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HomeMy WebLinkAboutFile Documents.700 Gillespie St.0129.2018 (32).ACBK - 1 - Polygal Polycarbonate Multiwall Sheets Technical Specifications Updated Dec. 2011 Index 1. Products groups description 1.1 Dimensions weights and colors 1.2 Standard products 1.3 Special structured products 1.4 Special layered products 2. Thermal properties 2.1 Service temperature and Thermal expansion 2.2 Thermal insulation (U value) 3. Optical properties 3.1 Explanations of SHGC (solar heat gain coefficient) 3.2 Standard Sheets Optical properties – Light transmission 3.3 Special Layers Optical Properties – Light transmission and SHGC 4. Technical Information 4.1 Acoustic properties 4.2 Chemical Resistance 4.3 Fire Performances 4.4 UV protection 4.5 Impact resistance 4.6 Cold bending 5. User guide information: 5.1 Cutting 5.2 Storage 5.3 Drilling 5.4 Cleaning Appendix 1: Load bearing capacity – wind and snow load Appendix 2: Installation instructions Appendix 3: Drawings details Appendix 4: Connecting Systems 1. PC connection profiles 2. AL glazing systems 3. Finishing Accessories 12/11/2018 - 2 - 1. Product group descriptions 1.1 Dimensions weights and colors Polycarbonate is a unique engineering thermoplastic which combines a high level of mechanical, optical and thermal properties. The versatility of this material makes it suitable for many engineering applications. When extruded in multi-wall sheet form, its optical and impact properties in particular render this material an ideal candidate for a wide range of roofing and glazing applications. Standard sheet length: 24/ft. & 36/ft Maximum length: subject to shipping constraints. 1.2 Standard sheets dimensions and weights Standard Sheets of PCSS (polycarbonate structured sheets) manufactured in various colors and degrees of transparency, designed for use in most conventional roofing and glazing applications. Standard sheets are manufactured with different thicknesses, ranging from 4mm to 16mm. Standard sheets, dimensions and weights Structure Thickness (mm) Weight (g/m²) Standard width (inches) 4.5 900 6 1300 8 1500 10 1700 16 2700 48” 48” 48”& 72” 48”& 72” 48”& 72” 12/11/2018 - 3 - 1.3 Special structured products Special structured sheets - developed to emphasis different characters of multiwall sheet load resistance, thermal insulation, light transmission etc. Special structured sheets dimensions and weights Product Structure Thickness (mm) Weight (g/m²) Standard width (inches) 8 1650 48” & 72” Triple-Clear Titan Sky 16 2500 47.25” Selectogal (RFX) 16 3000 47.25” 25 3500 47.25” 32 3800 Thermogal 35 4000 47.25” Triple-Clear (PC3)- Specially manufactured with a clear tint appearance, provides excellent thermal insulation, high flexibility and virtually unbreakable. With its anti-fog coating, this PCSS prevents condensation build-up (falling droplets) and the sheet structure provides extra strength under wind and snow loads. Triple-Clear sheets are manufactured in 8mm thick sheets. Titan Sky- With its internal cross-brace structure system, these sheets have twice the strength and rigidity of equivalent standard polycarbonate sheets. Titan Sky provides a quality solution that is both intelligent and advanced for use where withstanding heavy loads is required and for low-slope roofs. Titan Sky sheets are manufactured with a thickness of16mm. Selectogal (RFX)- An exclusive Polygal patent that enables the controlled penetration of heat and the transmission of pleasant daylight into buildings, while reducing heating and lighting costs. RFX’s sophisticated prismatic structure enables it to reflect most of the sun’s heat in the summer, yet allows increased penetration of solar heat in the winter. RFX sheets are manufactured with in a thickness of 16mm. Thermogal- Is a unique family of products from Polygal with an inner X-brace structure that provides extra-strength, rigidity and outstanding thermal insulation. Available in different widths and colors. Ideal for low-pitched roofs and for glazing in closed structures with large-span openings. Thermogal sheets are manufactured with different thicknesses ranging from 25mm to 35mm. 12/11/2018 - 4 - 1.4 Special layered sheets Special selective layers of polycarbonate