Inline Fiberglass Limited A Company Profile Fiberglass technology has been used in the most demanding applications for many years.

Since the 1950's, fiberglass components have become increasingly more popular in aeronautical, aerospace, automotive and marine applications as a result of their high strength to weight ratio. In 1983, Inline, a manufacturer of high performance aluminum window and door products, began investigating alternative materials to replace aluminum in the manufacture of their products. This extensive investigation confirmed the superior characteristics of fiberglass when compared to the aluminum, PVC (vinyl) and wood substrates traditionally used to fabricate windows. At that time, current techniques to manufacture fiberglass window members were not cost-effective and Inline was faced with the formidable challenge of furthering existing technology in order that superior windows could be manufactured at competitive prices. Inline zeroed in on the “Pultrusion” as the process most suitable for the production of long lengths of material with constant cross-section. This process is a primary fabrication technique for manufacturing continuous lengths of fiber-reinforced composite profiles. Pultrusion is similar, in principle, to the extrusion process used to manufacture aluminum and vinyl profiles. In pultrusion, fiberglass rovings, mats and inert resins are “pulled” through the die, to establish the desired shape. The resins used in Fiberglass Pultrusions are, usually, Thermoset whereas PVC (vinyl) materials, use Thermoplastic Resins. As a consequence, pultruded fiberglass materials are inert throughout any weather conditions. In other words, the physical properties of Inline’s fiberglass products demonstrate negligible change through temperatures from -45C to 175C (-50F to 350F). As a result of more than ten years of research and development, Inline has developed proprietary equipment and technology to pultrude the intricate details necessary in the design of window and door components, efficiently and cost-effectively. Inline Fiberglass Limited is now recognized as a world leader in Pultrusion Technology. Our proprietary manufacturing equipment is regarded as the best commercially available. Indeed, Inline‘s state-of-the art technology is the primary reason that we can now offer thin-walled pultruded lineals at competitive prices. Currently, Inline pultrudes sixteen lines of windows, (a double acting) swing/tilt door system and a sliding glass (Patio) door. In addition, we pultrude custom profiles for a variety of end-uses. First introduced in the 1980's, pultruded fiberglass windows and sliding glass doors have surpassed other traditional window types in terms of thermal performance and energy efficiency while providing the durability and strength associated with fiberglass. Inline holds International Patents covering its proprietary technology for Fiberglass windows/doors. All of the aforementioned technology as well as die design and fabrication; and painting technology have been developed, in-house, by a team of dedicated engineers. Inline Fiberglass Limited is an International Company, with World Wide licensing agreements.

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Fiberglass Windows in Architecture

When a chemical plant in Quebec needed to replace deteriorated windows in their corporate offices, fiberglass products by Inline Fiberglass Limited were the product of choice. Specifiers for a salt mine in Ontario; a Government Office in the coldest climate of Canada’s Arctic; Hotel complexes built in the heat of Egypt and the Greek Islands; a Lighthouse exposed to constant gale force winds and salt spray; Condominium Apartments in Taiwan or the Atlantic Seaboard that are in the path of future hurricanes, all arrived at the same conclusion for the same reasons. The rationale, in all cases, was the proven durability of fiberglass; its resistance to corrosion; superior strength; and un-equaled thermal resistance and stability.

Fiberglass is a versatile material that has a multitude of applications.

Design Professionals may, already, be familiar with non-corroding/oxidizing fiberglass concrete-reinforcements and construction beams; wall panels and radar domes. Other applications include fiberglass components for suspended bridges, that if constructed from steel, would collapse under their own weight; road-side guard rails which have proven to be more desirable than steel; radio and hydro electric towers; and pre-fabricated houses to name but a few.

High performance windows fabricated from fiberglass components are the latest development in fenestration technology. Fiberglass Windows and Doors are gaining popularity as a result of their impressive physical characteristics and properties. For the architect or design professional seeking a window with attractive aesthetics, high structural strength and resistance to heat transfer, all at modest cost, Inline’s high-tech products provide the ultimate solution.

To those familiar with fiberglass boat hulls and automobile bodies, it may be difficult to envision window framing components fabricated from the same material using a continuous pultrusion process. Simply put, pultrusion is a process whereby resin-coated fiberglass rovings are “pulled” through a heated die. Fiberglass window framing lineals are made from a combination of fiberglass rovings, which are continuous hair-like strands of glass, and fiberglass mats. The rovings are used to provide the exceptional longitudinal strength while the mats provide transverse resilience.

One advantage of pultrusion is cost.

In fact, if windows were to be manufactured like boat hulls, their price would be prohibitive due to the excessive labour involved in the molding process. Instead, as a result of recent improvements in efficiency, the price of Inline’s pultruded fiberglass window and door products is now competitive with windows made using traditional materials. Fiberglass windows are now used in residential and commercial high and low-rise construction applications.

This Canadian-born technology is expanding with licensing arrangements for our pultrusion technology and by offering “turn-key” operations for the manufacture of pultruded components.

Many of the physical and structural properties that make fiberglass so attractive for use in automotive and marine applications are the same characteristics desirable in window framing components.

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Characteristics of Fiberglass

Structural Strength: While this property varies with the cross-section of the profile, it is approximately 1/3 that of aluminum and is used in similar applications. Fiberglass has approximately 8 times the strength of PVC at ambient temperature but PVC’s strength diminishes as temperatures increase, whereas fiberglass’ physical properties remain unchanged up to 175C (350F).

Thermal Stability:

Fiberglass is recognized for its low “coefficient of expansion” which is, essentially, the same as that of the glass it surrounds. This characteristic results in a “no-warp” behavior, even in the most demanding environmental conditions. Users of Inline’s fiberglass windows will appreciate the reliability in operation regardless of the temperature.

Insulating Capability:

Fiberglass windows are widely recognized as the most energy efficient products available. As a result of their strength and the low thermal transmittance of fiberglass, pultruded fiberglass windows offer greater resistance to heat flow than other traditional materials. Fiberglass windows have demonstrated their ability to be net energy contributors to buildings during the heating season when even the best insulated wall will have a net energy loss.

Durability:

For over 40 years, fiberglass boats, exposed to corrosive marine environments, have proven their superiority over other traditional materials. Even longer life can be expected from fiberglass windows coated with a sophisticated two-component paint which offers resistance to UV degradation and fading. The flexible coating system also allows users to select from an infinite array of colors to complement any decor.

Maintenance:

Save for the occasional wash with a mild detergent to remove atmospheric grime and oiling of operating hardware components, Inline’s fiberglass windows should require no maintenance throughout their impressive life span.

Performance Standards: Canadian performance standards for windows are among the most demanding and comprehensive anywhere in the world. Inline’s fiberglass windows meet and exceed air and water leakage; structural and thermal requirements; not only in Canada, but also in the USA, Europe and the Far East.

Availability:

There are but a few companies, anywhere in the world, that have overcome the technical hurdles associated with producing cost-effective, commercially viable, fiberglass window and door systems. And Inline Fiberglass Limited of Toronto, Canada is the world leader! We have the most advanced equipment as well as the broadest line of products anywhere. With the exception of Inline Fiberglass Ltd., no one can provide fixed, casement, awning, horizontal sliding, double & single hung; inward-swinging; and tilt’n turn windows as well as sliding and hinged glass doors, all fabricated using pultruded fiberglass frames and protected with a highperformance, two-component coating system.

While Inline started with the design and fabrication of windows from a non-traditional, fiberglass reinforced composite material, we now offer fabricated systems to other manufacturers and component parts to companies wishing to assemble their own products.

