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SECTION 08810
GLASS
NOTE ** This section is based on flat glass materials
produced by:
NOTE ** Libbey Owens Ford Co.
NOTE ** Building Products
NOTE ** P.O. Box 799
NOTE ** 811 Madison Ave.
NOTE ** Toledo, OH 43697-0799
NOTE ** Telephone: 419-247-4721
NOTE ** FAX: 419-247-4517
NOTE **
NOTE ** The LOF Sun Management Glass System provides
superior performance energy efficient glass
products.
NOTE **
NOTE ** SECTION 08810 - GLASS, Copyright 1996, The
Architect's Catalog, Inc.
PART 1 GENERAL
1.1 SECTION INCLUDES
A. Flat glass materials.
B. Insulating glass units.
C. Glazing accessories.
1.2 RELATED SECTIONS
NOTE ** Delete any sections below not relevant to this
project; add others as required.
A. Section 06200 - Finish Carpentry.
B. Section 07900 - Joint Sealers.
C. Section 08110 - Steel Doors and Frames.
D. Section 08211 - Flush Wood Doors.
E. Section 08410 - Metal-Framed Storefronts.
F. Section 08630 - Metal-Framed Skylights.
G. Section 08910 - Metal-Framed Curtain Wall.
H. Section 08960 - Sloped Glazing Assemblies.
I. Section 08970 - Structural Glass Curtain Walls.
J. Section 10616 - Demountable Gypsum Board Partitions.
1.3 REFERENCES
NOTE ** Delete references from the list below that are not
actually required by the text of the edited
section.
A. ANSI Z97.1 - American National Standard for Glazing
Materials Used in Buildings -- Safety Performance
Specifications and Methods of Test.
B. ASTM C 162 - Standard Terminology of Glass and Glass
Products.
C. ASTM C 864 - Standard Specification for Dense Elastomeric
Compression Seal Gaskets, Setting Blocks, and Spacers.
D. ASTM C 1036 - Standard Specification for Flat Glass.
E. ASTM C 1048 - Standard Specification for Heat-Treated
Flat Glass -- Kind HS, Kind FT Coated and Uncoated Glass.
F. ASTM C 1172 - Standard Specification for Laminated
Architectural Flat Glass.
G. ASTM C 1193 - Standard Guide for Use of Joint Sealants.
H. ASTM E 283 - Standard Test Method For Determining the
Rate of Air Leakage Through Exterior Windows, Curtain
Walls, and Doors Under Specified Pressure Differences
Across the Specimen.
I. ASTM E 330 - Standard Test Method for Structural
Performance of Exterior Windows, Curtain Walls, and Doors
by Uniform Static Air Pressure Difference.
J. ASTM E 773 - Standard Test Method for Seal Durability of
Sealed Insulating Glass Units.
K. ASTM E 774 - Standard Specification for Sealed Insulating
Glass Units.
L. ASTM E 1300 - Standard Practice for Determining the
Minimum Thickness and Type of Glass Required to Resist a
Specified Load.
M. GANA (GM) - FGMA Glazing Manual; Glass Association of
North America.
N. GANA (SM) - FGMA Sealant Manual; Glass Association of
North America.
O. GANA (LGDG) - Laminated Glass Design Guide; Glass
Association of North America.
1.4 DEFINITIONS
A. Sealed Insulating Glass Unit Surfaces:
Side 1 - Exterior surface of outer pane.
Side 2 - Interior surface of outer pane.
Side 3 - Interior surface of inner pane.
Side 4 - Exterior surface of inner pane.
1.5 SYSTEM DESCRIPTION
A. Design requirements:
NOTE ** Performance statements in the three paragraphs
below allow contractor to select glass thicknesses
based on load criteria; verify that local
authorities having jurisdiction permit this. If
so, delete one of the first two paragraphs and edit
the last paragraph for deflection requirements. If
these paragraphs are selected, delete glass
thickness statements in relevant paragraphs of PART
2 PRODUCTS and in SCHEDULES Article of PART 3
EXECUTION.
1. Size glass to withstand dead loads and positive and
negative live loads acting normal to plane of glass
in accordance with ________ code.
2. Size glass to withstand dead loads and positive and
negative live loads acting normal to plane of glass
to a design pressure of ____ pound per square foot in
accordance with ASTM E 1300.
3. Limit glass deflection to 3/4 inch or flexure limit
of glass with full recovery of glazing materials,
whichever is less.
1.6 SUBMITTALS
A. Submit under provisions of Section 01300.
B. Product Data: Flat glass materials manufacturer's
descriptive literature indicating conformance to
specified performance requirements for specified flat
glass materials.
C. Verification Samples:
1. Flat Glass Materials: Two 4 inch by 4 inch samples
of each glass type specified.
2. Sealed Insulating Glass Units: Two 12 inch by 12
inch samples representative of unit construction.
NOTE ** Delete following paragraph below if spandrel glass
units are not specified.
3. Opacifier for Spandrel Glass: Indicated match to
Architect's color selection.
D. Quality Assurance/Control Submittals:
NOTE ** Delete paragraph below if Design Requirements are
not specified.
1. Design Data: Glass size calculations, prepared in
accordance with specified method.
2. Certificates:
a. Contractor's certification that:
(1) Products of this section, as provided,
meet or exceed specified requirements.
(2) Fabricator of sealed insulating glass
units meets specified qualifications.
(3) Installer of products of this section
meets specified qualifications.
1.7 QUALITY ASSURANCE
A. Qualifications:
1. Manufacturer, Flat Glass Materials: Minimum five (5)
years documented experience producing glass products
specified this section.
2. Fabricator, Sealed Insulating Glass Units: Minimum
five (5) years documented experience producing sealed
insulating glass units specified this section.
3. Installer: Minimum five (5) years documented
experience installing products specified in this
section, and approved by fabricator.
1.8 PROJECT/SITE CONDITIONS
A. Environmental Requirements: Installation of glass
products at ambient air temperature below 50 degrees F
(10 degrees C) is prohibited.
B. Field Measurements: When construction schedule permits,
verify field measurements with drawing dimensions prior
to fabrication of glass products.
1.9 WARRANTY
NOTE ** Warranty described in paragraph below is offered by
most reputable sealed insulating glass unit
manufacturers.
A. Provide ten (10) year warranty to include replacement of
sealed glass units exhibiting seal failure, interpane
dusting or misting.
NOTE ** Delete paragraph below if no laminated glass.
B. Provide ten (10) year warranty to include replacement for
laminated glass exhibiting delamination.
1.10 MAINTENANCE
NOTE ** Edit paragraph below if other quantities required;
delete Article if extra materials not required.
A. Extra Materials: Supply two of each size and type of
insulating glass units.
PART 2 PRODUCTS
2.1 MANUFACTURERS
A. Acceptable Manufacturer, Flat Glass Materials: Sun
Management Glass System, supplied by Libbey Owens Ford
Co. Building Products; P.O. Box 799, 811 Madison Ave.,
Toledo, OH 43697-0799; Telephone 419-247-4721, FAX 419-
247-4517.
NOTE ** Delete one of the two paragraphs below; coordinate
with Division 01 requirements.
B. Substitutions: Not permitted.
C. Substitutions will be considered in accordance with
Section 1600 - Material and Equipment.
2.2 MATERIALS
NOTE ** Retain paragraphs below which specify flat glass
materials which are required for project; include
flat glass materials that will be components of
sealed insulating glass units.