PC sheets developed by Polygal are one of the most advanced achievements in this field. Such layers makes it possible to control the quality of light penetrating an enclosed space by absorbing and reflecting some part of solar radiation. PolyShade- A special layer of polycarbonate structured sheet that produces a special metallic shading effect. The PolyShade layer contains a special pigment that adds metallic luster to the surface and provides an optimal level of solar radiation reflection to prevent overheating of a room. The PolyShade layered sheets are manufactured with different colors: silver, metallic blue and metallic green; and of different thickness, ranging from 8mm to 16mm. Primalite - Unique selective layer that selectively reflects a large portion of the Near Infra-Red solar radiation, while transmitting more of the visible light radiation. The Primalite layered sheets are manufactured with different thickness, ranging from 8mm to 32mm. Polycoolite – Has a selective layer that is specifically designed to supply plants natural solar light needed to maximize photosynthesis. It blocks the UV rays, supplies high blue and red and reflects heat from the unused green portion of the light spectrum . It also reflects undesirable excess heat from the infrared range. Available in 8mm thick sheets. Silhouette- With it's sophisticated and lustrous exterior surface it radiates elegance and great looks. Available in a variety of formats, the Silhouette sheet features an outstanding reflective quality and selectivity making it an excellent choice and suitable for all daylight coverings. The Silhouette layered sheets are manufactured with different thickness ranging from 8mm to 32mm. 12/11/2018 - 5 - Spring - A transparent sheet with a special co-extrusion layer on the external side of the sheet under the UV protective layer. "Spring" blocks the invisible IR solar radiation & heat. Result - Lower temperatures (less heat enters the structure), but still allow maximum light to enter the structure. The Spring layered sheets are manufactured with different colors: blue and green, and different thickness, ranging from 8mm to 32mmm Rainbow – A special optical affects sheet that combines with the angle of the light to change the sheet color (e.g. from purple to green). Ultimately, the Rainbow sheets by Polygal presents a unique harmony that is both dynamic and captivating. 12/11/2018 - 6 - 2. Thermal properties 2.1 Service temperature and Thermal expansion Service Temperature Polygal multiwall polycarbonate can be installed in a diversity of applications, with varying temperatures. However, the material's mechanical performance is known to remain stable in prolonged service in temperatures ranging from -40°F to +240°F. PVC has a maximum service temperature of 140°F while acrylic is 176°F. Thermal Expansion The coefficient of linear expansion of polycarbonate material is 6.7x10-5m/m•°C. This is high relative to that of most other materials in conjunction with which it is normally used. As a consequence careful allowance must be made for the thermal expansion of Polygal polycarbonate multi wall sheets, both longitudinally and laterally. In practical terms it is necessary to allow ~1/4” per 4’ length or width for thermal expansion. 2.2 Thermal Insulation and the U-Value Thermal Insulation definition is the resistance to heat transfer as a result of temperature differences between two material bodies. In the case of MWPC (multi-wall polycarbonate) the Thermal insulation is important in application in which there is a difference between the outside to the inside air temperature. Examples for of thermal insulation can be seen in applications with closed structures such as sunrooms and indoor swimming pools. Whereas in roofing for open structures, such as bus shelters and/or a canopies… the thermal insulation has no meaning. U or R-Value is the coefficient which determines heat loss in the glazing walls of a building. As the U-Value decreases… the thermal insulation increases. Definition: Heat will flow through a wall of 1 square meter at a temperature difference of one degree Celsius between the two environments. Structure Thickness R-Factor- BTU (h/ft2/F) 4 1.449 6 1.587 8 1.667 10 1.887 16 