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300 SERIES TILT N’ TURN WINDOWS

SERIES 300 4

SPECIFICATIONS 300 SERIES

IN-SWING TILT’N TURN CASEMENT BUTT HINGED HOPPER & FIXED LITE WINDOWS

PRODUCT Shall be 300 Series, In-swinging, [Tilt’n Turn], [Casement], [Butt Hinged Hopper], [Fixed Lite] Window Assemblies, as manufactured by Inline Fiberglass Limited. Frames are 60mm (2-3/8”) deep and in compliance with [CSA-A440.1 A3, B7, C5, F2, and CSA-A440.2], [AAMA 101/I.S.2, Rating C60.] MATERIAL All frame and sash profiles are made from pultruded fiberglass, having a nominal wall thickness of 2.5mm (0.100”) with minimum glass content of 60%. Non-structural accessory members are permitted to be vinyl or aluminum and identified as such. CONSTRUCTION Frame and sash corners are connected with molded reinforced polymer shearblocks and mechanically secured. Joints are factory sealed and neatly fitted together. FINISH All exposed surfaces are coated with durable, Isocyanate-free, 2-part Polymer enamel with a minimum dry film thickness of 1 mils with a medium gloss of 25-40. Finish shall not blister, crack or peel under normal atmospheric conditions. Standard colours are: White, Ivory, Sandalwood, Commercial Brown, and Forest Green. (Custom colours and split frame painting is available.) HARDWARE Full range of in-swing and Tiltn’ Turn fittings (as manufactured by SIEGENIA) comprising interior butt hinges, single operating handle options and universal interlocked components with lock spacing adaptable to sash size. WEATHERSTRIPPING Santoprene Bulb-type gasket on interior and exterior with pressure equalizing gap at the exterior header. GLASS All windows are glazed with 22 mm (7/8”) insulating glass units. Glass thickness shall be in accordance with applicable Building Codes, but not less than 3mm (1/8”). Inline recommends the use of double-sealed insulating glass units certified by IGMAC or SIGMA. The full range of glazing options available include: colonial grilles, low conductivity spacers, inert gas fills, and glazings to reduce heat loss, solar heat gain and visible light transmission. GLAZING METHOD Laid-in glazing using polyethylene closed cell adhesive tape on the exterior and a PVC glass stop locked-in from the interior provides a secure and positive seal for the glass. INSECT SCREENS Full-height, roll-formed aluminum frame with friction fit corner keys. Screen mesh (Fiberglass or Aluminum) retained by vinyl spline. INSTALLATION Shall be performed by experienced installers in accordance with manufacturer’s instructions and CSA-A440.4. Window shall be plumb and square after installation is complete and sealed to both interior and exterior walls with a high sealant around the perimeter of the frame. If perimeter cavity is to be foamed, additional anchorage may be required to prevent bowing. It shall be the responsibility of the installers to make all necessary final adjustments to ensure normal and smooth operation. MAINTENANCE Occasional cleaning of glass and frame components with non-abrasive detergent is recommended. •

Due to constant product improvements, Inline reserves the right to change the information herein without notice.

Copyright Inline Fiberglass Ltd. Of Toronto, Canada 2000

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300 SERIES Tilt’n Turn Windows TEST REPORT Laboratory Test Size CSA SIZE AAMA Size

TYPE O P E R A T O R F I X E D

Operator 1000mm x 1600mm 48” x 72”

TEST Air Tightness Water Tightness Wind Load Resistance Forced Entry Air Tightness Water Tightness Wind Load Resistance Forced Entry

Standard CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA

Fixed 2000mm x 2000mm 78” x 78”

REQUIREMENTS Test Standard Test Criteria ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.57 psf ASTM E 547 @ 700 Pascals ASTM 547/331 @ 12 psf ASTM E 330 @ 5000 Pa ASTM E 330 @ 90 psf ASTM F 588 No Entry ASTM F 588 No Entry ASTM E 283 @ 75 Pascals ASTM E 283 @ 6.24 psf ASTM E 547 @ 700 Pascals ASTM 547/331 @ 12 psf ASTM E 330 @ 4000 Pa ASTM E 330 @ 97.5 psf ASTM F 588 No Entry ASTM F 588 No Entry

RESULTS

RATING

0.225 m3/h/m A3 0.03 CFM/ft 2 PASS No leakage B7 No Leakage C-100 No Deformation C5 No Damage C-60 No Entry F2 No Entry Grade 30 0.02 m3/h/m FIXED 0.01 CFM/ft 2 PASS No Leakage B7 No Leakage HC-100 No Deformation C4 No Damage HC-65 No Entry F2 No Entry Grade 40

Energy Ratings The Thermal Performance Values, shown below, are based on products glazed with insulating glass units comprising one lite of Low-E glass, an argon filled cavity, and a double sealed aluminum spacer. Higher performance may be achieved by using various glass coatings, inert gasses, and/or warm edge spacers. Ratings are computer simulated in accordance with CSA-A440.2. NFRC values are interpolated from CSA A440.2 Simulations.

Performance U-Value FRAME U-Value Window SHGC Energy Rating

Operating CSA-A440.2 NFRC 2.71 W/m2/C 0.47 Btu/h/ft 2/F 2.18 W/m2/C 0.38 Btu/h/ft 2/F 0.44 0.44 -16 W/m2 N/A

Fixed CSA-A440.2 2.67 W/m2/C 2.02 W/m2/C 0.56 -4 W/m2

NFRC 0.47 Btu/h/ft 2/F 0.35 Btu/h/ft 2/F 0.56 N/A

Note: The reader is cautioned that test results should be used for comparison purposes only. Results are size and installation dependent. In-Service performance can be significantly different from those shown.

 Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

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SERIES 301 TILT’N TURN DOORS

SERIES 301

9

SPECIFICATIONS 301 SERIES IN-SWINGING TILTN’ TURN DOOR ASSEMBLY PRODUCT Shall be 301 Series, In-swinging, Tilt’ N Turn Door Assemblies, as manufactured by Inline Fiberglass Limited. Frames are 60 mm (23/8”) deep and in compliance with [CSA-A440.1A3, B7, C5, F2, and CSA_A440.2], [AAMA 101/I.S.2 Rating C60.] MATERIAL All Frame and sash profiles are made from pultruded fiberglass, having a nominal wall thickness of 2.5mm (0.100”) with minimum glass content of 60%. Non-structural accessory members are permitted to be vinyl or aluminum and identified as such. CONSTRUCTION Frame and sash corners are connected with molded reinforced polymer shearblocks and mechanically secured. Joints are factory sealed and neatly fitted together. FINISH All exposed surfaces are coated with durable, Isocyanate-free, 2-part Polymer enamel with a minimum dry film thickness of 1 mils with a medium gloss of 25-40. Finish shall not blister, crack or peel under normal atmospheric conditions. Standard colours are: White, Ivory, Sandalwood, Commercial Brown, and Forest Green. (Custom colours and split frame painting is available.) HARDWARE Full range of in-swing and Tilt N’ Turn fittings (as manufactured by SIEGENIA) comprising interior butt hinges, single operating handle options and universal interlocked components with lock spacing adaptable to sash size. WEATHER-STRIPPING Santoprene Bulb-type gasket on interior and exterior with pressure equalizing gap at the exterior header. GLASS All windows are glazed with 22mm (7/8”) insulating glass units. Glass thickness shall be in accordance with applicable Building Codes, but not less than 3mm (1/8”). Inline recommends the use of double-sealed insulating glass units certified by IGMAC or SIGMA. The full range of glazing options available include: colonial grilles, low conductivity spacers, inert gas fills, and glazings to reduce heat loss, solar heat gain and visible light transmission. GLAZING METHOD Laid-in glazing using polyethylene closed cell adhesive tape on the exterior and a PVC glass stop locked-in from the interior provides a secure and positive seal for the glass. INSTALLATION Shall be performed by experienced installers in accordance with manufacturer’s instructions and CSA_A440.4. Window shall be plumb and square after installation is complete and sealed to both interior and exterior walls with a high quality sealant around the perimeter of the frame. If perimeter cavity is to be foamed, additional anchorage may be required to prevent bowing. It shall be the responsibility of the installers to make all necessary final adjustments to ensure normal and smooth operation. MAINTENANCE Occasional cleaning of glass and frame components with non-abrasive detergent is recommended. •

Due to constant product improvements, Inline reserves the right to change information herein without notice.