A. Clear Uncoated Float Glass:
1. Acceptable Product: LOF Clear Float Glass.
2. Description: Annealed clear float glass meeting
requirements of ASTM C 1036, Type 1, Class 1, Quality
q3.
NOTE ** Clear Uncoated Float Glass:
NOTE ** A B C D E F G H I
J
NOTE ** 3/32 in. (2.5mm) 90% 08% 86% 08% 74% 1.03 1.12 0.87
1.01
NOTE ** 1/8 in. (3 mm) 90% 08% 84% 08% 71% 1.03 1.11 0.86
1.00
NOTE ** 5/32 in. (4 mm) 89% 08% 81% 07% 67% 1.03 1.10 0.84
0.98
NOTE ** 3/16 in. (5 mm) 89% 08% 80% 07% 65% 1.03 1.10 0.83
0.97
NOTE ** 1/4 in. (6 mm) 88% 08% 78% 07% 62% 1.03 1.09 0.82
0.95
NOTE ** 5/16 in. (8 mm) 87% 08% 73% 07% 57% 1.03 1.07 0.78
0.91
NOTE ** 3/8 in. (10 mm) 86% 08% 70% 07% 54% 1.02 1.06 0.76
0.88
NOTE ** 1/2 in. (12 mm) 84% 08% 64% 06% 48% 1.01 1.04 0.72
0.83
NOTE ** 5/8 in. (16 mm) 82% 08% 59% 06% 44% 1.00 1.02 0.68
0.79
NOTE ** 3/4 in. (19 mm) 81% 08% 55% 06% 40% 0.99 1.00 0.65
0.75
NOTE ** Insert glass thickness and performance values
required in paragraph below, using values in
schedule above, where:
NOTE **
NOTE ** A = Nominal Glass Thickness
NOTE ** B = Visible Light Transmittance
NOTE ** C = Visible Light Reflectance
NOTE ** D = Total Solar Energy Transmittance
NOTE ** E = Total Solar Energy Reflectance
NOTE ** F = UV Transmittance
NOTE ** G = Summer U-Value
NOTE ** H = Winter U-Value
NOTE ** I = Solar Heat Gain Coefficient
NOTE ** J = Shading Coefficient
NOTE **
NOTE ** If more than one glass thickness is required, or if
clear uncoated float glass is a component in a
sealed insulating glass unit, delete glass
thickness and performance requirements below and
specify in FABRICATION Article or SCHEDULES
Article.
3. Nominal Glass Thickness: ____ inch (__ mm).
4. Performance Characteristics:
a. Visible Light Transmittance: ____ percent.
b. Visible Light Reflectance: ____ percent.
c. Total Solar Energy Transmittance: ____ percent.
d. Total Solar Energy Reflectance: ____ percent.
e. UV Transmittance: ____ percent.
f. Summer U-Value: ____.
g. Winter U-Value: ____.
h. Solar Heat Gain Coefficient: ____.
i. Shading Coefficient: ____.
B. Tinted Uncoated Float Glass:
NOTE ** Insert glass color required in paragraph below; if
more than one glass color, or thickness, is
required, or if tinted uncoated float glass is a
component in a sealed insulating glass unit, delete
color and performance requirements below and
specify in SCHEDULES Article.
1. Acceptable Product: LOF ____ Tinted Float Glass.
2. Description: Annealed tinted float glass meeting
requirements of ASTM C 1036, Type 1, Class 2, Quality
q3.
NOTE ** Grey Tint Uncoated Float Glass:
NOTE ** A B C D E F G H I
J
NOTE ** 1/8 in. (3 mm) 62% 06% 64% 06% 43% 1.08 1.11 0.72
0.84
NOTE ** 3/16 in. (5 mm) 52% 05% 54% 05% 34% 1.09 1.10 0.65
0.76
NOTE ** 1/4 in. (6 mm) 46% 05% 49% 05% 29% 1.09 1.09 0.62
0.72
NOTE ** 5/16 in. (8 mm) 35% 05% 38% 05% 22% 1.09 1.07 0.54
0.63
NOTE ** 3/8 in. (10 mm) 29% 05% 33% 05% 18% 1.09 1.06 0.50
0.58
NOTE ** 1/2 in. (12 mm) 20% 05% 24% 05% 12% 1.08 1.04 0.43
0.50
NOTE ** Bronze Tint Uncoated Float Glass:
NOTE ** A B C D E F G H I
J
NOTE ** 1/8 in. (3 mm) 68% 06% 65% 06% 37% 1.08 1.11 0.73
0.85
NOTE ** 3/16 in. (5 mm) 60% 06% 55% 06% 28% 1.08 1.10 0.66
0.77
NOTE ** 1/4 in. (6 mm) 55% 06% 50% 05% 23% 1.09 1.09 0.62
0.73
NOTE ** 5/16 in. (8 mm) 44% 05% 40% 05% 16% 1.09 1.07 0.55
0.64
NOTE ** 3/8 in. (10 mm) 39% 05% 34% 05% 13% 1.09 1.06 0.51
0.59
NOTE ** 1/2 in. (12 mm) 29% 05% 25% 05% 08% 1.08 1.04 0.44
0.51
NOTE ** Blue-Green Tint Uncoated Float Glass:
NOTE ** A B C D E F G H I
J
NOTE ** 1/4 in. (6 mm) 75% 07% 49% 06% 32% 1.09 1.09 0.62
0.72
NOTE ** 5/16 in. (8 mm) 70% 07% 40% 05% 25% 1.09 1.07 0.55
0.64
NOTE ** 3/8 in. (10 mm) 66% 06% 36% 05% 21% 1.08 1.06 0.52
0.60
NOTE ** Evergreen High Performance Tint Uncoated Float
Glass:
NOTE ** A B C D E F G H I
J
NOTE ** 1/8 in. (3 mm) 76% 07% 49% 06% 26% 1.11 1.11 0.62
0.72
NOTE ** 3/16 in. (5 mm) 73% 07% 42% 05% 21% 1.11 1.10 0.57
0.66
NOTE ** 1/4 in. (6 mm) 66% 06% 34% 05% 14% 1.11 1.09 0.51
0.59
NOTE ** Insert glass thickness and performance values
required in paragraph below, using values in
schedules above, where:
NOTE ** A = Nominal Glass Thickness
NOTE ** B = Visible Light Transmittance
NOTE ** C = Visible Light Reflectance
NOTE ** D = Total Solar Energy Transmittance
NOTE ** E = Total Solar Energy Reflectance
NOTE ** F = UV Transmittance
NOTE ** G = Summer U-Value
NOTE ** H = Winter U-Value
NOTE ** I = Solar Heat Gain Coefficient
NOTE ** J = Shading Coefficient
3. Nominal Glass Thickness: ____ inch (__ mm).
4. Performance Characteristics:
a. Visible Light Transmittance: ____ percent.
b. Visible Light Reflectance: ____ percent.
c. Total Solar Energy Transmittance: ____ percent.
d. Total Solar Energy Reflectance: ____ percent.
e. UV Transmittance: ____ percent.
f. Summer U-Value: ____.
g. Winter U-Value: ____.
h. Solar Heat Gain Coefficient: ____.
i. Shading Coefficient: ____.
