal facing profile Ruukki SPE10PU LL 10 L L l Panel joints At the moment of leaving the production line, Ruukki SPE PU panels are ready to install. Precise tongue-and-groove system makes assembly easier and faster. Ruukki SPE PU panels are installed on the load-bearing structure with use of special sets of fasteners see page 8. l Panel joint description 1. Rigid, HCFC-free and self-extinguishing environmentally and ozone friendly polyurethane foam core of excellent thermal insulation.. Properly milled core improves longitudinal joint tightness.. Large bend radii on facings ensure that none of the protective coat properties is lost.. Facing profile conforming with the standards applicable to cooling and food industries ensures uniform facade appearance. 5. Double scarf joint from outer and inner sides increases fire-tightness and facilitates assembly.. mm gap enables additional joint closure with durably elastic mass. 7. Hood (optional). 8. Butyl sealing compound eliminates air and moisture penetration, applied at building site. 9. Durably elastic sealing compound (compulsory for ceilings, optional for walls), applied at building site. 10, 10, 180, 00 Modular width = 1100 mm Modular width = 1100 mm 1 1 ± Modular width = 1100 mm ± min. 10 mm min. 10 mm Ruukki SPE PU panel joint is fixed to the structure with use of a set of self-drilling fasteners made of stainless steel. ± 9 Modular width = 1100 mm 9 10, 10, 180, ± min. 10 mm min. 10 mm Ruukki SPE PU panel joint is fixed to the structure with use of a set of fasteners including poliamid sleeves. 5

6 l Areas of application Ruukki SPE PU panels are intended for use in industrial building as cladding for walls and roofs of stationary cold storage facilities designed for indoor temperature ranging between 0 C > t > 50 C. Roof sections should be protected from sun exposure with additional covers (such as corrugated steel sheets). Space between the additional cover and the roof must be ventilated. The temperature on panel surface should not exceed 0 C. Optimal thickness of Ruukki SPE PU panel, the facing and coating types are selected by the designer, depending on intended use, the facility operating conditions, possible impact of internal environmental factors and weather conditions. l Thermal performance Thermal transmittance of Ruukki SPE10PU, SPE10PU, SPE180PU and SPE00PU wall sandwich panels makes a possible for them: l to be used as external and internal walls in public buildings, production halls, warehouses and industrial facilities heated to ti > 1 C. l to be used as ceilings under unheated attics in public buildings, production halls, warehouses and industrial facilities heated to ti > 1 C. l to be used as ceilings over unheated cellars and underground storey external and as floors in public buildings, production halls, warehouses and industrial facilities. l Areas of application of Ruukki SPE PU sandwich panels Table Panel thickness [mm] Heat resistance [m. K/W] Minimum internal temperature t w [ºC] Temperature difference D t * [K] Notice: t external calculation = 0. t monthly average + 0. t max where (t monthly average ) denotes the average temperature in the hottest month of the year while (t max ) denotes the maximum temperature of outdoor air in the area of facility. * difference between internal temperature (t w ) and the computational outdoor temperature (t external calculation) in the aimed area l Point thermal transmittance coefficient (X) and partition thermal transmittance coefficient (U C ) Table 5 of Ruukki SPE PU sandwich panels Panel thickness [mm] C [W/K] U C [W/m. K]

7 l Structural performance Depending on load capacity and rigidity, Ruukki SPE PU sandwich panels may be applied as single- and multi-span wall and roof covering elements. l Maximum span lengths of Ruukki SPE PU panels used as wall elements Table of cold storage and refrigerated warehouse not covered with a tropic, single and multi-span system Panel type Internal temperature [ºC] 0ºC -5ºC -10ºC -15ºC -0ºC -5ºC -0ºC -0ºC SPE10PU l l l l SPE10PU l SPE180PU SPE00PU Notice: This table concerns panels with external light and very light coloured facings. Maximum wind characteristic load is 0.75 kn/m l Maximum span lengths of Ruukki SPE PU panels used as roof elements covered with a tropic, Table 7 single and multi-span system Panel type Internal temperature [ºC] 0ºC -5ºC -10ºC -15ºC -0ºC -5ºC -0ºC -0ºC SPE10PU l l l l SPE10PU l SPE180PU 8.0 8, SPE00PU Notice: This table concerns panels with external light and very light coloured facings. Maximum wind characteristic load is 0.75 kn/m 7