Copyright Inline Fiberglass Ltd. Of Toronto, Canada 2000

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301 SERIES Tilt’n Turn Doors TEST REPORT Laboratory Test Size CSA SIZE AAMA Size

TYPE O P E R A T O R F I X E D

Operator 1000mm x 1600mm 48” x 72”

TEST Air Tightness Water Tightness Wind Load Resistance Forced Entry Air Tightness Water Tightness Wind Load Resistance Forced Entry

Standard CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA

Fixed 2000mm x 2000mm 78” x 78”

REQUIREMENTS Test Standard Test Criteria ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.57 psf ASTM E 547 @ 700 Pascals ASTM 547/331 @ 12 psf ASTM E 330 @ 5000 Pa ASTM E 330 @ 90 psf ASTM F 588 No Entry ASTM F 588 No Entry ASTM E 283 @ 75 Pascals ASTM E 283 @ 6.24 psf ASTM E 547 @ 700 Pascals ASTM 547/331 @ 12 psf ASTM E 330 @ 4000 Pa ASTM E 330 @ 97.5 psf ASTM F 588 No Entry ASTM F 588 No Entry

RESULTS

RATING

0.225 m3/h/m A3 0.03 CFM/ft 2 PASS No leakage B7 No Leakage C-100 No Deformation C5 No Damage C-60 No Entry F2 No Entry Grade 30 0.02 m3/h/m FIXED 0.01 CFM/ft 2 PASS No Leakage B7 No Leakage HC-100 No Deformation C4 No Damage HC-65 No Entry F2 No Entry Grade 40

Energy Ratings The Thermal Performance Values, shown below, are based on products glazed with insulating glass units comprising one lite of Low-E glass, an argon filled cavity, and a double sealed aluminum spacer. Higher performance may be achieved by using various glass coatings, inert gasses, and/or warm edge spacers. Ratings are computer simulated in accordance with CSA-A440.2. NFRC values are interpolated from CSA A440.2 Simulations.

Performance U-Value FRAME U-Value Window SHGC Energy Rating

Operating CSA-A440.2 NFRC 2.75 W/m2/C 0.48 Btu/h/ft 2/F 2.21 W/m2/C 0.39 Btu/h/ft 2/F 0.43 0.44 -13 W/m2 N/A

Fixed CSA-A440.2 2.67 W/m2/C 2.02 W/m2/C 0.56 -4 W/m2

NFRC 0.47 Btu/h/ft 2/F 0.35 Btu/h/ft 2/F 0.56 N/A

Note: The reader is cautioned that test results should be used for comparison purposes only. Results are size and installation dependent. In-Service performance can be significantly different from those shown.  Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

11

325 SERIES CASEMENT, AWNING and FIXED WINDOWS

14

SPECIFICATIONS 325 SERIES CASEMENT, AWNING and FIXED WINDOWS (OPEN-OUT)

PRODUCT Shall be 325 Series [Casement], [Awning], [Fixed] Window assemblies, as manufactured by INLINE FIBERGLASS Limited. Frames are 82.5mm (3-1/4”) deep and in compliance with [CAN/CSA-A440.1 A3, B7, C4, and CSA-A440.2], [AAMA 101/I.S.2, Rating HC55.] MATERIALS All frame and sash profiles are made from Pultruded Fiberglass, having nominal wall thickness of 2.3mm (0.090”) with minimum glass content of 60%. Non-structural accessory members are permitted to be in vinyl or aluminum and are identified as such. FINISH. The exposed surfaces are coated with durable Isocynate-free, 2 part Polymer Enamel with a minimum dry film thickness of 1 mils with a medium gloss of 25-40. Finish shall not blister, crack or peel under normal atmospheric conditions. Standard colours are White, Ivory, Sandalwood, Commercial Brown, and Forest Green. (Custom colours and split frame painting is available). HARDWARE Concealed Stainless Steal Hinges, E-Gard Roto Gear Operators. [multi-point locks, metal cams by “TRUTH HARDWARE”. Hardware is fastened into patented reinforcements. WEATHER-STRIPPING Q-Lon air-seal gasket on interior with Santoprene bulb-type “rain screen” gasket on the exterior to provide double weather barrier. GLASS All windows are glazed with 7//8” (22mm), 1-3/8” (35mm) for triple glazed glass units. Glass thickness shall be in accordance with applicable Building Codes, but not less than 3mm (1/8”). Inline recommends the use of double-sealed insulating glass units certified by IGMAC or SIGMA. The full range of glazing options available include: colonial grilles, low conductivity spacers, inert gas fills, and glazings to reduce heat loss, solar heat gain and visible light transmission. GLAZING METHOD Laid-in glazing using polyethylene closed cell tape or shimmed butyl tape on the exterior and [Aluminum] [PVC] glass stop locked-in from the interior provides a secure and positive seal for the glass. INSECT SCREENS Roll-formed aluminum frame with friction fit corner keys. Screen mesh (Fiberglass or Aluminum) is held in place by a spline. Screens are mounted on the interior of operating windows and are removable. Rated Heavy Duty. INSTALLATION Shall be performed by experienced installers in accordance with manufacturer’s instructions and CSA_A440.4. Window shall be plumb and square after installation is complete and sealed to both interior and exterior wall with a high quality sealant around the perimeter of the frame. If perimeter cavity is to be foamed, additional anchorage may be required to prevent bowing. It shall be the responsibility of the installers to make all necessary final adjustments to ensure normal and smooth operation. MAINTENANCE Occasional cleaning of glass and frame components with non-abrasive detergent is recommended. •

Due to constant product improvements, Inline reserves the right to change information herein without notice.

Copyright Inline Fiberglass Ltd. Of Toronto, Canada 2000

15

325 SERIES Casement/Awning/Fixed Windows TEST REPORT Laboratory Test Size CSA SIZE AAMA Size

TYPE O P E R A T O R

TEST Air Tightness Water Tightness Wind Load Resistance Forced Entry Air Tightness

F I X E D

Casement 700mm x 1600mm 27-1/2” x 63”

Water Tightness Wind Load Resistance

Standard CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA

Awning 1000mm x 1000mm 39-3/8” x 39-3/8”

Fixed 1816mm x 2020mm 71-1/2” x 79-1/2”

REQUIREMENTS Test Standard Test Criteria ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.57 psf ASTM E 547 @ 700 Pascals ASTM E 547 @ 14.5 psf ASTM E 330 @ 4000 Pa ASTM E 330 @ 84 psf ASTM F 588 No Entry ASTM F 588 No Entry ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.57 psf ASTM E 547 @ 700 Pascals ASTM E 547 @ 14.5 psf ASTM E 330 @ 5000 Pa ASTM E 330 @105 psf

RESULTS

RATING

0.04 m3/h/m A3 0.01 CFM/ft 2 PASS No leakage B7 No Leakage HC-90 No Deformation C4 No Damage HC-55 No Entry F2 No Entry Grade 10 0.02 m3/h/m FIXED 0.01 CFM/ft 2 PASS No Leakage B7 No Leakage HC-90 No Deformation C5 No Damage HC-70

* AAMA Results are extrapolated from Canadian Test Results.

Energy Ratings The Thermal Performance Values, shown below, are based on products glazed with insulating glass units comprising one lite of Low-E glass, an argon filled cavity, and a double sealed aluminum spacer. Higher performance may be achieved by using various glass coatings, inert gasses, and/or warm edge spacers. Ratings are computer simulated in accordance with CSA-A440.2. NFRC values are interpolated from CSA A440.2 Simulations.