2.439 12/11/2018 - 7 - Product Structure Thickness (mm) R-Factor- BTU (h/ft2/F) 8 2.000 Triple-Clear Titan Sky 16 2.778 Selectogal- RFX 16 2.439 25 3.226 32 4.000 Thermogal 35 4.167 12/11/2018 - 8 - 3. Optical properties 3.1 Solar gain: The most common misconception in translucent materials is that in order to reduce the sun’s heat we must reduce the light transmission whereas the value which determines the amount of solar heat is SHGC (solar heat gain coefficient or solar gain). SHGC indicates how much of the sun's energy striking the sheet is transmitted as heat. As the SHGC increases, the solar gain potential through a given sheet increases. A sheet with a SHGC of 0.6 will admit twice as much solar heat gain as one with a SHGC of 0.3. The importance of the SHGC can be seen in the following table which compares two colors: Sheet Color LT [by ASTM D 1003] SHGC 10mm Primalite 45 % 0.38 10mm ICE 32 % 0.48 It can be seen in the table that although the special color Primalite brings more light than the Ice color… it ultimately transfers less solar heat. This fact does not fit with the common sense which tells us that the Primalite will bring more heat than the Ice since it brings more light. The explanation for this extraordinary property of the Primalite is in the ability of a special pigment in the coextruded layer to filter (via reflection) the solar heat in the invisible part as can be seen in the graph below. 12/11/2018 - 9 - The special layer colors group and their optical properties in 3.3. Comparison of light reflection of Primalite layered and Opal colored sheets The area under the graph lines represent the amount of light and heat that are allowed into the building by the roof. Primalite sheets reflect much more heat in the infrared region that Ice colored sheets will not. 12/11/2018 - 10 - 3.2 Volume colored sheets optical properties Thickness (mm) Color Structure SHGC LT (Light Transmission % by ASTM D 1003) 4 clear Standard 0.77 82 6 clear Standard 0.75 80 8 clear Standard 0.74 79 8 clear PC3 0.69 77 10 clear Standard 0.73 78 16 clear Standard 0.68 74 (86*) 25 clear Thermogal 0.59 55 (79*) 32 clear Thermogal 0.51 50 10 clear Titan Sky 62 (79*) 6 bronze Standard 0.58 42 8 bronze Standard 0.58 42 10 bronze Standard 0.59 42 16 bronze Standard 0.56 42 (45*) 16 bronze Titan Sky 0.46 42 25 bronze Thermogal 0.38 20 32 bronze Thermogal 0.33 15 6 turquoise Standard 0.59 52 8 turquoise Standard 0.61 52 10 turquoise Standard 0.61 52 16 turquoise Standard 0.56 52 25 turquoise Thermogal 0.44 27 6 blue Standard 0.64 30 8 blue Standard 0.67 30 10 blue Standard 0.67 30 16 blue Standard 0.6 30 25 blue Thermogal 0.44 20 32 blue Thermogal 0.45 15 6 green Standard 0.53 30 8 green Standard 0.57 42 10 green Standard 0.58 42 16 green Standard 0.55 42 6 Ice Standard 0.47 32 8 Ice Standard 0.49 32 10 Ice Standard 0.48 32 10 MILK Standard 0.14 4 10 HWT Standard 0.17 6 16 Ice Standard 0.48 32 (57*) 25 Ice Thermogal 0.36 20 (54*) 25 NGL Thermogal 0.38 20 (51*) 32 NGL Thermogal 0.38 15 (47*) 16 clear Selectogal 0.35 75 16 bronze Selectogal 0.32 47 16 blue Selectogal 0.36 30 16 NGL Selectogal 0.28 32 * Light Transmission by ASTM D 1494 12/11/2018 - 11 - 3.4 Special layered sheets optical properties Thickness (mm) Pigment name (color) Structure SHGC LT (Light Transmission % by ASTM D 1003) 6 PSD silver Standard 0.3 18 8 PSD silver (volume) Standard 0.32 18 8 PSD silver Standard 0.29 18 (24*) 10 PSD silver Standard 0.3 18 (24*) 16 PSD silver Standard 0.23 18 (20*) 10 PSD silver + HW Titan Sky 0.14 2 (6*) 16 PSD silver + HW Titan Sky 0.1 2 (5*) 32 PSD silver Thermogal 0.33 25 10 PSD blue Standard 0.41 18 8 PSB (Volume) Standard 0.45 18 10 PSG Standard 0.32 18 8 Rainbow Standard 0.43 15 8 IRG green Standard 0.52 70 8 IRB blue Standard 0.48 50 6 IRB blue (volume) Standard 0.6 55 8 IRB blue (volume) Standard 0.54 48 8 IRG green (volume) Standard 0.64 70 32 IRG green Thermogal 0.36 44 (47*) 32 IRB blue Thermogal 0.29 24 16 IRG green Titan Sky 0.27 48 (55*) 16 IRB blue Titan Sky 0.42 48 8 Primalite Standard 0.39 45 (68*) 10 Primalite Standard 0.38 45 (66*) 16 Primalite Standard 0.27 32 16 PRL Titan Sky 0.19 18 16 PNL Titan Sky 0.32 20 25 Primalite Thermogal 0.29 18 32 Primalite Thermogal 0.24 15 8 Polycoolite