8 l Corrosion resistance Owing to the application of properly selected organic coatings, constituting the final protective layer for (external and/or internal) Ruukki sandwich panel facings or non-standard facings (external and/or internal) depending on particular demands various corrosion resistance can be achieved. Based on studies aimed at assessment and classification of corrosion resistance of the coatings and facings listed below showed that: Ruukki sandwich panels with standard polyester coatings (5 mm thickness) are suitable for use in C1 to C environments according to EN-ISO 19-:001. Ruukki non-standard sandwich panels with PVDF coatings (5 mm thickness) are suitable for use in C1 to C environments according to EN-ISO 19-:001. Ruukki non-standard sandwich panels with PVC coatings (10 mm thickness) are suitable for use in C1 to C environments according to EN-ISO 19-:001. Ruukki non-standard sandwich panels with stainless steel (1.01 grade) facings are suitable for use in C1 to C5-I environments according to EN-ISO Ruukki non-standard sandwich panels with stainless steel (1.0 grade) facings are suitable for use in C1 to C5-I/C5-M environments according to EN-ISO l Fasteners for panel assembly Ruukki SPE PU panels are fixed to the supporting structure with use of: self-drilling fasteners made of stainless steel, the sealing washer with EPDM vulcanised layer and the washer L50A wind suction load of one fastener is 1. kn. one set of fasteners including a poliamid sleeve and supporting stainless steel sheet, two screws and the washer L50B the wind suction load of one set is 1.90 kn (for panels with zinc-coated steel facings and organic coatings), one set of fasteners including a poliamid sleeve and supporting stainless steel sheet, two screws and the washer L50B wind suction load of one set is 1.90 kn (for panels with stainless steel facings), The solution ensures efficient assembly, secures assembling and makes it possible to avoid point thermal bridges. l Corrosivity categories and examples of typical environments in accordance with EN ISO 19- Corrosivity category C1 (very low): Interior heated building with clean atmospheres, e.g. offices, shops, schools, hotels. Corrosivity category C (low): Exterior atmospheres with low level of pollution. Mostly rural areas. Interior unheated buildings where condensations may occur, e.g. depots, sports halls. Corrosivity category C (medium): Exterior urban and industrial atmospheres, moderate sulfur dioxide pollution, coastal areas with low salinity. Interior production rooms with high humidity and some air pollution, e.g. food-processing plants, laundries, breweries, dairies. Corrosivity category C (high): Exterior industrial and coastal areas with medium salinity. Interior chemical plants, swimming pools, coastal ship- and boatyards. Corrosivity category C5-I (very high industrial): Exterior industrial areas with high humidity and aggressive atmosphere. Interior buildings or areas with almost permanent condensation and with high pollution. Corrosivity category C5-M (very high marine): Exterior coastal and offshore areas with high salinity. Interior buildings or areas with almost permanent condensation and with high pollution. l Acoustic performance Ruukki SPE PU panels are featured with the following minimum acoustic insulation coefficients: R w 5 db, R A1 db, R A 0 db. From the acoustic point of view, Ruukki SPE PU panels are suited for use: as external cladding and partition walls/roofs for cold stores and refrigerated warehouses unless individual acoustic insulation specifications for such walls/roofs are higher than those given on the left, to erect cold stores and refrigerated warehouses with no specified acoustic requirements. 8