Performance U-Value FRAME U-Value Window SHGC Energy Rating

Casement/Awning CSA-A440.2 NFRC 1.43 W/m2/C 0.26 Btu/h/ft 2/F 1.80 W/m2/C 0.32 Btu/h/ft 2/F 0.49 0.49 -4 W/m2 N/A

Fixed - High Profile CSA-A440.2 NFRC 1.64 W/m2/C 0.34 Btu/h/ft 2/F 1.84 W/m2/C 0.33 Btu/h/ft 2/F 0.63 0.63 5 W/m2 N/A

Note: The reader is cautioned that test results should be used for comparison purposes only. Results are size and installation dependent. In-Service performance can be significantly different from those shown.  Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

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326 SERIES MULTIPLE SASH HORIZONTAL SLIDING WINDOWS

19

SPECIFICATIONS 326 SERIES FIXED & MULTIPLE SASH HORIZONTAL SLIDING WINDOWS PRODUCT Shall be 326 Series [Fixed], [Multiple-Sash, Horizontal Sliding] Window, as manufactured by INLINE FIBERGLASS Limited. The fixed windows shall be glazed with insulating glass units while the Horizontal Sliding Windows shall comprise four single glazed sash panels to form dual glazing. Frames are 82.5mm (3-1/4”) deep and in compliance with [CSA-A440.1, CSA-440 A3, B7, C4, and CSA-A440.2 Standards], [AAMA 101/I.S.2, Rating R55.] MATERIALS All frames and sash profiles are made from pultruded fiberglass having a nominal wall thickness of 2.3mm (0.090”) with minimum content glass of 60%. Non-structural accessory members are permitted to be in vinyl or aluminum and identified as such. CONSTRUCTION Frame corners are connected with molded reinforced polymer components and mechanically secured. Sash corners are joined with screws secured into integral spleens. Joints are factory sealed and fitted together. Slider frame is pressure equalized and drained to the exterior. The perimeter of open-back frames shall be filled with insulation. FINISH All exposed surfaces are coated with durable Isocyanate-free, 2 part Polymer enamel with a minimum dry film thickness of 1 mils with a medium gloss of 25-40. Finish shall not blister, crack or peel under normal atmospheric conditions. Standard colours are White, Ivory, Sandalwood, Commercial Brown, and Forest Green. (Custom colours and split frame painting is available). HARDWARE Provide sash members with continuous, integral type pull handles; quiet, smooth sash operation using nylon rollers concealed in sash bottom rails; spring-loaded locking device to provide automatic locking of sash in closed position. WEATHER-STRIPPING All four sashes have pile weather-stripping to both interior and exterior to provide four-point sealing. The pile weather-stripping surrounding interior sash shall contain an integral fin to reduce air leakage GLASS and GLAZING METHOD –326 FIXED Laid-in glazing using polyethylene closed cell tape or shimmed butyl tape on the exterior and a PVC (pultruded fiberglass optional ) glass stop locked-in from the interior provides a secure and positive seal for the glass. Glass thickness shall be in accordance with applicable Building Codes. Inline recommends the use of double-sealed insulating glass units certified by IGMAC or SIGMA. The full range of glazing options available include: colonial grilles, low conductance spacers, inert gas fills, and glazing to reduce heat loss, solar heat gain and visible light transmission. GLASS and GLAZING –326 SLIDER All sash are dry glazed with neoprene gasket surrounding the single pane glass. [3mm (1/8”), 4mm (5/32”), 6mm (1/4”). Glass thickness shall be in accordance with applicable Building Codes, but not less than 3mm (1/8”). INSECT SCREENS Roll-formed aluminum frame with friction fit corner keys. Screen mesh (Fiberglass or Aluminum) is held in place by spline. Screens are mounted on the exterior side of the sliding sashes and are removable. INSTALLATION Shall be performed by experienced installers in accordance with manufacturer’s instructions and CSA-A440.4. Window shall be plumb and square after installation is complete and sealed to both interior and exterior wall with a high quality sealant around the perimeter of the frame. If perimeter cavity is to be foamed, additional anchorage may be required to prevent bowing. It shall be the responsibility of the installers to make all necessary final adjustments to ensure normal and smooth operation. MAINTENANCE Occasional cleaning of glass and frame components with non-abrasive detergent is recommended. It is also recommended that tracks be kept free of dirt and debris. *Due to constant product improvements, Inline reserves the right to change information herein without notice.

Copyright Inline Fiberglass Ltd. Of Toronto, Canada 2000 20

SPECIAL ORDER NOT STOCKED 326 SERIES Horizontal Sliding Windows TEST REPORT Laboratory Test Size CSA SIZE AAMA Size

TYPE O P E R A T O R

Horizontal Sliding 1534mm x 924mm 60-3/8” x 36-3/8”

TEST Air Tightness Water Tightness Wind Load Resistance Forced Entry

Standard CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA

REQUIREMENTS Test Standard Test Criteria ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.57 psf ASTM E 547 @ 700 Pascals ASTM E 547 @ 14.5 psf ASTM E 330 @ 4000 Pa ASTM E 330 @ 84 psf ASTM F 588 No Entry ASTM F 588 No Entry

RESULTS

RATING

0.45 m3/h/m A3 0.09 CFM/ft 2 PASS No leakage B7 No Leakage R-90 No Deformation C4 No Damage R-55 No Entry F2 No Entry Grade 10

* AAMA Results are extrapolated from Canadian Test Results. Energy Ratings The Thermal Performance Values, shown below, are based on 326 Series Horizontal Sliding Windows with the inner sashes glazed with Low-E glass and 326 Series Fixed Windows glazed with insulating glass units comprising one lite of Low-E glass, an argon filled cavity and double sealed aluminum spacers. Higher performance may be achieved by using various glass coatings, inert gasses, and/or warm edge spacers. Ratings are computer simulated in accordance with CSA-A440.2. NFRC values are interpolated from CSA A440.2 Simulations.

Performance U-Value FRAME U-Value Window SHGC Energy Rating

Horizontal Slider CSA-A440.2 NFRC 1.76 W/m2/C 0.31 Btu/h/ft 2/F 2.05 W/m2/C 0.36 Btu/h/ft 2/F 0.54 0.54 -7 W/m2 N/A

Fixed CSA-A440 1.85 W/m2/C 1.89 W/m2/C 0.63 4 W/m2

NFRC 0.33 Btu/h/ft 2/F 0.33 Btu/h/ft 2/F 0.63 N/A

Note: The reader is cautioned that test results should be used for comparison purposes only. Results are size and installation dependent. In-Service performance can be significantly different from those shown.

 Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

21

400 SERIES COMMERCIAL STRIP WINDOWS

24

SPECIFICATIONS 400 SERIES COMMERCIAL STRIP WINDOWS

PRODUCT Shall be 400 Series Commercial Strip Window Assemblies as manufactured by INLINE FIBERGLASS Limited. Frames are 102mm (4.0”) deep and in compliance with [CSA-A440.1 and CSA-A440.2 Standards] [AAMA 101/I.S.2. Ratings HC-55.] MATERIALS All frame and sash profiles are made from pultruded fiberglass, having a nominal wall thickness of 2.3mm (0.090”) with minimum glass content of 60%. Non-structural accessory members are permitted to be in vinyl or aluminum and are identified as such. CONSTRUCTION Frame and sash corners are connected with molded reinforced polymer shearblocks and mechanically secured. Joints are factory sealed and neatly fitted together. The perimeter of open-back frames shall be filled with insulation. FINISH The exposed surfaces are coated with durable Isocyanate-free 2 part Polymer Enamel with a minimum dry film thickness of 1 mils with a medium gloss of 25-40. Finish shall not blister, crack or peel under normal atmospheric conditions. Standard colors are White, Ivory, Sandalwood, Commercial Brown and Forest Green. Custom colours and split frame painting is available. GLASS All windows are glazed with [22mm 7/8”)] or Aluminum 25mm (1") insulating glass units. Glass thickness shall be in accordance with applicable Building Codes, but not less than 3mm (1/8”). Inline recommends the use of double-sealed insulating glass units certified by IGMAC or SIGMA. The full range of glazing options are available including: colonial grilles, low conductivity spacers, inert gas fills, and glazings to reduce heat loss, solar heat gain and visible light transmission. GLAZING METHOD Laid-in glazing using polyethylene closed cell tape or shimmed butyl tape on the exterior and a PVC glass stop locked-in from the interior provides a secure and positive seal for the glass. INSTALLATION Shall be performed by experienced installers in accordance with manufacturer’s instructions and CSA-A440.4. Window shall be plumb and square after installation is complete and sealed to both interior and exterior walls with a high quality sealant around the perimeter of the frame. If perimeter cavity is to be foamed, additional anchorage may be required to prevent bowing. It shall be the responsibility of the installers to make all necessary final adjustments. MAINTENANCE Occasional cleaning of glass and frame components with non-abrasive detergent is recommended.