C. Silver Reflective Coated Float Glass:
1. Acceptable Product: Clear LOF ECLIPSE Silver
Reflective Glass.
2. Description: Annealed clear coated float glass
meeting requirements of ASTM C 1036, Type 1, Class 1,
Quality q3; with pyrolitic coating.
NOTE ** Clear ECLIPSE Silver Reflective Coated Float Glass,
1/4 inch thickness:
NOTE ** A B C D E F G H I
J
NOTE ** Surface 1: 39% 45% 49% 30% 11% 1.04 1.09 0.55
0.63
NOTE ** Surface 2: 39% 40% 49% 25% 11% 1.05 1.09 0.56
0.65
NOTE **
NOTE ** Insert glass performance values required in
paragraph below, using values in schedule above,
where:
NOTE **
NOTE ** A = Coated Surface Location
NOTE ** B = Visible Light Transmittance
NOTE ** C = Visible Light Reflectance
NOTE ** D = Total Solar Energy Transmittance
NOTE ** E = Total Solar Energy Reflectance
NOTE ** F = UV Transmittance
NOTE ** G = Summer U-Value
NOTE ** H = Winter U-Value
NOTE ** I = Solar Heat Gain Coefficient
NOTE ** J = Shading Coefficient
NOTE **
NOTE ** Insert location of coated surface when specifying
performance requirements.
NOTE **
NOTE ** If more than one coated surface location is
required, or if clear reflective coated float glass
is a component in a sealed insulating glass unit,
delete glass thickness and performance requirements
below and specify in SCHEDULES Article.
3. Nominal Glass Thickness: 1/4 inch (6 mm).
4. Performance Characteristics; coating on Surface __:
a. Visible Light Transmittance: ____ percent.
b. Visible Light Reflectance: ____ percent.
c. Total Solar Energy Transmittance: ____ percent.
d. Total Solar Energy Reflectance: ____ percent.
e. UV Transmittance: ____ percent.
f. Summer U-Value: ____.
g. Winter U-Value: ____.
h. Solar Heat Gain Coefficient: ____.
i. Shading Coefficient: ____.
D. Tinted Reflective Coated Float Glass:
NOTE ** Insert glass color required in paragraph below; if
more than one glass color is required, or if tinted
uncoated float glass is a component in a sealed
insulating glass unit, delete color below and
specify in SCHEDULES Article.
1. Acceptable Product: LOF ECLIPSE _____ Reflective
Glass.
2. Description: Annealed tinted coated float glass
meeting requirements of ASTM C 1036, Type 1, Class 2,
Quality q3; with pyrolitic coating.
3. Performance Characteristics; coating on Surface __:
a. Visible Light Transmittance: ____ percent.
b. Visible Light Reflectance: ____ percent.
c. Total Solar Energy Transmittance: ____ percent.
d. Total Solar Energy Reflectance: ____ percent.
e. UV Transmittance: ____ percent.
f. Summer U-Value: ____.
g. Winter U-Value: ____.
h. Solar Heat Gain Coefficient: ____.
i. Shading Coefficient: ____.
E. Low-Emissivity Coated Float Glass:
1. Acceptable Product: LOF Energy Advantage Low-E
Glass.
2. Description: Annealed clear coated float glass
meeting requirements of ASTM C 1036, Type 1, Class 1,
Quality q3; with pyrolitic coating.
NOTE ** Energy Advantage Low - E Coated Float Glass;
coating on Surface 2:
NOTE ** A B C D E F G H I
J
NOTE ** 3/32 in. (2.5mm) 83% 11% 70% 11% 61% 0.62 0.74 0.73
0.85
NOTE ** 1/8 in. (3 mm) 83% 11% 69% 11% 58% 0.62 0.74 0.72
0.84
NOTE ** 5/32 in. (4 mm) 82% 11% 67% 11% 55% 0.63 0.73 0.71
0.82
NOTE ** 3/16 in. (5 mm) 82% 11% 66% 10% 53% 0.63 0.73 0.69
0.81
NOTE ** 1/4 in. (6 mm) 81% 11% 64% 10% 51% 0.63 0.73 0.68
0.79
NOTE **
NOTE ** Insert glass performance values required in
paragraph below, using values in schedule above,
where:
NOTE **
NOTE ** A = Coated Surface Location
NOTE ** B = Visible Light Transmittance
NOTE ** C = Visible Light Reflectance
NOTE ** D = Total Solar Energy Transmittance
NOTE ** E = Total Solar Energy Reflectance
NOTE ** F = UV Transmittance
NOTE ** G = Summer U-Value
NOTE ** H = Winter U-Value
NOTE ** I = Solar Heat Gain Coefficient
NOTE ** J = Shading Coefficient
NOTE **
NOTE ** If more than one glass thickness is required, or if
low - e coated float glass is a component in a
sealed insulating glass unit, delete glass
thickness and performance requirements below and
specify in SCHEDULES Article.
3. Nominal Glass Thickness: ___ inch (__ mm).
4. Performance Characteristics; coating on Surface 2:
a. Visible Light Transmittance: ____ percent.
b. Visible Light Reflectance: ____ percent.
c. Total Solar Energy Transmittance: ____ percent.
d. Total Solar Energy Reflectance: ____ percent.
e. UV Transmittance: ____ percent.
f. Summer U-Value: ____.
g. Winter U-Value: ____.
h. Solar Heat Gain Coefficient: ____.
i. Shading Coefficient: ____.
F. Transparent Mirror:
1. Acceptable Product: LOF Mirropane E.P. Transparent
Mirror.
2. Description: ASTM C 1036, Type 1, Class 3, Quality
q3; with pyrolitic coating.
3. Nominal Glass Thickness: 1/4 inch (6 mm).
4. Performance Characteristics; coated surface to
subject side:
a. Visible Light Transmittance: 12 percent.
b. Visible Light Reflectance: 60 percent.
G. Heat-Retardant Glass:
1. Acceptable Product: LOF PYROSTOP Fire-Rated Safety
Transparent Wall Panel.
2. Description: Clear glass layers, meeting
requirements of ASTM C 1036, Type 1, Class 1, Quality
q3, interleaved with layers of transparent
intumescent material, laminated into monolithic heat-
retardant panel.
NOTE ** Edit paragraph below for fire rating required.
3. Fire Rating: Listed 2 hour fire rating in accordance
with Warnock Hersey International.
4. Safety Rating: Listed safety rating in accordance
with Warnock Hersey International.
5. Nominal Thickness: As required for specified fire
rating.
H. Setting Blocks: ASTM C 864, neoprene, 80 to 90 Shore A
durometer hardness; length 4 inches (100 mm), width of
glazing rabbet space less 1/16 inch (1.5 mm), height
required for glazing method, pane weight, and pane area.
I. Spacer Shims: ASTM C 864, neoprene, 50 to 60 Shore A
durometer hardness; length 3 inches (75 mm), one half
height of glazing stop, thickness required for
application , one face self-adhesive.
NOTE ** Delete one of the two paragraphs below.
J. Glazing Tape: Butyl compound tape with integral
resilient tube spacer, 10 to 15 Shore A durometer
hardness, black color, coiled on release paper; widths
required for specified installation.
K. Glazing Tape: Closed cell polyvinyl chloride foam,
maximum water absorption by volume 2 percent, designed
for 25 percent compression percent for air barrier and
vapor retarder seal, black color, coiled on release paper
over adhesive on two sides; widths required for specified
installation.