9 l Fire performance Ruukki SPE PU panel claddings with polyurethane cores are classified in terms of: l fire resistance. l reaction to fire. Results of fire tests carried out on polyurethane core Ruukki SPE PU panel walls are listed in Table 8. l Fire classification referring to walls made of Ruukki SPE PU panels Table 8 Tested element Reaction to fire Fire resistance Wall made of Ruukki SPE10PU B-s, d0 EI 15/EW 0, EI 15/EW 0* Wall made of Ruukki SPE10PU B-s, d0 EI 15/EW 0, EI 15/EW 0* Wall made of Ruukki SPE180PU B-s, d0 EI 15/EW 0, EI 15/EW 0* Wall made of Ruukki SPE00PU B, s, d0 EI 15/EW 0, EI 15/EW 0* * concerning facings made of stainless steel Symbols: I fire insulating power E fire integrity EI fire resistance W radiation 9

10 l General panel assembly guidelines X Fig. 1. Removing protective film from panel facing. Fig.. Cutting of the panels. Before assembly, check structure for compliance with design specifications and construction accuracy. Prior to assembly, remove protective film from internal panel facings. Film on external facings should be removed soon after assembly, however, not later than months after panel purchase (Fig. 1). Caution: Ruukki SPE PU wall panels are covered with blue film that comes on the internal of structure. Panels and flashings should be cutted on stands covered with a soft material (such as felt or polystyrene) to protect coating from damaging. It is recommended to cut panels with fine-toothed blades and to cut flashings with snips. Do not use angle grinder (Fig. nr )! mm width of gap in panel joint is recommended to apply permanently elastic butyl sealing compound correctly. Panels should be fixed to structures with fasteners recommended by sandwich panels manufacturer. Any other fasteners should be pre-approved by the manufacturer. l If wind speed exceeds 9 m/s do not install panels during preciption or in heavy fog. l All swarf and dirt produced during plate assembly should be removed everyday and immediately after installation. l It is recommended to follow the detailed instructions provided in Assembly instruction for sandwich panels brochure. l Elevation/outer side of Ruukki SPE PU panels made of facings in the same colours and the same profiles is marked with overprint on panel side: "elewacja outside фaсaд. Arrows indicate external facing of panel. l Ruukki Polska recommends detailed drawing solutions included in this brochure but final decision about particular shape of design should be taken by designer. Ruukki Polska is not responsible for effects of wrong designing and assembly errors. l Assembly inconsistent with marking will cause loss of warranty! l Sealing materials l Butyl sealing compounds: Sikaflex -11FC+, Butylene-X, Permanently elastic sealing compounds: Sikaflex 1, Tectane 050, Sealing compounds increasing fire resistance: PROMASEAL -Mastic, Compounds for sealing the passes of installation conduits Terostat MS-90 and MS

11 l Accessories for Ruukki SPE PU panels l EA1B70 drip wall flashing Symbol Length [mm] Weight [kg] 7/0 EA1B70A R 105 l EA1B71 corner flashing Symbol Length [mm] Weight [kg] EA1B71A EA1B71B R ~1 0 ~0 R 11

12 l EA1B7 corner flashing Symbol Length [mm] Weight [kg] EA1B7A EA1B7B R

13 l EA1B7 joint flashing Symbol Length [mm] Weight [kg] EA1B7A EA1B7B

14 l EA1B7 joint flashing Symbol Length [mm] Weight [kg] EA1B7A EA1B7B l EA1B75 corner flashing Symbol Length [mm] Weight [kg] EA1B75A EA1B75B 000. R5 5 ~ R5 1 1

15 l K1 cap Material polythene Weight 1g

16 l K cap Material polythene Weight g 0 1 l L50 supporting steel sheet Symbol a [mm] g [mm] Weight [kg] L50A L50B L50C Material: Zinc-coated and powder painted steel sheet (RAL 9010) or stainless steel. l L51 supporting steel sheet Symbol a [mm] Weight [kg] Ø a L51A L51B Material: Zinc-coated and powder painted steel sheet (RAL 9010) or stainless steel. Ø 7,5 1