Standard 0.53 45 (63*) 10 Polycoolite Standard 0.48 45 16 Polycoolite Standard 0.43 32 16 Polycoolite Titan Sky 0.27 18 (54*) 8 Silhouette PRL Standard 0.5 40 32 Silhouette PRL Thermogal 0.34 10 (45*) 8 Silhouette Gold Standard 0.37 35 (63*) 6 Silhouette Gold (volume) Standard 0.44 42 8 Silhouette Gold (volume) Standard 0.4 32 10 Silhouette Gold Standard 0.36 35 (61*) 32 Silhouette Gold Thermogal 0.27 10 (43*) 6 PNL (Volume) Standard 0.42 35 8 PNL (Volume) Standard 0.45 32 10 PNL (Volume) Standard 0.47 35 8 PMT (Polymatte) Standard 0.73 77 * Light Transmission by ASTM D 1494 12/11/2018 - 12 - 4. Technical information 4.1 Acoustic Accordance with DIN 52210-75, the maximum obtainable sound transmission class for a particular thickness is listed below. Sheet Thickness (mm) Sound reduction Values (dB) 4 15 6 - 8 18 10 19 16 21 20 22 25 - 32 23 4.2 Chemical resistance Polygal sheets have been successfully used in combination with building materials and glazing components. The chemical stability depends on many factors such as concentration of the chemical agents and on exposure temperatures. Considering the complexity of chemical compatibility, all chemicals which come into contact with polycarbonate should always be tested. Polygal offers lab service for testing chemical stability and gaskets and sealants which have been approved. In general, polycarbonate is not compatible with PVC (polyvinyl chloride). 4.3 Fire performance Polygal has received high ratings in several major American & European 3rd Party Laboratories. More detailed information and official test reports are available from your local Service Center or authorized dealer. Much of this information can also be found on our website (www.polygal- northamerica.com). Flammability Method Classification* BS 476/7 Class 1 DIN 4102 B-1 (10&16 mm) NSP 92501 M-1, M-2 ASTM D-635 CC-1 ASTM-E-84 Class A EN 13501 B, s1, d0 *Classifications depend on sheet type and thickness. 4.4 UV protection Solar radiation has a harmful component by UV rays which initiate degradation of many polymeric materials including polycarbonate. This depends on geographic locations, seasons, etc. Polygal's polycarbonate sheets feature a specially coextruded UV absorption and protection layer, which provides long-lasting high stability against damaging UV radiation, protects against outdoor weathering and retains its original color and light transmission as shown in the accelerated weathering tests illustrated in the graph below. 12/11/2018 This is a test for flame spread index of interior materials. - 13 - Light Transmission (400-780 nm) -Thickness 6 mm Weathering timeby Xenon-WOM; 102:18 (h) MWPC with UV protection MWPC without UV protection MWPC with UV protection MWPC without UV protection Weathering timeby Xenon-WOM; 102:18 (h) Yelowness Index -Thickness 6 mmYY h h Polygal’s warranty is a 10 year (non-prorated) warranty that covers the following: discoloration, loss of light transmission and loss of strength due to hail damage (up to ¾” size hail). However, proper installation and good maintenance will ensure an even longer period of product life. The UV-protected side of the sheet is shown by the printed film. In case the protective film is removed before installation, it is still possible to identify the UV-protected side: In order to ensure the full traceability of our production and the follow-up of quality issues, sheets are ink-printed every meter. This marking is shown on the UV-protected side. Visual control: On clear sheets the edge of the upper skin has a bluish tint. On colored sheets, the partition lines are more visible on the UV protected side. 4.5 Impact strength – Hail Resistance: Loss of “impact strength in the event of hail” shall be determined by an impact test according to ASTM D 5628-95 geometry FE (tap diameter 20mm). (In this test, failure is determined when the upper wall of the sheet is penetrated by the tap. The sheet does not reach the required standard if the Mean Failure Energy obtained in the test is less than 0.831 Joules. This energy is equal to the energy generated by a 20 mm (~3/4”) diameter ice ball at a speed of 21 m/s.) 4.6 Bending the sheet Polygal sheet can be successfully cold bent over curved support glazing profiles, to