L. Glazing Splines: ASTM C 864, resilient polyvinyl
chloride, extruded shape to fit glazing channel retaining
slot; black color.
M. Glazing Gaskets: ASTM C 864, resilient polyvinyl
chloride, extruded shape to fit glazing channel retaining
slot; black color.
NOTE ** Delete paragraph below if no glazing in wood
frames.
N. Glazing Clips: Manufacturer's standard type.
O. Sealants: Specified in Section 07900.
NOTE ** Retain paragraph below if specifying spandrel glass
with enamel opacifier coating.
P. Silicone Polyester Enamel: Type recommended by flat
glass materials manufacturer; color selected by
Architect.
Q. Smoke Removal Unit Targets: Adhesive targets for
application to glass, identifying glass units designed
for removal for smoke control.
2.3 FABRICATION
NOTE ** It is recommended that a listing of fabricators,
having the capability of providing single-source
responsibility for all specified fabricated units,
be inserted in the paragraph below; delete if not
required.
A. Acceptable Fabricators:
1. __________________.
2. __________________.
3. __________________.
B. Heat-Strengthened Glass:
1. Cut float glass materials to indicated sizes and
provide cut-outs and holes, if indicated, before heat
strengthening.
2. Heat strengthen float glass materials in accordance
with ASTM C 1048, Kind HS.
C. Tempered Glass:
1. Cut float glass materials to indicated sizes and
provide cut-outs and holes, if indicated, before heat
strengthening.
2. Fully temper float glass materials in accordance with
ASTM C 1048, Kind FT.
D. Laminated Glass:
1. Cut float glass materials to indicated sizes and
provide cut-outs and holes, if indicated, before heat
strengthening.
NOTE ** Delete paragraph below if heat strengthening not
required.
2. Heat strengthen float glass materials in accordance
with ASTM C 1048, Kind HS.
3. Laminate plastic interlayer between glass panes in
accordance with ASTM C 1172.
4. Laminated glass to conform to GANA (LGDG) and
requirements of ANSI Z97.1.
E. Sealed Insulating Glass Units:
NOTE ** It is recommended that sealed insulating glass
units be specified as follows:
NOTE **
NOTE ** If more than one type unit is required for project,
retain first of the two following paragraphs and
insert information on each unit type in SCHEDULES
Article of Part 3, using performance requirements
data located in that Article.
NOTE **
NOTE ** If only one type unit is required for project,
retain second of the following two paragraphs and
insert all information, using performance
requirements data located in SCHEDULES Article.
1. Fabricate units in accordance with ASTM E 774, Class
CBA, with components and performance characteristics
specified in SCHEDULES Article of this section.
2. Fabricate units in accordance with ASTM E 774, Class
CBA:
3. Components:
a. Outer Pane:
NOTE ** Insert glass type, color, and thickness
requirements in paragraphs below; for glass type,
insert generic designation as stated in MATERIALS
Article above; delete second paragraph if
specifying clear glass.
(1) Glass Type: __________________.
(2) Glass Color: __________________.
(3) Glass Thickness: ____ inch (__ mm).
NOTE ** Retain one of the following two paragraphs if heat
strengthening is required; delete both if not
required.
(4) Heat Treating: Heat strengthened.
(5) Heat Treating: Fully tempered.
NOTE ** Delete sentence below if not specifying coated
glass.
(6) Coating: Surface __.
NOTE ** Retain one of the following two paragraphs, insert
air space width requirement in remaining paragraph.
b. Air Space: ___ inch wide, hermetically sealed,
dehydrated air space.
c. Air Space: ___ inch wide, hermetically sealed,
argon gas filled, dehydrated air space.
d. Inner Pane:
NOTE ** Insert glass type, color, and thickness
requirements in paragraphs below; for glass type,
insert generic designation as stated in MATERIALS
Article above; delete second paragraph if
specifying clear glass.
(1) Glass Type: __________________.
(2) Glass Color: __________________.
(3) Glass Thickness: ____ inch (__ mm).
NOTE ** Retain one of the following two paragraphs if heat
strengthening is required; delete both if not
required.
(4) Heat Treating: Heat strengthened.
(5) Heat Treating: Fully tempered.
NOTE ** Delete paragraph below if not specifying coated
glass.
(6) Coating: Surface __.
4. Performance Characteristics:
a. Visible Light Transmittance: ____ percent.
b. Visible Light Reflectance: ____ percent.
c. Total Solar Energy Transmittance: ____ percent.
d. Total Solar Energy Reflectance: ____ percent.
e. UV Transmittance: ____ percent.
f. Summer U-Value: ____.
g. Winter U-Value: ____.
h. Solar Heat Gain Coefficient: ____.
i. Shading Coefficient: ____.
NOTE ** Retain paragraph below.
5. Provide unit edge seals meeting requirements of ASTM
E 773, with aluminum spacers having mitered and
corners, and silicone sealant for glass-to-spacer
seals.
F. Monolithic Spandrel Glass Units:
NOTE ** Retain one of the following two paragraphs if heat
strengthening is required; delete both if not
required.
1. Heat strengthen float glass materials in accordance
with ASTM C 1048, Kind HS.
2. Temper float glass materials in accordance with ASTM
C 1048, Kind FT.
NOTE ** Retain one of the following two paragraphs.
3. Apply ceramic fused frit to indicated glass surface.
4. Apply silicone polyester enamel opacifier coating to
indicated glass surface.
G. Sealed Insulating Spandrel Glass Units:
NOTE ** Retain one of the following two paragraphs if heat
strengthening is required; delete both if not
required.
1. Heat strengthen float glass materials in accordance
with ASTM C 1048, Kind HS.
2. Temper float glass materials in accordance with ASTM
C 1048, Kind FT.
3. Fabricate units in accordance with specified
requirements for sealed insulating glass units.
NOTE ** Retain one of the following two paragraphs.
4. Apply ceramic fused frit to indicated glass surface.
5. Apply silicone polyester enamel opacifier coating to
indicated glass surface.
PART 3 EXECUTION
NOTE ** Delete Article below if listing of acceptable
installers not required.
3.1 ACCEPTABLE INSTALLERS
A. _________________________.
B. _________________________.
C. _________________________.
3.2 EXAMINATION
A. Verify that openings for glazing are correct size and
within tolerance.
B. Verify that glazing channels and recesses are clean and
free of obstructions, that weeps are clear, and that
channels and recesses are ready for glazing.
3.3 PREPARATION
A. Clean contact surfaces to receive sealant with solvent;
wipe dry.
B. Seal porous glazing channels and recesses with primer or
sealer compatible with substrate.
C. Prime surfaces to receive sealant in accordance with
sealant manufacturer's instructions.
3.4 INSTALLATION
NOTE ** Retain one of two paragraphs below if only one type
coated monolithic glass is specified; if units are
specified in SCHEDULES Article, delete both
paragraphs below.
A. Install coated monolithic glass with coated surface to
exterior (Surface 1).
B. Install coated monolithic glass with coated surface to
interior (Surface 2).
NOTE ** Delete two of the three paragraphs below.
C. Install sealants in accordance with Section 07900.
D. Install sealants in accordance with ASTM C 804 for
solvent release sealants.
E. Install sealants in accordance with sealant
manufacturers' instructions.