17 l L5 sleeve Symbol L [mm] Weight [kg] L5A M10 L5B L5C L5D L Ø 18-5 l L5 supporting steel sheet Symbol a [mm] g [mm] Weight [kg] L50A øa L5B L5C ø9 øa Material: Zinc-coated and powder painted steel sheet (RAL 9010) or stainless steel. ø11 g 17

18 l L5 fastener Symbol d [mm] Weight [kg] L5A L5B ød 170 R R

19 l L5 fastener 100 Symbol Weight [kg] L Ø l L55 fastener Symbol b [mm] Weight [kg] L55A L55B ø b

20 l M05/S001 Ruukki sandwich panel cladding for cold storage facility layout of installation details. M05/S0 M05/S0 M05/S0 M05/S07 M05/S08 M05/S09 M05/S01 M05/S0 M05/S1 0

21 l M05/S00 Ruukki sandwich panel cladding for cold storage facility layout of installation details. M05/S1 M05/S10 M05/S11 M05/S1 M05/S1 M05/S05 1

22 l M05/S01 Joint between Ruukki SPE PU panels. 1 ± D ± Modular width 1100 Modular width Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. Butyl sealing compound.. Permanently elastic sealing compound compulsory for roofs, optional for walls.

23 l M05/S0 Joint between frozen warehouse wall and socle. min. 150 D min min. 00 R min facing cut at (cold bridge break) external socle acc. to architectural design of the structure concrete footing to engineering design of the structure 1. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. EA1B70 drip wall flashing or custom ordered flashing.. øx10 Al/Fe white blind rivet (every ~00).. Permanently elastic sealing compound, min. ø5 mm. 5. Zinc-coated angle, e.g. 0x100 (optional).. Protection of the substrate against frost damage (acc. to architectural design of the structure). 7. Vapour barrier.

24 l M05/S0 Corner joint between wall panels option 1. SOCLE FACE / D A WALL 9 A D 150 WALL 9 SOCLE FACE facing cut along (1/ D-5) mm 1 Detail A 150 D 150 or 9 or 7 1. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. EA1B71 corner flashing.. EA1B75 corner flashing.. ø.8x1. watertight rivet (every ~00). 5. Expanding foam.. Permanently elastic sealing compound. 7. øx10 Al/Fe white blind rivet (every ~00). 8. Self-adhesive sealing tape. 9. Butyl sealing compound.

25 l M05/S0 Corner joint between wall panels option. SOCLE FACE / D A WALL 1 D WALL 8 8 facing cut along (1/ D-5) mm 1 Detail A 150 D Steel elements acc. to engineering design of the structure. EA1B71 corner flashing.. Internal corner flashing.. Assembling flashing. 5. Expanding foam.. Permanently elastic sealing compound. 7. øx10 Al/Fe white blind rivet (every ~00). 8. ø.8x1. Al/Fe watertight rivet (every ~00). 9. Self-adhesive sealing tape. 10. Butyl sealing compound. 5

26 l M05/S05 Corner joint between wall and roof panel. 8 1/ D 10 5 A CEILING D 15 9 WALL 9 facing cut along (1/ D-5) mm 1 Detail A or D 9 or 7 1. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. EA1B71 corner flashing.. EA1B7 corner flashing.. ø.8x1. watertight rivet (every ~00). 5. Expanding foam.. Permanently elastic sealing compound. 7. øx10 Al/Fe white blind rivet (every ~00). 8. Self-adhesive sealing tape. 9. Butyl sealing compound.

27 l M05/S0 Joint between wall panel and sheeting rail option 1. 1 ø19 wall thickness g= to 1 mm 1. Steel elements acc. to engineering design of the structure.. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU.. Self-drilling or self-threading fastener made of stainless steel with ø19 - ø7 washer depends on loads.. K1 cap (optional). 7

28 l M05/S07 Joint between wall panel and sheeting rail - option 1 ø19 1. Steel elements acc. to engineering design of the structure.. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU.. Self-drilling or self-threading fastener made of stainless steel with ø19 - ø7 washer depends on loads.. K1 cap (optional). 8