suit many glazing applications to include domes, roof-lights, etc. Providing the radius is not below the minimum recommended value, then the introduced stress by cold-bending will not have any adverse effect upon the mechanical performance of the sheet. Sheets must always be bent longitudinally, never across the width of the sheet. Table : minimum radius values Sheet Thickness (mm) Min. cold bending radius (inches) 4 27.5” 6 41” 8 55” 10 69” 16 110” 20 138" 25 172" 32 220.5” 35 240” 12/11/2018 - 14 - 5. User guide information 5.1 Packaging Polygal products are generally delivered in 20' and 40' box containers, protected on both sides by polyethylene film against scratching, and secured to prevent damage from movement within the container. The sheet ends are sealed with masking tape to prevent dust, debris and insects from entering into the fluting of the sheets. The maximum sheet length is 228” (inches) for a 20' container and 468” (inches) for a 40' container. Shipping of sheets of different lengths should be coordinated in advance with your local Service Center. It is recommended to unload the containers by hand using a slanted roller conveyor with adjustable height. Sheets must be stored away from exposure to sunlight and according to the company's storage guidelines. 5.2 Storage Store sheets in dry, dark & well ventilated area with NO EXPOSURE to sunlight, wind, dirt or hard objects to prevent damage. Store on a flat clean raised surface, and on a soft material (i.e.cardboard) to prevent damage. Supported, sloped stacking is recommended. If stacked flat, stack to a maximum height of 3 feet. Outdoors, sheets should be covered with an opaque material (cardboard, wood, EPDM sheet etc.) that provides protection from the sun. Do not use PVC based material to cover sheets. Outdoors, storage of sheets exposed to sun light will cause the protective polyethylene film to bake onto the sheet, and it WILL NOT BE ABLE TO BE REMOVED. Outdoors, DO NOT store sheets under flexible PVC coverings. 5.3 Cleaning Polygal Sheets – standard and specialized – will give longer and better service life with simple cleaning: • Rinse sheet with water • Use warm soapy (mild liquid dish soap) water to clean sheets. If any dirt remains, gently wipe off with a soft cloth. • Apply final rinse and dry with soft cloth, if possible, to prevent water spotting. DO NOT use sponges, squeegees, brushes or sharp instruments as they may damage the UV protective coating. 5.4 Cutting and drilling Cutting - Polygal multiwall sheets can be cut easily and accurately with standard woodworking equipment. This includes standard circular, jig, or table saw with a circular blade having 8-12 teeth per inch (fine toothed blade). Saw dust should be blown out (or) vacuumed out of the flutes. If using compressed air, insure that there is a moisture separator on the compressor to insure moisture is not introduced into the flutes. Thinner gauges can be cut with a box knife. It is important that the knife is sharp. Drilling - Holes can be drilled by a power drill using standard high speed steel twist drills or drills with an angular wedged bid. When drilling, support should be given immediately beneath the drill to avoid vibration. Very clean holes are easily obtained. The use of liquid cooling media is not recommended. Trimming – standard box cutting knife. 12/11/2018 - 15 - Appendixes Appendix 1: Load bearing capacity – wind and snow load In order to choose the suitable sheet to stand the local standards of wind and snow loads one should consider several factors: • The sheet type (e.g., structure and weight): 8mm twin wall 1500 gr/m² will deflect more than Titan sky 16mm 2500 gr/m². • The sheet width: 600mm (~23.6”) width will deflect less than 1200mm (~47.24”) width under the same load. • Distance between supports – Obviously shorter distance between supports improves the resistance to positive loads. • Type of connectors –Aluminum or Polycarbonate • Supports conditions (four sides, two sides, two sides with purlins) • Flat or curve structure • Positive or negative wind load • Permitted deflection – the standard in MWPC is 5% from the sheet width The following tables simplify the complex problem of choosing the suitable design