NOTE ** Several common glazing methods are specified in the
paragraphs below; coordinate with drawing details
and details of manufactured framing systems used in
project to determine correct glazing methods for
project conditions. Coordinate with SCHEDULES
Article.
F. Exterior Dry Method (Tape and Gasket Spline):
1. Apply glazing tape or spline to glass; butt-joint
tape edges; seal joints with butyl sealant.
2. Place setting blocks with edge blocks maximum 6
inches from glass edges and intermediate blocks at
1/4 points of glass panel length.
3. Set glass unit on setting blocks; apply pressure
against fixed stop for full contact.
4. Install removable stops without displacing glazing
tape or spline; apply pressure for full continuous
contact.
5. Trim sight-exposed tape flush with stop.
G. Exterior Wet/dry Method (Formed Tape and Sealant):
1. Apply glazing tape to glass; butt-joint tape edges;
seal joints with butyl sealant.
2. Apply glazing tape to permanent stops, 1/4 inch below
sight line; butt-joint tape edges; seal joints with
butyl sealant.
3. Apply heel bead of butyl sealant along intersection
of permanent stop with frame; ensure full perimeter
seal between glass and frame for continuity of air
and vapor seal.
4. Place setting blocks with edge blocks maximum 6
inches from glass edges and intermediate blocks at
1/4 points of glass panel length.
5. Set glass unit on setting blocks; apply pressure
against fixed stop for full contact.
6. Install removable stops without displacing glazing
tape; insert spacer strips between glazing and
applied stops; terminate spacer strips 1/4 inch below
sight line; apply pressure for full continuous
contact.
7. Fill gap between glazing and stop with sealant to
depth equal to bite of frame on glazing and to 3/8
inch below sight line.
8. Apply cap bead of sealant along void between stop and
glazing to uniform line flush with sight line; tool
sealant surface smooth.
H. Exterior Wet Method (Sealant and Sealant):
1. Place setting blocks at 1/4 points; install glazing
unit.
2. Install removable stops; center glass unit in space
by inserting spacer shims both sides at intervals of
24 inches; set spacer shims 1/4 inch below sight
line.
3. Fill gaps between glazing and stops with sealant to
depth equal to bite of frame on glazing and to 3/8
inch below sight line; ensure full contact with
glazing for continuity of air and vapor seal.
4. Apply sealant to uniform line flush with sight line.
Tool sealant surface smooth.
I. Exterior Butt Glazed Method (Sealant Only):
1. Brace glass in position for duration of glazing
process; mask edges of glass at adjoining glass edges
and between glass edges and framing members.
2. Secure small diameter non-adhering foamed rod on back
side of joint.
3. Apply sealant to open side of joint in continuous
operation; completely fill joint without displacing
foam rod; tool sealant surface smooth to concave
profile.
4. Allow sealant to cure, then remove foam backer rod.
5. Apply sealant to opposite side; tool sealant smooth
to concave profile.
6. Remove masking tape.
J. Interior Dry Method (Tape and Tape):
1. Apply glazing tape to permanent stops, allowing tape
edge to project 1/16 inch above stop; butt-joint tape
edges; seal joints with butyl sealant.
2. Place setting blocks with edge blocks maximum 6
inches from glass edges and intermediate blocks at
1/4 points of glass panel length.
3. Set glass unit on setting blocks; apply pressure
against fixed stop for full contact.
4. Apply glazing tape on free perimeter of glazing as
described above.
5. Install removable stops without displacing glazing
tape; apply pressure for full continuous contact.
6. Trim sight-exposed tape flush with stop.
K. Interior Wet/Dry Method (Tape and Sealant):
1. Apply glazing tape to glass; butt-joint tape edges;
seal joints with butyl sealant.
2. Place setting blocks with edge blocks maximum 6
inches from glass edges and intermediate blocks at
1/4 points of glass panel length.
3. Set glass unit on setting blocks; apply pressure
against fixed stop for full contact.
4. Install removable stops without displacing glazing
tape; insert spacer strips between glazing and
applied stops; terminate spacer strips 1/4 inch below
sight line; apply pressure for full continuous
contact.
5. Fill gap between glazing and stop with sealant to
depth equal to bite of frame on glazing and to
uniform line flush with sight line; tool sealant
surface smooth.
6. Trim sight-exposed tape flush with stop.
L. Interior Wet Method (Compound and Compound):
1. Place setting blocks at 1/4 points; install glazing
unit.
2. Install applied stops; center glass unit in space by
inserting spacer shims both sides at intervals of 24
inches; set spacer shims 1/4 inch below sight line.
3. Locate and secure glazing pane using glazers' clips.
4. Fill gaps between glazing and stops with glazing
compound to flush with sight line; tool surface to
straight line.
NOTE ** If preferred, glazing installation may be specified
in the section which specifies the system which
will receive glazing materials; this method is
especially useful for specifying glazing for
manufactured systems such as Metal Framed
Skylights, Aluminum Entrances and Storefronts,
Aluminum Curtain Wall System, Sloped Glazing
System, and Structural Sealant Glazing System
listed below. Delete sections below not relevant
to this project; add others as required.
M. Installation of glazing in wood borrowed-lite partitions
is specified in Section 06200.
N. Installation of glazing in steel doors and borrowed-lite
partitions is specified in Section 08110.
O. Installation of glazing in flush wood doors is specified
in Section 08211.
P. Installation of glazing in aluminum entrances and
storefronts is specified in Section 08410.
Q. Installation of glazing in metal-framed skylights is
specified in Section 08630.
R. Installation of glazing in aluminum curtain wall system
is specified in Section 08910.
S. Installation of glazing in sloped glazing assembly is
specified in Section 08960.
T. Installation of glazing in structural glass curtain walls
is specified in Section 08970.
U. Installation of glazing in demountable gypsum board
partitions is specified in Section 10616.
3.5 CLEANING
A. Remove glazing materials from finish surfaces.
B. Remove labels after glass installation is complete.
C. Clean glass surfaces and adjacent surfaces.
NOTE ** The following SCHEDULES Article may be used to
specify various types of glass units in the
project. Duplicate the relevant paragraphs in the
Article to specify each type of glass unit.
Coordinate and indicate Type designations on
drawings.
3.6 SCHEDULES
NOTE ** Refer to product information in PART 2 PRODUCTS for
available glass thicknesses and performance
characteristics of each specified monolithic glass
type.
A. Monolithic Glass:
NOTE ** Duplicate the following paragraph as required to
specify each type of monolithic glass unit.
1. Monolithic Glass Type __:
a. Glass Material:
NOTE ** Insert glass type, color, and thickness
requirements in paragraphs below; for glass type,
insert generic designation as stated in MATERIALS
Article of Part 2; delete second paragraph if
specifying clear glass.
(1) Glass Type: __________________.
(2) Glass Color: __________________.
(3) Glass Thickness: ____ inch (__ mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(4) Heat Treating: Heat strengthened.
(5) Heat Treating: Fully tempered.
NOTE ** Delete sentence below if not specifying coated
glass.
(6) Coating: Surface __.
b. Performance Characteristics:
(1) Visible Light Transmittance: ____
percent.
(2) Visible Light Reflectance: ____ percent.
(3) Total Solar Energy Transmittance: ____
percent.
(4) Total Solar Energy Reflectance: ____
percent.
(5) UV Transmittance: ____ percent.
(6) Summer U-Value: ____.