* Due to constant product improvements, Inline reserves the right to change information herein without notice.

_Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

25

400 SERIES Commercial Strip Windows TEST REPORT Laboratory Test Size CSA SIZE AAMA Size

TYPE

TEST Air Tightness

F I X E D

Fixed 2000mm x 2000mm 78.75” x 78.75”

Water Tightness Wind Load Resistance

Standard CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA

REQUIREMENTS Test Standard Test Criteria ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.57 psf ASTM E 547 @ 700 Pascals ASTM E 331 @ 14.62 psf ASTM E 330 @ 4000 Pa ASTM E 330 @ 83.5 psf

RESULTS 0.046 m3/h/m 0.008 CFM/ft 2 No Leakage No Leakage No Deformation No Damage

RATING FIXED PASS B7 HC-100 C4 HC-55

Energy Ratings The Thermal Performance Values, shown below, are based on products glazed with insulating glass units comprising one lite of Low-E glass, an argon filled cavity, and a double sealed aluminum spacer. Higher performance may be achieved by using various glass coatings, inert gasses, and/or warm edge spacers. Ratings are computer simulated in accordance with CSA-A440.2. NFRC values are interpolated from CSA A440.2 Simulations.

Performance U-Value FRAME U-Value Window SHGC Energy Rating

Strip Window CSA-A440.2 NFRC 3.39 W/m2/C 0.59 Btu/h/ft 2/F 2.20 W/m2/C 0.36 Btu/h/ft 2/F 0.62 0.63 N/A -3 W/m2

Note: The reader is cautioned that test results should be used for comparison purposes only. Results are size and installation dependent. In-Service performance can be significantly different from those shown.

 Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

26

600 SERIES SLIDING GLASS DOORS

28

SPECIFICATIONS 600 SERIES SLIDING GLASS DOORS PRODUCT Shall be 600 Series Fiberglass Sliding Door as manufactured by Inline Fiberglass Limited. Frames are 145mm (5-3/4”) deep and comprise an interior operating panel and an exterior fixed panel. Sliding Glass Doors shall be in compliance with [CAN/CGSB-82.1M-3, B4, C3 and CSA-A440.2 Standards], [AAMA 101/I.S.2, Rating-R40.] MATERIALS All frame and sash profiles are made from pultruded fiberglass having a nominal wall thickness of 2.3mm (0.090”). Non-structural accessory members are permitted to be vinyl or aluminum and identified as such. CONSTRUCTION Frame and panel corners are connected with metal or molded reinforced polymer components and mechanically secured. Joints are factory sealed and neatly fitted together. The perimeter of open-back frames shall be filled with insulation. HARDWARE The sliding panel and fly screen are equipped with two adjustable, double, tandem rollers by TRUTH fitted with nylon wheels for silent operation. Locking handle is an attractive, die-cast zinc assembly with double hook. Frame sill member shall include stainless steel track liners. Door travel limit bumpers shall be provided at head and sill of jambs, for fully open and closed positions as well as anti-lift blocking to provide resistance to forced entry. A sill mounted foot lock by TRUTH and/or a cylinder lock, is available as an option. FINISH All exposed surfaces are coated with a durable, Isocynate, 2 part Polymer enamel with a minimum dry film thickness of 1 mils with a medium gloss of 25-40. Finish shall not blister, crack or peel under normal atmospheric conditions. Standard colours are: White, and Commercial Brown. (Custom colours and split frame painting is available). WEATHER-STRIPPING Double line of silicone coated woven pile with integral fin at interior to provide air and vapor seal. GLASS Operating and Fixed Panels are glazed with standard 22mm (1-7/16”) for triple glazing, insulating glass units comprising safety glass components. Glass thickness shall be in accordance with applicable Building Codes, but not less than 3mm (1/8”). Inline recommends the use of double-sealed insulating glass units certified by IGMAC or SIGMA. The full range of glazing options available include: colonial grilles, low conductivity spacers, inert gas fills, and glazings to reduce heat loss, solar heat gain, and visible light transmission. GLAZING METHOD The fixed and operating sashes utilizes laid-in glazing using polyethylene closed cell tape on the exterior and a PVC glass stop lockedin from the interior provides a secure and positive seal for the glass. INSECT SCREENS A heavy-duty extruded frame with Fiberglass mesh provides Standard Duty performance. INSTALLATION Shall be performed by experienced installers in accordance with manufacturer’s instructions and CSA-A440.4. Window shall be plumb and square after installation is complete and sealed to both interior and exterior walls with a high sealant around the perimeter of the frame. If perimeter cavity is to be foamed, additional anchorage may be required to prevent bowing. It shall be the responsibility of the installers to make all necessary final adjustments to ensure normal and smooth operation. MAINTENANCE It is recommended that the glass and the frame components be cleaned occasionally with a non-abrasive detergent solution. An occasional coating with silicone spray of the internal weather-strips and areas indicated on the maintenance sheet will promote smoother operation. •

Due to constant product improvements, Inline reserves the right to change information herein without notice.

Copyright Inline Fiberglass Ltd. o Toronto, Canada 2000 29

600 SERIES Sliding Glass Door TEST REPORT Laboratory Test Size CGSB SIZE AAMA Size

TYPE

TEST Air Tightness

D O O R

Door 1816mm x 2026mm 71-1/2” x 79-3/4”

Water Tightness Wind Load Resistance Forced Entry

Standard CGSB-82.1 AAMA CGSB-82.1 AAMA CGSB-82.1 AAMA CGSB-82.1 AAMA

REQUIREMENTS Test Standard Test Criteria ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.57 psf ASTM E 547 @ 400 Pascals ASTM E 547 @ 8.25 psf ASTM E 330 @ 2500 Pa ASTM E 330 @ 60 psf ASTM F 588 No Entry ASTM F 588 No Entry

RESULTS

RATING

0.43 m3/h/m A3 0.05 CFM/ft 2 PASS No Leakage B4 No Leakage R-55 No Deformation C3 No Damage R-40 No Entry F2 No Entry Grade 20

*AAMA Results are extrapolated form Canadian Test Results. Energy Ratings The Thermal Performance Values, shown below, are based on products glazed with insulating glass units comprising one lite of Low-E glass, an argon filled cavity, and a double sealed aluminum spacer. Higher performance may be achieved by using various glass coatings, inert gasses, and/or warm edge spacers. Ratings are computer simulated in accordance with CSA-A440.2. NFRC values are interpolated from CSA A440.2 Simulations.

Performance U-Value FRAME U-Value Door SHGC Energy Rating

Sliding Door CSA-A440.2 NFRC 2.29 W/m2/C 0.41 Btu/h/ft 2/F 2.01 W/m2/C 0.32 Btu/h/ft 2/F 0.53 0.55 -6 W/m2 N/A

Note: The reader is cautioned that test results should be used for comparison purposes only. Results are size and installation dependent. In-Service performance can be significantly different from those shown.

 Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

30

600 SERIES CONVENTIONAL SLIDING PATIO DOOR Standard Sizes

Rough Opening

TYPE

STYLE*

Overall FRAME SIZE

(from Exterior)

Millimetres

Inches

60" x 80'

2-Panel

FO or OF

1511 x 2026

59-1/2 x 79-3/4

72" x 80" 96" x 80"

2-Panel 2-Panel

FO or OF FO or OF

1816 x 2026 2426 x 2026

71-1/2 x 79-3/4 95-1/2 x 79-3/4

90" x 80"

3-Panel

FFO or OFF

2267 x 2026

89-3/8 x 79-3/4

108" x 80"

3-Panel

FFO or OFF

2724 x 2026

107-3/8 x 79-3/4

144" x 80"

3-Panel

FFO or OFF

3639 x 2026

143-3/8 x 79-3/4

117" x 80"

4-Panel

FOOF

2959 x 2026

116-1/2 x 79-3/4

141" x 80" 189" x 80"

4-Panel 4-Panel

FOOF FOOF

3569 x 2026 4788 x 2026

140-1/2 x 79-3/4 188-1/2 x 79-3/4

*F = Fixed Panel O = Sliding Panel

Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

33

700 SERIES IN-SWINGING CASEMENT / HOPPER AND FIXED WINDOWS

34

SPECIFICATIONS 700 SERIES IN-SWINGING CASEMENT/ HOPPER/ FIXED WINDOW PRODUCT Shall be 700 Series [Fixed], [Open-In Casement and Hopper] Window Assemblies, as manufactured by INLINE FIBERGLASS Limited. Frames are 60mm (2-3/8”) and in compliance with [CSA-A440.1-A3, B7, C4 and CSA-A440.2 Standards], [AAMA 101/I.S.2, Rating HC-55 (Casement).] MATERIAL All frame and sash profiles are made from pultruded fiberglass, having a nominal wall thickness of 2.3mm (0.090”) with minimum glass content of 60%. Non-structural accessory members are permitted to be vinyl or aluminum and identified as such. CONSTRUCTION Frame and sash corners are connected with molded reinforced polymer components and mechanically secured. Joints are factory sealed and neatly fitted together. The perimeter of open-back frames shall be filled with insulation. FINISH All exposed surfaces are coated with a durable, Isocyanate-free, 2 part Polymer enamel with a minimum dry film thickness of 1 mils with a medium gloss of 25-40. Finish shall not blister, crack or peel under normal atmospheric conditions. Standard colours are: White, Ivory, Sandalwood, Commercial Brown, and Forest Green. (Custom colours and split frame painting is available). HARDWARE Concealed Stainless Steel Hinges and metal-cam-locks with keepers by “ TRUTH HARDWARE “. Hardware is installed through fiberglass substrate and into patented reinforcements. For windows greater than 1220mm (48”) in height, a compression interlock provides a positive seal. WEATHER-STRIPPING Santoprene Bulb-type air-seal gasket on interior with extruded flexible leaf-type Santoprene “rain screen” gasket on the exterior to provide weather barrier. GLASS All windows are glazed with 22mm (7/8”) insulating glass units. Glass thickness shall be in accordance with applicable Building Codes, but not less than 3mm (1/8”). Inline recommends the use of double-sealed insulating glass units certified by IGMAC or SIGMA. The full range of glazing options are available including: colonial grilles, low conductivity spacers, inert gas fills, and glazings to reduce heat loss, solar heat gain, and visible light transmission. GLAZING METHOD Laid-in glazing using polyethylene closed cell tape on the exterior and [Aluminum] [PVC] glass stop locked-in from the interior provides a secure and positive seal for the glass. INSECT SCREENS Heavy duty, full height, roll-formed, aluminum frame with friction fit corner keys. Screen mesh (Fiberglass or Aluminum) retained by vinyl spline. INSTALLATION Shall be performed by experienced installers in accordance with manufacturer’s instructions and CSA-A440.4. Window shall be plumb and square after installation is complete and sealed to both interior and exterior walls with a high quality sealant around the perimeter of the frame. If perimeter cavity is to be foamed, additional anchorage may be required to prevent bowing. It shall be the responsibility of the installers to make all necessary final adjustments to ensure normal and smooth operation. MAINTENANCE Occasional cleaning of glass and frame components with non-abrasive detergent is recommended. •

Due to constant product improvements, Inline reserves the right to change information herein without notice.

Copyright Inline Fiberglass Ltd. Of Toronto, Canada 2000

35

700 SERIES Casement/Hopper/Fixed Windows TEST REPORT Laboratory Test Size CSA SIZE AAMA Size

TYPE O P E R A T O R F I X E D

Casement* 700mm x 1600mm 27-1/2” x 63”

TEST Air Tightness Water Tightness Wind Load Resistance Resistance to Forced Entry Air Tightness Water Tightness Wind Load Resistance Resistance to Forced Entry

Standard CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA

Hopper* 1000mm x 1000mm 39-3/8” x 39-3/8”

Fixed 1525mm x 1525mm 60” x 60”

REQUIREMENTS Test Standard Test Criteria ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.56 psf ASTM E 547 @ 700 Pascals ASTM E 547 @ 14.5 psf ASTM E 330 @ 4000 Pa ASTM E 330 @ 84 psf ASTM F 588 No Entry ASTM F 588 No Entry ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.56 psf ASTM E 547 @ 700 Pascals ASTM E 331 @ 12 psf ASTM E 330 @ 4000 Pa ASTM E 330 @ 97.5 psf ASTM F 588 No Entry ASTM F 588 No Entry

RESULTS

RATING

0.17 m3/h/m A3 0.04 CFM/ft 2 PASS No leakage B7 No Leakage HC-90 No Deformation C4 No Damage HC-55 No Entry F2 No Entry Grade 10 0.01 m3/h/m FIXED 0.01 CFM/ft 2 PASS No Leakage B7 No Leakage C-100 No Deformation C4 No Damage C-65 No Entry F2 No Entry Grade 40

* AAMA Results are extrapolated from Canadian Test Results. Energy Ratings The Thermal Performance Values, shown below, are based on products glazed with insulating glass units comprising one lite of Low-E glass, an argon filled cavity, and a double sealed aluminum spacer. Higher performance may be achieved by using various glass coatings, inert gasses, and/or warm edge spacers. Ratings are computer simulated in accordance with CSA-A440.2. NFRC values are interpolated from CSA A440.2 Simulations.

Performance U-Value FRAME U-Value Window SHGC Energy Rating

Operator CSA-A440.2 NFRC 1.74 W/m2/C 0.31 Btu/h/ft 2/F 1.92 W/m2/C 0.33 Btu/h/ft 2/F 0.42 0.44 -12 W/m2 N/A

Fixed CSA-A440.2 1.66 W/m2/C 1.85 W/m2/C 0.57 1 W/m2

NFRC 0.29 Btu/h/ft 2/F 0.31 Btu/h/ft 2/F 0.59 N/A

Note: The reader is cautioned that test results should be used for comparison purposes only. Results are size and installation dependent. In-Service performance can be significantly different from those shown.  Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