configurations. The simple distinguish is between flat and curve structure. For flat structure: The table below gives the permitted distance (feet) between purlins for sheets 48” wide with a maximum deflection of 5% on the width (2.4”). Load (PSF) Sheet 17 21 25 29 33 37 41 6 mm Standard 3.61 3.28 2.95 2.62 x x x 8 mm Standard 5.58 4.27 3.61 3.28 2.95 2.62 2.30 10 mm Standard 6.23 5.58 5.25 4.92 4.59 4.27 3.94 10 mm Titan Sky 6.56 5.91 5.58 5.25 4.92 4.59 4.27 16 mm Standard 7.55 6.56 5.91 5.58 5.25 4.92 4.59 16 mm Selectogal 8.86 8.53 6.89 6.23 5.58 5.25 3.94 16 mm Titan Sky 9.19 8.86 7.22 6.56 5.91 5.58 5.25 25 mm Thermogal ∞ ∞ 7.55 6.89 6.23 5.91 5.58 32 mm Thermogal ∞ ∞ 9.19 7.87 6.89 6.56 6.23 * The infinity sign (∞) represents two sides supported for a negative wind load. For curved structure: The tables give the permitted width (feet) according to sheet type, wind load and radius. The max permitted sheet width for 6mm Standard sheets Load (PSF) Radius (inches) 17 21 25 29 33 37 41” 6.89 5.91 5.25 4.43 3.94 3.61 47” 6.23 4.92 4.27 3.94 3.44 2.95 59” 4.59 3.94 3.44 2.95 2.62 2.46 71” 3.94 3.44 2.79 2.46 2.30 1.97 78” 3.44 2.95 2.62 2.30 1.97 x 98” 2.79 2.30 1.97 x x x 12/11/2018 - 16 - The max permitted sheet width for 8mm Standard sheets Load (PSF) Radius (inches) 17 21 25 29 33 37 55” 6.89 6.89 5.58 4.92 4.59 3.94 70” 5.91 4.92 4.27 3.94 3.44 2.95 86” 4.92 3.94 3.44 3.44 2.95 2.62 102” 3.94 3.44 2.95 2.62 2.30 2.30 118” 3.44 2.95 2.62 2.30 2.30 1.97 The max permitted sheet width for 10mm Standard sheets Load (PSF) Radius (inches) 17 21 25 29 33 37 69” 6.89 6.89 6.23 5.58 4.92 4.59 78” 6.89 5.91 5.25 4.59 4.27 3.94 86” 6.89 5.58 4.59 4.27 3.94 3.61 98” 5.58 4.92 4.27 3.94 3.44 3.44 118” 4.92 3.94 3.61 3.44 2.95 2.79 157” 3.94 3.44 2.95 2.62 2.62 2.30 The max permitted sheet width for 16mm Standard sheets Load (PSF) Radius (inches) 17 21 25 29 33 37 110”- 122” 6.89 6.89 6.89 6.89 6.89 6.89 122”- 137” 6.89 6.89 6.89 6.89 6.23 6.23 157” 6.89 6.89 6.89 6.23 5.58 4.92 197” 6.89 6.23 5.58 4.92 4.59 4.59 The max permitted sheet width for 16mm Titan Sky sheets Load (PSF) Radius (inches) 17 21 25 29 33 37 110”- 141” 6.16 6.16 6.16 6.16 6.16 6.16 149”- 177” 6.16 6.16 6.16 6.16 5.58 5.28 177”- 197” 6.16 6.16 5.58 4.99 4.69 4.40 216”- 315” 5.28 4.69 4.11 3.81 3.52 3.23 110”- 141” 6.16 6.16 6.16 6.16 6.16 6.16 149”- 177” 6.16 6.16 6.16 6.16 5.58 5.28 The max permitted sheet width for 25mm Thermogal sheets Load (PSF) Radius (inches) 17 21 25 29 33 37 173”- 216” 6.89 6.89 6.89 6.89 6.89 6.89 236”- 275” 6.89 6.89 6.89 6.89 5.91 5.91 354” 6.89 6.89 6.23 5.58 5.25 5.25 433” 6.89 6.23 5.58 4.92 4.92 4.59 The max permitted sheet width for 32mm Thermogal sheets Load (PSF) Radius (inches) 17 21 25 29 33 37 220” 6.89 6.89 6.89 6.89 6.23 5.91 236” 6.89 6.89 6.89 6.23 5.91 5.25 256” 6.89 6.89 6.56 5.91 5.25 4.92 275” 6.89 6.56 6.23 5.58 5.25 4.92 295” 6.89 6.56 5.58 5.25 4.92 4.59 393” 6.23 5.58 4.92 4.59 4.27 3.94 12/11/2018 - 17 - Appendix 2: Installation Instructions Planning the Supporting Structure • Install the sheets with the ribs parallel to rain flow and with a slope of at least 10º (1:12 pitch). In wall and gable applications… always ensure that the ribs are positioned vertically. • Supporting beams must be at least 30 mm (1.2”) wide to ensure good anchorage of sheets and fastening accessories. • In case of arched structure, check the smallest permissible cold bending radius (R) according to the sheets thickness. • Ensure that a qualified professional checks and approves the structure before execution. Preparing the Supporting Structure • Complete all the metalwork and painting before beginning sheet installation work. • Check the dimensions on site, and plan the roofing requirements before ordering Polygal products for the project. Preparing the Sheets • Remove the grey protective film. • Fold back the printed sheet protection film 4” (inches) on each side. • Attach Perforated Edge Tape to the upper and lower edges of the sheet. Preparing the Edge Profiles • Use an Aluminum or Polycarbonate Edge Profiles to protect the lower edge of the sheets. For the upper edges protection also a Polycarbonate Edge Profiles can be used. • Use a metal saw to cut the Aluminum Edge Profiles into pieces matching the