29 l M05/S08 Joint between wall panel and sheeting rail option Steel elements acc. to engineering design of the structure.. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. L5 sleeve.. L50A supporting steel sheet. 5. M10xL Fe/Zn5 screw Fe/Zn5 washer. 7. Permanently elastic sealing compound. 8. K cap. 9

30 l M05/S09 Joint between wall panel and sheeting rail option min Steel elements acc. to engineering design of the structure.. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU.. L5 sleeve.. L50A supporting metal sheet. 5. M10xL Fe/Zn5 screw Fe/Zn5 washer. 7. Permamently elastic sealing compound. 8. K cap. 9. L5 fastener. 10. L5 fastener. 0

31 l M05/S10 Ceiling panel suspension - option 1 (cross-section perpendicular to load-bearing beam) Steel elements acc. to engineering design of the structure.. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU.. Self-drilling or self-threading fastener made of stainless steel.. L50A supporting metal sheet. 5. K1 cap. 1

32 l M05/S11 Roof panel suspension option (cross-section as seen perpendicular to load-bearing beam) Steel elements acc. to engineering design of the structure.. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. L5 sleeve.. L50A supporting steel sheet. 5. M10xL Fe/Zn5 screw Fe/Zn5 washer. 7. Permanently elastic sealing compound. 8. K cap.

33 l M05/S1 Roof panel suspension option (cross-section as seen parallel to load-bearing beam) ± Steel elements acc. to engineering design of the structure.. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. Sealing compound.. Permanently elastic sealing compound. 5. L5 sleeve.. L50A supporting steel sheet. 7. M10xL Fe/Zn5 screw Fe/Zn5 washer. 9. K cap.

34 l M05/S1 Roof panel suspension with aluminium profile. 7 8 ~500 mm Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU.. Polyethylene insulation.. M10 threaded rod.. Supporting element - lacquered aluminium profile. 5. ø.8x11 water tight rivet (every ~00).. Expanding foam. 7. Permamently elastic sealing compound. 8. Bituminous sealing tape. 9. Aluminium profile connector.

35 l M05/S1 Joint between partition wall and floor. 150 D min. 00 R min facing cut (cold bridge break) layers acc. to arch. design of the structure 1. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. Permanently elastic sealing compound.. Zinc-coated angle, e.g. 0x100 (optional).. Protection of the substrate against frost damage (acc. to architectural design of the structure). 5. Water vapour insulation. 5

36 l M05/S15 Joint between partition wall and roof. 5 1 CEILING A 7 Detail A PARTITION WALL facing cut (cold bridge break) D 1 1. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. EA1B7 corner flashing.. ø.8x1. watertight rivet (every ~00).. Permanently elastic sealing compound x0 impregnated polyurethane sealant or assembling foam.. Butyl sealing compound. 7. Self-adhesive sealing tape.

37 l M05/S1 Joint between partition wall and external wall. 5 1 EXTERNAL WALL A Detail A PARTITION WALL facing cut (cold bridge break) 1 D 1. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. EA1B75 corner flashing. ø.8x1. watertight rivet (every ~00).. Permanently elastic sealing compound x0 impregnated polyurethane sealant or assembling foam.. Butyl sealing compound. 7. Self-adhesive sealing tape. 7

38 l M05/S17 Insulation of frozen warehouse wall with Ruukki SPE PU panels. Brick wall 1 D 1. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. Bolting sleeve with fastener made of stainless steel.. K1 cap. 8

39 l M05/S18 Joint between Ruukki SPE PU panels and cold storage door example. D 1 1. Ruukki SPE10PU, SPE10PU, SPE180PU, SPE00PU sandwich panel.. Cold storage door.. Assembling foam.. Permanently elastic sealing compound. 9

40 Rauta head office Vector Business center 10G Starokievskaya Str. Kiev, Ukraine info@rautagroup.com Sandwich panels for cold storage facilities 010 Rautaruukki Corporation. All rights reserved. Ruukki, More With Metals are trademarks of Rautaruukki Corporation. Rautaruukki is a registered trademark of Rautaruukki Corporation.