36

800 SERIES HORIZONTAL SLIDING WINDOWS

SERIES

39

800

SPECIFICATIONS 800 SERIES SINGLE SASH HORIZONTAL SLIDING WINDOW PRODUCT Shall be 800 Series Fiberglass [Single-Sash, Horizontal Sliding], [Fixed Lite] window Assemblies, as manufactured by INLINE FIBERGLASS Limited. Frames are 82.5mm (3-1/4”) deep and in compliance with [CSA-440.1 A3, B7, C5 and CSA-A440.2 Standards], [AAMA 101/I.S.2 Rating R85.] MATERIAL All frame and sash profiles are made from pultruded fiberglass, having a nominal wall thickness of 2.3mm (0.090”) with minimum glass content of 60%. Non-structural accessory members may be vinyl or aluminum and identified as such. CONSTRUCTION Frame and sash corners are connected with molded reinforced polymer components and mechanically secured. Joints are factory sealed and neatly fitted together. Slider frame and sash is pressure equalized and drains to exteriors. FINISH All exposed surfaces are coated with durable, Isocynate-free, 2 part Polymer enamel with a minimum dry film thickness of 1 mils with a medium gloss of 25-40. Finish shall not blister, crack or peel under normal atmospheric conditions. Standard colours are: White, Ivory, Sandalwood, Commercial Brown, and Forest Green. (Custom colours and split frame painting is available.) HARDWARE Locks: One or two sets of die-cast cam locks with release latch and keepers, molded celcon riding blocks, extruded PVC bumpers and pull handles. Sash opening restrictors are optional extra. WEATHER-STRIPPING Rain screen includes Q-Lon on the sash exterior and pile weather-strip at the mullion. Air barrier at the interior includes fin seal and fin type dust plugs, which ensure weather tightness. GLASS All windows are glazed with 20mm (13/16”) insulating glass units. Glass thickness shall be in accordance with applicable Building Codes, but not less than 3mm (1/8”). Inline recommends the use of double-sealed insulating glass units certified by IGMAC or SIGMA. The full range of glazing options are available including: colonial grilles, low conductivity spacers, inert gas fills, and glazings to reduce heat loss, solar heat gain, and visible light transmission. GLAZING METHOD Laid-in glazing using polyethylene closed cell adhesive tape on the interior and a PVC glass stop locked-in from the exterior provides a secure and positive seal for the glass. Fiberglass stops are optional. INSECT SCREENS Roll-formed aluminum frame with friction fit corner keys. Screen mesh (Fiberglass or Aluminum) retained by vinyl spline. INSTALLATION Shall be performed by experienced installers in accordance with manufacturer’s instructions and CSA-A440.4. Window shall be plumb and square after installation is complete and sealed to both interior and exterior walls with a high quality sealant around the perimeter of the frame. If perimeter cavity is to be foamed, additional anchorage may be required to prevent bowing. It shall be the responsibility of the installers to make all necessary final adjustments to ensure normal and smooth operation. MAINTENANCE Occasional cleaning of glass and frame components with non-abrasive detergent is recommended. •

Due to constant product improvements, Inline reserves the right to change information herein without notice.

Copyright Inline Fiberglass Ltd. Of Toronto, Canada 2000

40

800 SERIES Single-Sash Horizontal Slider TEST REPORT Laboratory Test Size CSA SIZE AAMA Size

TYPE O P E R A T O R

Slider 1754mm x 1220mm 69” x 48”

TEST Air Tightness Water Tightness Wind Load Resistance Forced Entry

Standard CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA

REQUIREMENTS Test Standard Test Criteria ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.57 psf ASTM E 547 @ 700 Pascals ASTM E 547 @ 12 psf ASTM E 330 @ 5000 Pa ASTM E 330 @ 127.5 psf ASTM F 588 No Entry ASTM F 588 No Entry

RESULTS

RATING

0.4 m3/h/m A3 0.08 CFM/ft 2 PASS No Leakage B7 No Leakage R-90 No Deformation C5 No Damage R-85 No Entry F2 No Entry Grade 30

Energy Ratings The Thermal Performance Values, shown below, are based on products glazed with insulating glass units comprising one lite of Low-E glass, an argon filled cavity, and a double sealed aluminum spacer. Higher performance may be achieved by using various glass coatings, inert gasses, and/or warm edge spacers. Ratings are computer simulated in accordance with CSA-A440.2. NFRC values are interpolated from CSA A440.2 Simulations.

Performance U-Value FRAME U-Value Window SHGC Energy Rating

Operator CSA-A440.2 NFRC 2.81 W/m2/C 0.50 Btu/h/ft 2/F 2.16 W/m2/C 0.38 Btu/h/ft 2/F 0.54 0.53 -8 W/m2 N/A

Note: The reader is cautioned that test results should be used for comparison purposes only. Results are size and installation dependent. In-Service performance can be significantly different from those shown.

 Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

41

850 SERIES SINGLE HUNG / TILT WINDOWS

SERIES 850 44

SPECIFICATIONS 850 SERIES SINGLE HUNG VERTICLE SLIDING WINDOW PRODUCT Shall be 850 Series Fiberglass, Single Hung Window Assemblies, as manufactured by INLINE FIBERGLASS Limited. Frames are 82.5mm (3-1/4”) deep and in compliance with [CSA-A440.1 A3, B7, C4 and CSA-A440.2 Standards], [AAMA 101/I.S.2 Rating R65.] MATERIAL All frame and sash profiles are made from pultruded fiberglass, having a nominal wall thickness of 2.3mm (0.09.”) with minimum glass content of 60%. Non-structural accessory members may be vinyl or aluminum and identified as such. CONSTRUCTION Frame and sash corners are connected with molded reinforced polymer components and mechanically secured. Joints are factory sealed and neatly fitted together. FINISH All exposed surfaces are coated with a durable, Isocynate-free, 2 part Polymer enamel with a minimum dry film thickness of 1 mils with a medium gloss of 25-40. Finish shall not blister, crack or peel under normal atmospheric conditions. Standard colours are: White, Ivory, Sandalwood, Commercial Brown, and Forest Green. (Custom colours and split frame painting is available). HARDWARE Locks: One or two sets of die-cast cam locks with release latch and keepers. Two spiral sash balances for each sash (optional are stainless steel constant force balances), two pairs of tilt latch assemblies, two pairs of pivot bars, and integral lift pull or add-on lift handles. Sash opening restrictors are optional extra. Hardware is installed with fasteners into patented back-up reinforcing clips. WEATHER-STRIPPING Rain screen includes Q-Lon on exterior of sash and fin seal at transom. Air seal includes Q-Lon and closed cell plugs. The combination ensures weather tightness. GLASS All windows are glazed with 20mm (13/16”) insulating glass units. Glass thickness shall be in accordance with applicable Building Codes, but not less than 3mm (1/8”). Inline recommends the use of double-sealed insulating glass units certified by IGMAC or SIGMA. The full range of glazing options are available including: colonial grilles, low conductivity spacers, inert gas fills, and glazings to reduce heat loss, solar heat gain, and visible light transmission. GLAZING METHOD Laid-in glazing using polyethylene closed cell adhesive tape on the interior and a PVC glass stop locked-in from the exterior provides a secure and positive seal for the glass. Fiberglass glass stops are optional. INSECT SCREENS Half-height, roll-formed aluminum frame with friction fit corner keys. Screen mesh (Fiberglass or Aluminum) retained by vinyl spline. INSTALLATION Shall be performed by experienced installers in accordance with manufacturer’s instructions and CSA-A440.4. Window shall be plumb and square after installation is complete and sealed to both interior and exterior walls with a high quality sealant around the perimeter of the frame. If perimeter cavity is to be foamed, additional anchorage may be required to prevent bowing. It shall be the responsibility of the installers to make all necessary final adjustments to ensure normal and smooth operation. MAINTENANCE Occasional cleaning of glass and frame components with non-abrasive detergent is recommended. •

Due to constant product improvements, Inline reserves the right to change information herein without notice.

Copyright Inline Fiberglass Ltd. Of Toronto, Canada 2000

45

850 SERIES Single-Hung Vertical Slider TEST REPORT Laboratory Test Size CSA SIZE AAMA Size

TYPE O P E R A T O R

Slider 1118mm x 1600mm 44” x 63”

TEST Air Tightness Water Tightness Wind Load Resistance Forced Entry

Standard CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA

REQUIREMENTS Test Standard Test Criteria ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.57 psf ASTM E 547 @ 700 Pascals ASTM 547/331 @ 12 psf ASTM E 330 @ 4000 Pa ASTM E 330 @ 97.5 psf ASTM F 588 No Entry ASTM F 588 No Entry

RESULTS

RATING

0.40 m3/h/m A3/Fixed 0.10 CFM/ft 2 PASS No Leakage B7 No Leakage R-90 No Deformation C4 No Damage R-65 No Entry F2 No Entry Grade 40

Energy Ratings The Thermal Performance Values, shown below, are based on products glazed with insulating glass units comprising one lite of Low-E glass, an argon filled cavity, and a double sealed aluminum spacer. Higher performance may be achieved by using various glass coatings, inert gasses, and/or warm edge spacers. Ratings are computer simulated in accordance with CSA-A440.2. NFRC values are interpolated from CSA A440.2 Simulations.