width of sheets to which they will be attached. • Drill drainage channels to allow for the flow of condensed water along the profiles used for the bottom section of the building’s roof. Drill holes 6”- 12” apart using a 5/16” drill bit. • Attach the edge profile to the sheet with the short side on top of the sheet. Sheets Installation Step 1- Place the sheets with the side protected by the printed film upwards. Step 2- Slide the base connecting profile underneath the sheet flank and use self drilling screws to anchor them to the structure. Step 3- Position the connecting profile cap in place. For a Polycarbonate Connection Profiles with a shock-absorbing support under the sheet, use a rubber mallet to connect it to the base. For Aluminum Glazing Systems, anchor the Cap Profile to the Base Profile with applicable screws (see Polygal Accessories Catalog). Step 4- Continue to add sheets, and profiles until reaching the end of the building. After completing installation, remove all the protective film from the sheets as soon as possible. Finish and Fixing Reinforcements • Place fixing screws with fixing gaskets only in the support frame lines. • Do not over-tighten screws. For best results always use Polygal screws and accessories, designed specifically for use with Polygal sheets. 12/11/2018 - 18 - Appendix 3: Drawing Details Polycarbonate connection profiles (ECP connection detail) Aluminum Glazing System (MGL connection detail) Side gable connection (ECP profiles) Upper edge wall Connection Upper edge cladding connection Lower edge gutter connection Lower edge cladding connection Ridge connection Appendix 4: Connection Systems Polycarbonate connection profiles HP connector – 4mm to 16 mm sheets connection. For vertical (cladding) light structures. HCP connection profiles – 4mm to 16 mm sheets connection. Polycarbonate Cap Profile and Aluminum or Polycarbonate base profile. Used in a wide range of architectural applications. HCP with Polycarbonate Base profile HCP with Aluminum Base profile 12/11/2018 - 19 - Easy Clip (ECP-G2) connection profiles – 4mm to 10 mm sheets connection. Used in a wide range of architectural applications (Horizontal and Vertical). Finishing Accessories EPDM Fixing Dome EPDM dome gasket and metal washer together with self drilling screws provide a high-performance, trouble free fastening system with highly effective dual- point sealing between the EPDM gasket and the screw and between screw head and metal washer. It is strongly recommended to use self drilling, special coated corrosion resistant screws. Sealing Tapes AntiDUST tape is a non-woven tape system used for sealing the top and bottom edges of multiwall polycarbonate sheets. AntiDUST tape is specifically designed to stop mold, algae, insects and dust from accumulating within the walls/ flutes of multiwall polycarbonate sheets. Advantages of AntiDUST tape over other products include: • Ease of application • Proper drainage of condensation • Maintains clarity of multiwall polycarbonate sheets • Extra durable construction and long life of tape materials AntiDUST tape is made of a strong non-woven material which is designed to adapt without difficulty to the expansion and contraction of multiwall sheets U-shape edge profiles For trimming the sheets upper and lower edges U-shape aluminum or polycarbonate profiles should be used. (See drawing of edge detail in Appendix 3) 12/11/2018 - 20 - Aluminum Glazing Systems Mega-Lock glazing system –Specifically designed for use in glazing with 6mm to 16mm polycarbonate multiwall sheets. The system has a rabbet depth of 20 mm (~3/4”), which enhances its fastening properties and prevents glazing failures due to wind and snow loads or thermal expansion. Wide range of architectural projects. 6-35 Glazing System- Is a large span clamping system specially developed for glazing applications using 25mm to 35mm polycarbonate multi wall sheets. Sheets are mounted on the system’s load- bearing elements during construction of transparent and semi-transparent roofing. The system’s large rabbet depth 30mm (~1.2”) overlap makes sheets fastening easier, and helps prevent glazing failures due to wind and snow loads or thermal expansion. Wide range of architectural projects. 12/11/2018