(7) Winter U-Value: ____.
(8) Solar Heat Gain Coefficient: ____.
(9) Shading Coefficient: ____.
2. Monolithic Glass Type __: Fire-retardant glass
panel, 1-1/2 hour fire rating.
B. Sealed Insulating Glass Units:
NOTE ** Below are listed standard performance Sealed
Insulating Glass Units constructed of equal
thickness outer and inner panes with 1/2 inch air
space:
NOTE ** Clear Uncoated Float Glass outer pane, Clear
Uncoated Float Glass inner pane:
NOTE ** A B C D E F G H I
J
NOTE ** 3/32 in. (2.5mm) 82% 15% 74% 14% 60% 0.55 0.49 0.78
0.91
NOTE ** 1/8 in. (3 mm) 81% 15% 71% 13% 56% 0.55 0.49 0.76
0.89
NOTE ** 5/32 in. (4 mm) 80% 15% 67% 13% 52% 0.55 0.49 0.74
0.86
NOTE ** 3/16 in. (5 mm) 79% 15% 65% 12% 49% 0.55 0.49 0.72
0.84
NOTE ** 1/4 in. (6 mm) 78% 15% 61% 12% 46% 0.55 0.48 0.70
0.81
NOTE ** Grey Tint Uncoated Float Glass outer pane, Clear
Uncoated Float Glass inner pane:
NOTE ** A B C D E F G H I
J
NOTE ** 1/8 in. (3 mm) 56% 09% 54% 09% 36% 0.56 0.49 0.62
0.72
NOTE ** 3/16 in. (5 mm) 46% 08% 44% 08% 27% 0.57 0.49 0.54
0.62
NOTE ** 1/4 in. (6 mm) 41% 07% 38% 07% 23% 0.57 0.48 0.49
0.57
NOTE ** Bronze Tint Uncoated Float Glass outer pane, Clear
Uncoated Float Glass inner pane:
NOTE ** A B C D E F G H I
J
NOTE ** 1/8 in. (3 mm) 62% 10% 55% 09% 31% 0.56 0.49 0.62
0.73
NOTE ** 3/16 in. (5 mm) 53% 09% 45% 08% 23% 0.57 0.49 0.55
0.64
NOTE ** 1/4 in. (6 mm) 48% 08% 40% 07% 19% 0.57 0.48 0.50
0.59
NOTE ** Blue-Green Tint Uncoated Float Glass outer pane,
Clear Uncoated Float Glass inner pane:
NOTE ** A B C D E F G H I
J
NOTE ** 1/4 in. (6 mm) 67% 12% 40% 08% 26% 0.57 0.48 0.50
0.58
NOTE **
NOTE ** Evergreen High Performance Tint Uncoated Float
Glass outer pane, Clear Uncoated Float Glass inner
pane:
NOTE ** A B C D E F G H I
J
NOTE ** 1/8 in. (3 mm) 69% 12% 42% 08% 23% 0.57 0.49 0.51
0.59
NOTE ** 3/16 in. (5 mm) 65% 11% 36% 07% 17% 0.57 0.49 0.45
0.53
NOTE ** 1/4 in. (6 mm) 59% 10% 28% 06% 12% 0.57 0.48 0.39
0.45
NOTE ** Edit paragraph below for glass types, thicknesses,
and heat treating requirements; insert performance
values required using values in schedule above,
where:
NOTE ** A = Nominal Glass Thickness
NOTE ** B = Visible Light Transmittance
NOTE ** C = Visible Light Reflectance
NOTE ** D = Total Solar Energy Transmittance
NOTE ** E = Total Solar Energy Reflectance
NOTE ** F = UV Transmittance
NOTE ** G = Summer U-Value
NOTE ** H = Winter U-Value
NOTE ** I = Solar Heat Gain Coefficient
NOTE ** J = Shading Coefficient
1. Sealed Insulating Glass Unit Type __:
a. Outer Pane:
NOTE ** Insert glass type, color, and thickness
requirements in paragraphs below; for glass type,
insert generic designation as stated in MATERIALS
Article above; delete second paragraph if
specifying clear glass.
(1) Glass Type: __________________.
(2) Glass Color: __________________.
(3) Glass Thickness: ____ inch (__ mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(4) Heat Treating: Heat strengthened.
(5) Heat Treating: Fully tempered.
b. Air Space: 1/2 inch wide, hermetically sealed,
dehydrated air space.
c. Inner Pane:
(1) Glass Type: Clear uncoated float glass.
NOTE ** Insert glass thickness requirement in paragraph
below.
(2) Glass Thickness: ____ inch (__ mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(3) Heat Treating: Heat strengthened.
(4) Heat Treating: Fully tempered.
d. Performance Characteristics:
(1) Visible Light Transmittance: ____
percent.
(2) Visible Light Reflectance: ____ percent.
(3) Total Solar Energy Transmittance: ____
percent.
(4) Total Solar Energy Reflectance: ____
percent.
(5) UV Transmittance: ____ percent.
(6) Summer U-Value: ____.
(7) Winter U-Value: ____.
(8) Solar Heat Gain Coefficient: ____.
(9) Shading Coefficient: ____.
NOTE ** Below are listed improved performance Sealed
Insulating Glass Units constructed of 1/4 inch
thickness reflective coated float glass outer pane,
with coating on Surface 2, and equal thickness
clear uncoated float glass inner pane with 1/2 inch
air space:
NOTE ** Clear ECLIPSE Silver Reflective Coated Float Glass
outer pane:
NOTE ** A B C D E F G H I
J
NOTE ** Surface 1: 36% 46% 38% 32% 08% 0.55 0.48 0.46
0.54
NOTE ** Surface 2: 36% 42% 38% 27% 08% 0.56 0.48 0.47
0.55
NOTE ** ECLIPSE Blue-Green Tinted Reflective Coated Float
Glass outer pane:
NOTE ** A B C D E F G H I
J
NOTE ** Surface 1: 30% 46% 23% 30% 05% 0.56 0.48 0.31
0.36
NOTE ** Surface 2: 30% 33% 23% 17% 05% 0.57 0.48 0.33
0.39
NOTE ** ECLIPSE Grey Tinted Reflective Coated Float Glass
outer pane:
NOTE ** A B C D E F G H I
J
NOTE ** Surface 1: 17% 46% 24% 31% 04% 0.56 0.48 0.33
0.38
NOTE ** Surface 2: 18% 14% 24% 13% 04% 0.58 0.48 0.36
0.42
NOTE ** ECLIPSE Bronze Tinted Reflective Coated Float Glass
outer pane:
NOTE ** A B C D E F G H I
J
NOTE ** Surface 1: 21% 46% 24% 32% 03% 0.56 0.48 0.32
0.38
NOTE ** Surface 2: 21% 19% 24% 14% 03% 0.57 0.48 0.35
0.41
NOTE ** ECLIPSE Gold Reflective Coated Float Glass outer
pane:
NOTE ** A B C D E F G H I
J
NOTE ** Surface 2: 29% 43% 26% 32% 02% 0.56 0.48 0.35
0.40
NOTE ** Insert generic glass types, as stated in MATERIALS
Article of Part 2, and heat treating requirements
in the following paragraph; insert performance
values required using values in schedule above,
where:
NOTE ** A = Coated Surface Location
NOTE ** B = Visible Light Transmittance
NOTE ** C = Visible Light Reflectance
NOTE ** D = Total Solar Energy Transmittance
NOTE ** E = Total Solar Energy Reflectance
NOTE ** F = UV Transmittance
NOTE ** G = Summer U-Value
NOTE ** H = Winter U-Value
NOTE ** I = Solar Heat Gain Coefficient
NOTE ** J = Shading Coefficient
2. Sealed Insulating Glass Unit Type __:
a. Outer Pane:
NOTE ** Insert glass type, color, and thickness
requirements in paragraphs below; for glass type,
insert generic designation as stated in MATERIALS
Article above; delete second paragraph if
specifying clear glass.