Performance U-Value FRAME U-Value Window SHGC Energy Rating

Operator CSA-A440.2 NFRC 2.81 W/m2/C 0.51 Btu/h/ft 2/F 2.16 W/m2/C 0.39 Btu/h/ft 2/F 0.54 0.52 -10 W/m2 N/A

Note: The reader is cautioned that test results should be used for comparison purposes only. Results are size and installation dependent. In-Service performance can be significantly different from those shown.

 Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

46

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file://S:\arc pack\PAge 48.jpg

6/2/00

900 SERIES DOUBLE-HUNG WINDOWS

49

SPECIFICATIONS 900 SERIES DOUBLE HUNG / TILT WINDOW PRODUCT Shall be 900 Series Fiberglass, Double Hung/Tilt Window Assemblies, as manufactured by INLINE FIBERGLASS Limited. Frames are 82.5mm (3-1/4”) deep and in compliance with [CSA-A440.2 A3, B7, C5 and CSA-A440.2 Standards], [AAMA 101/I.S.2 Rating R55.] MATERIAL All frame and sash profiles are made from pultruded fiberglass, having a nominal wall thickness of 2.3mm (0.090”) with minimum glass content of 60%. Non-structural accessory members may be vinyl or aluminum and identified as such. CONSTRUCTION Frame and sash corners are connected with molded reinforced polymer components and mechanically secured. Joints are factory sealed and neatly fitted together. FINISH All exposed surfaces are coated with a durable, Isocynate-free, 2 part Polymer enamel with a minimum dry film thickness of 1 mils with a medium gloss of 25-40. Finish shall not blister, crack or peel under normal atmospheric conditions. Standard colours are: White, Ivory, Sandalwood, Commercial Brown, and Forest Green. (Custom colours and split frame painting is available.) HARDWARE Locks: two sets of die-cast cam locks with release latch and keepers. Spiral sash balances, stainless steel constant force balances, sash opening restrictors, and night latch are optional extras. Hardware is installed with fasteners into patented back-up reinforcing clips. WEATHER-STRIPPING Frame and sash each have Schlegel “Fin-Seal” weather-stripping on the exterior; “Q-Lon” air-seal gasket on the interior; and the meeting rail has a co-extruded PVC leaf-type weather-strip to provide a positive air and vapor seal. GLASS All windows are glazed with 20mm (13/16”) insulating glass units. Glass thickness shall be in accordance with applicable Building Codes, but not less than 3mm (1/8”). Inline recommends the use of double-sealed insulating glass units certified by IGMAC or SIGMA. The full range of glazing options are available including: colonial grilles, low conductivity spacers, inert gas fills, and glazings to reduce heat loss, solar heat gain, and visible light transmission. GLAZING METHOD Laid-in glazing using polyethylene closed cell tape on the interior and a PVC glass stop locked-in from the exterior provides a secure and positive seal for the glass. Fiberglass stops are optional. INSECT SCREENS Full-height, roll-formed aluminum frame with friction fit corner keys. Screen mesh (Fiberglass or Aluminum) retained by vinyl spline. INSTALLATION Shall be performed by experienced installers in accordance with manufacturer’s instructions and CSA-A440.4. Window shall be plumb and square after installation is complete and sealed to both interior and exterior walls with a high quality sealant around the perimeter of the frame. If perimeter cavity is to be foamed, additional anchorage may be required to prevent bowing. It shall be the responsibility of the installers to make all necessary final adjustments to ensure normal and smooth operation. MAINTENANCE Occasional cleaning of glass and frame components with non-abrasive detergent is recommended. •

Due to constant product improvements, Inline reserves the right to change information herein without notice.

Copyright Inline Fiberglass Ltd. Of Toronto, Canada 2000

50

900 SERIES Double-Hung Vertical Slider TEST REPORT Laboratory Test Size CSA SIZE AAMA Size

TYPE O P E R A T O R

Slider 1000mm x 1600mm 46-5/8” x 60”

TEST Air Tightness Water Tightness Wind Load Resistance Forced Entry

Standard CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA CSA-A440 AAMA

REQUIREMENTS Test Standard Test Criteria ASTM E 283 @ 75 Pascals ASTM E 283 @ 1.57 psf ASTM E 547 @ 700 Pascals ASTM 547/331 @ 12 psf ASTM E 330 @ 5000 Pa ASTM E 330 @ 82.5 psf ASTM F 588 No Entry ASTM F 588 No Entry

RESULTS

RATING

0.55 m3/h/m A3 0.08 CFM/ft 2 PASS No Leakage B7 No Leakage R-80 No Deformation C5 No Damage R-55 No Entry F2 No Entry Grade 30

Energy Ratings The Thermal Performance Values, shown below, are based on products glazed with insulating glass units comprising one lite of Low-E glass, an argon filled cavity, and a double sealed aluminum spacer. Higher performance may be achieved by using various glass coatings, inert gasses, and/or warm edge spacers. Ratings are computer simulated in accordance with CSA-A440.2. NFRC values are interpolated from CSA A440.2 Simulations.

Performance U-Value FRAME U-Value Window SHGC Energy Rating

Operator CSA-A440.2 NFRC 2.43 W/m2/C 0.43 Btu/h/ft 2/F 2.10 W/m2/C 0.37 Btu/h/ft 2/F 0.50 0.49 -11 W/m2 N/A

Note: The reader is cautioned that test results should be used for comparison purposes only. Results are size and installation dependent. In-Service performance can be significantly different from those shown.

 Copyright Inline Fiberglass Ltd. of Toronto, Canada 2000

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900 SERIES - DOUBLE HUNG WINDOW INSTALLATION INSTRUCTIONS 1. HANDLE CAREFULLY: Do not distort when handling 2. ANCHORS: (2) most common methods to secure window in the opening are "A" By using screws shown on sectional drawing below.

HEAD ANCHOR: Drill, tight fit clearance holes, for #8 or #10 round or pan head screw. IF inner track must be used, for screw, pull off cover before

or "B" By using

strap anchor Note that: Proper use of expansion foam at window perimeter improves installation performance.

MUNTIN ANCHOR: Drill, tight clearance hole for round head screw, just below the bottom and to the inside of the balance tube.

3. COMMON ANCHOR SPACING: Anchors should be located at (24") 600 mm (max.) and (6")

150 mm from corner and/or mullion centres.

ALWAYS SHIM each side of window at the centre to allow smooth operation of sash and good contact for weatherstrip.

LOWER JAMB ANCHOR: Pull out drop stop from exterior track and drill, tight clearance hole for round head screw as above. Caulk the screw head. IF inner track is to be used for screw. (Read item 4, 2nd paragraph).

SILL ANCHOR: Drill (3/8") 10 mm access hole in cover then tight fitting clearance hole for round head screw - in the frame. Caulk screw under the head, prior to installation.

4. ADDITIONAL ANCHORAGE - in the inner jamb track: When screw is used in the upper half of window - pull off track cover and use round head screw on the inside area of the balance tube. When screw is used in the bottom half of window use flat head screw. Drill counter-sunk holes (3/4) 19 mm from the inside of window - same as sill dimension. 5. FOR MAINTENANCE - Wash occasionally with non-abrasive detergent, both glass and frames. Annual spray of weather seals with silicone lubricant is also beneficial and revitalizing but not essential.

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3/4" 19 mm

ALWAYS keep weep holes clear of caulking or other obstructions.