(1) Glass Type: __________________.
(2) Glass Color: __________________.
(3) Glass Thickness: 1/4 inch (6 mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(4) Heat Treating: Heat strengthened.
(5) Heat Treating: Fully tempered.
(6) Coating: Surface 2.
b. Air Space: ___ inch wide, hermetically sealed,
dehydrated air space.
c. Inner Pane:
NOTE ** Insert glass type, color, and thickness
requirements in paragraphs below; for glass type,
insert generic designation as stated in MATERIALS
Article above; delete second paragraph if
specifying clear glass.
(1) Glass Type: Clear Uncoated Float Glass.
(2) Glass Thickness: 1/4 inch (6 mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(3) Heat Treating: Heat strengthened.
(4) Heat Treating: Fully tempered.
d. Performance Characteristics:
(1) Visible Light Transmittance: ____
percent.
(2) Visible Light Reflectance: ____ percent.
(3) Total Solar Energy Transmittance: ____
percent.
(4) Total Solar Energy Reflectance: ____
percent.
(5) UV Transmittance: ____ percent.
(6) Summer U-Value: ____.
(7) Winter U-Value: ____.
(8) Solar Heat Gain Coefficient: ____.
(9) Shading Coefficient: ____.
NOTE ** Below are listed improved performance Sealed
Insulating Glass Units constructed of equal
thickness outer and inner panes with 1/2 inch air
space, with uncoated float glass outer pane and
clear low - e coated float glass inner pane,
coating on surface 3:
NOTE ** Clear Uncoated Float Glass outer pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** 3/32 in. (2.5mm) 76% 18% 61% 18% 49% 0.36 0.30 0.34
0.29 0.72 0.84
NOTE ** 1/8 in. (3 mm) 75% 18% 59% 17% 46% 0.36 0.30 0.33
0.28 0.71 0.82
NOTE ** 5/32 in. (4 mm) 74% 18% 56% 16% 43% 0.36 0.30 0.33
0.28 0.69 0.80
NOTE ** 3/16 in. (5 mm) 73% 17% 53% 16% 40% 0.36 0.30 0.33
0.28 0.67 0.78
NOTE ** 1/4 in. (6 mm) 72% 17% 51% 15% 38% 0.36 0.30 0.33
0.28 0.65 0.76
NOTE ** Grey Tint Uncoated Float Glass outer pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** 1/8 in. (3 mm) 52% 11% 44% 12% 30% 0.36 0.31 0.33
0.28 0.56 0.65
NOTE ** 3/16 in. (5 mm) 43% 09% 35% 10% 23% 0.36 0.31 0.33
0.28 0.48 0.56
NOTE ** 1/4 in. (6 mm) 38% 08% 31% 09% 19% 0.37 0.31 0.33
0.28 0.44 0.51
NOTE ** Bronze Tint Uncoated Float Glass outer pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** 1/8 in. (3 mm) 57% 12% 45% 12% 26% 0.36 0.31 0.33
0.28 0.57 0.65
NOTE ** 3/16 in. (5 mm) 49% 10% 37% 10% 19% 0.36 0.31 0.33
0.28 0.49 0.57
NOTE ** 1/4 in. (6 mm) 45% 09% 32% 09% 16% 0.36 0.31 0.33
0.28 0.45 0.52
NOTE ** Blue-Green Tint Uncoated Float Glass outer pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** 1/4 in. (6 mm) 62% 14% 34% 09% 21% 0.36 0.31 0.33
0.28 0.45 0.52
NOTE ** Evergreen High Performance Tint Uncoated Float
Glass outer pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** 1/8 in. (3 mm) 64% 14% 35% 10% 19% 0.36 0.31 0.33
0.28 0.45 0.52
NOTE ** 3/16 in. (5 mm) 60% 13% 30% 09% 15% 0.36 0.31 0.33
0.28 0.40 0.46
NOTE ** 1/4 in. (6 mm) 54% 12% 24% 07% 10% 0.37 0.31 0.33
0.28 0.34 0.39
NOTE ** Edit paragraph below for glass types, thicknesses,
and heat treating requirements; insert performance
values required using values in schedule above,
where:
NOTE ** A = Nominal Glass Thickness
NOTE ** B = Visible Light Transmittance
NOTE ** C = Visible Light Reflectance
NOTE ** D = Total Solar Energy Transmittance
NOTE ** E = Total Solar Energy Reflectance
NOTE ** F = UV Transmittance
NOTE ** G = Summer U-Value, air in air space.
NOTE ** H = Summer U-Value, argon gas in air space.
NOTE ** I = Winter U-Value, air in air space.
NOTE ** J = Winter U-Value, argon gas in air space.
NOTE ** K = Solar Heat Gain Coefficient
NOTE ** L = Shading Coefficient
3. Sealed Insulating Glass Unit Type __:
a. Outer Pane:
NOTE ** Insert glass type, color, and thickness
requirements in paragraphs below; for glass type,
insert generic designation as stated in MATERIALS
Article above; delete second paragraph if
specifying clear glass.
(1) Glass Type: __________________.
(2) Glass Color: __________________.
(3) Glass Thickness: ____ inch (__ mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(4) Heat Treating: Heat strengthened.
(5) Heat Treating: Fully tempered.
NOTE ** Retain one of the following two paragraphs.
b. Air Space: 1/2 inch wide, hermetically sealed,
dehydrated air space.
c. Air Space: 1/2 inch wide, hermetically sealed,
argon gas filled, dehydrated air space.
d. Inner Pane:
(1) Glass Type: Clear low-emissivity coated
float glass.
NOTE ** Insert glass thickness requirement in paragraph
below.
(2) Glass Thickness: ____ inch (__ mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(3) Heat Treating: Heat strengthened.
(4) Heat Treating: Fully tempered.
(5) Coating: Surface 3.
e. Performance Characteristics:
(1) Visible Light Transmittance: ____
percent.
(2) Visible Light Reflectance: ____ percent.
(3) Total Solar Energy Transmittance: ____
percent.
(4) Total Solar Energy Reflectance: ____
percent.
(5) UV Transmittance: ____ percent.
(6) Summer U-Value: ____.
(7) Winter U-Value: ____.
(8) Solar Heat Gain Coefficient: ____.
(9) Shading Coefficient: ____.
NOTE ** Below are listed high performance Sealed Insulating
Glass Units constructed of 1/4 inch thickness
reflective float glass outer pane, 1/2 inch air
space, and 1/4 inch thickness clear low - e coated
float glass inner pane, coating on surface 3:
NOTE ** Clear ECLIPSE Silver Reflective Coated Float Glass
outer pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** Surface 1: 33% 47% 31% 34% 07% 0.36 0.30 0.33
0.28 0.43 0.49
NOTE ** Surface 2: 33% 42% 31% 29% 07% 0.36 0.30 0.33
0.28 0.43 0.50
NOTE ** ECLIPSE Blue-Green Tinted Reflective Coated Float
Glass outer pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** Surface 1: 28% 46% 18% 31% 04% 0.36 0.30 0.33
0.28 0.27 0.31
NOTE ** Surface 2: 28% 33% 18% 18% 04% 0.36 0.31 0.33
0.28 0.29 0.33
NOTE ** ECLIPSE Grey Tinted Reflective Coated Float Glass
outer pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** Surface 1: 16% 46% 19% 32% 03% 0.36 0.30 0.33
0.28 0.29 0.33
NOTE ** Surface 2: 17% 14% 19% 14% 03% 0.37 0.31 0.33
0.28 0.31 0.36
NOTE ** ECLIPSE Bronze Tinted Reflective Coated Float Glass
outer pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** Surface 1: 19% 47% 19% 33% 03% 0.36 0.30 0.33
0.28 0.28 0.33
NOTE ** Surface 2: 20% 19% 19% 15% 03% 0.37 0.31 0.33
0.28 0.31 0.35
NOTE ** ECLIPSE Gold Reflective Coated Float Glass outer
pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** Surface 2: 27% 44% 21% 33% 02% 0.36 0.30 0.33
0.28 0.31 0.36
NOTE ** Edit paragraph below for glass types and heat
treating requirements; insert performance values
required using values in schedule above, where:
NOTE ** A = Coated Surface Location, outer pane
NOTE ** B = Visible Light Transmittance
NOTE ** C = Visible Light Reflectance
NOTE ** D = Total Solar Energy Transmittance
NOTE ** E = Total Solar Energy Reflectance
NOTE ** F = UV Transmittance
NOTE ** G = Summer U-Value, air in air space.
NOTE ** H = Summer U-Value, argon gas in air space.
NOTE ** I = Winter U-Value, air in air space.
NOTE ** J = Winter U-Value, argon gas in air space.
NOTE ** K = Solar Heat Gain Coefficient
NOTE ** L = Shading Coefficient
4. Sealed Insulating Glass Unit Type __:
a. Outer Pane:
NOTE ** Insert glass type and color requirements in
paragraphs below; for glass type, insert generic
designation as stated in MATERIALS Article above;
delete second paragraph if specifying clear glass.
(1) Glass Type: __________________.
(2) Glass Color: __________________.
(3) Glass Thickness: 1/4 inch (6 mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(4) Heat Treating: Heat strengthened.
(5) Heat Treating: Fully tempered.
(6) Coating: Surface __.
NOTE ** Retain one of the following two paragraphs, insert
air space width requirement in remaining paragraph.
b. Air Space: ___ inch wide, hermetically sealed,
dehydrated air space.
c. Air Space: ___ inch wide, hermetically sealed,
argon gas filled, dehydrated air space.
d. Inner Pane:
(1) Glass Type: Clear low-emissivity coated
float glass.
NOTE ** Insert glass thickness requirement in paragraph
below.
(2) Glass Thickness: ____ inch (__ mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(3) Heat Treating: Heat strengthened.
(4) Heat Treating: Fully tempered.
(5) Coating: Surface 3.
e. Performance Characteristics:
(1) Visible Light Transmittance: ____
percent.
(2) Visible Light Reflectance: ____ percent.
(3) Total Solar Energy Transmittance: ____
percent.
(4) Total Solar Energy Reflectance: ____
percent.
(5) UV Transmittance: ____ percent.
(6) Summer U-Value: ____.
(7) Winter U-Value: ____.
(8) Solar Heat Gain Coefficient: ____.
(9) Shading Coefficient: ____.
NOTE ** Below are listed improved performance Sealed
Insulating Glass Units constructed of equal
thickness outer and inner panes with 1/2 inch air
space, with clear low - e coated float glass outer
pane, coating on surface 2, and clear uncoated
float glass inner pane:
NOTE ** A B C D E F G H I
J K L
NOTE ** 3/32 in. (2.5mm) 76% 17% 61% 16% 49% 0.35 0.30 0.34
0.29 0.66 0.77
NOTE ** 1/8 in. (3 mm) 75% 17% 59% 15% 46% 0.35 0.30 0.33
0.28 0.65 0.75
NOTE ** 5/32 in. (4 mm) 74% 17% 56% 14% 43% 0.35 0.30 0.33
0.28 0.63 0.73
NOTE ** 3/16 in. (5 mm) 73% 16% 53% 14% 40% 0.35 0.30 0.33
0.28 0.61 0.71
NOTE ** 1/4 in. (6 mm) 72% 16% 51% 14% 38% 0.35 0.30 0.33
0.28 0.60 0.70
NOTE ** Edit paragraph below for glass thicknesses and heat
treating requirements; insert performance values
required using values in schedule above, where:
NOTE ** A = Glass Thickness
NOTE ** B = Visible Light Transmittance
NOTE ** C = Visible Light Reflectance
NOTE ** D = Total Solar Energy Transmittance
NOTE ** E = Total Solar Energy Reflectance
NOTE ** F = UV Transmittance
NOTE ** G = Summer U-Value, air in air space.
NOTE ** H = Summer U-Value, argon gas in air space.
NOTE ** I = Winter U-Value, air in air space.
NOTE ** J = Winter U-Value, argon gas in air space.
NOTE ** K = Solar Heat Gain Coefficient
NOTE ** L = Shading Coefficient
5. Sealed Insulating Glass Unit Type __:
a. Outer Pane:
(1) Glass Type: Clear low-emissivity coated
float glass.
NOTE ** Insert glass thickness requirement in paragraph
below.
(2) Glass Thickness: ____ inch (__ mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(3) Heat Treating: Heat strengthened.
(4) Heat Treating: Fully tempered.
(5) Coating: Surface 2.
NOTE ** Retain one of the following two paragraphs.
b. Air Space: 1/2 inch wide, hermetically sealed,
dehydrated air space.
c. Air Space: 1/2 inch wide, hermetically sealed,
argon gas filled, dehydrated air space.
d. Inner Pane:
(1) Glass Type: Clear uncoated float glass.
NOTE ** Insert glass thickness requirement in paragraph
below.
(2) Glass Thickness: ____ inch (__ mm).
NOTE ** Retain one of the following two paragraphs if heat
treating is required; delete both if not required.
(3) Heat Treating: Heat strengthened.
(4) Heat Treating: Fully tempered.
e. Performance Characteristics:
(1) Visible Light Transmittance: ____
percent.
(2) Visible Light Reflectance: ____ percent.
(3) Total Solar Energy Transmittance: ____
percent.
(4) Total Solar Energy Reflectance: ____
percent.
(5) UV Transmittance: ____ percent.
(6) Summer U-Value: ____.
(7) Winter U-Value: ____.
(8) Solar Heat Gain Coefficient: ____.
(9) Shading Coefficient: ____.
NOTE ** The Schedule below is indicative of systems
specified in other sections which require glazing.
Coordinate with project requirements, INSTALLATION
Article in Part 3, and RELATED SECTIONS Article in
Part 1.
C. Installation Methods:
1. Interior Metal Borrowed-Lite Partitions: Interior
Dry Method.
2. Exterior Aluminum Framed Fixed Windows: Exterior
Wet/Dry Method.
END OF SECTION
