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Pyroguard Brochure
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Safety That Optimizes Performance & Keeps The Noise DownYOUR SHIELD OF PROTECTION FROM
FIRE AND DESTRUCTION
Here at our aim is to bring solutions to all of your
fire glazing requirements.
Our products can be used in many demanding applications including fire-rated partitions,
fire-rated screens, doors & floors. Available in single, double and triple glazed units as
required.
CGI International (CGII) is a leading manufacturer and supplier of specialist glasses to the
glazing markets. Our main products are available and supplied in stock sheets. This gives
you, our customers, the ability to cut and deliver fire glass to the market quickly and
efficiently. Alternatively finished cut sizes can be supplied by CGII. In addition to holding a
substantial share of the fire glass market in the UK, the company enjoys a significant
presence in many overseas markets. In 2007 more than two thirds of CGII’s sales were to
export markets.
The range of fire glasses offered by CGII is the widest available from any single
manufacturer in the world. The company’s aim is to provide fire glass users with a ‘one
stop shop’ for all of their requirements - from basic integrity-only wired glass, to a range of
clear products, including fully insulating fire glasses with performances of 30/30; 60/30;
60/60; upto 120/120.
CGII’s own product, Pyroguard Plus, is a leader in many markets.
CGII is a BSI registered company which has BS EN ISO 9001 accreditation.
CGII’s range of fire glass products are CE marked.
SEZAL FIREBAAN GLASS PVT. LTD.
ABOUT US
Here at our aim is to bring solutions to all of your
fire glazing requirements.
Our products can be used in many demanding applications including fire-rated partitions,
fire-rated screens, doors & floors. Available in single, double and triple glazed units as
required.
CGI International (CGII) is a leading manufacturer and supplier of specialist glasses to the
glazing markets. Our main products are available and supplied in stock sheets. This gives
you, our customers, the ability to cut and deliver fire glass to the market quickly and
efficiently. Alternatively finished cut sizes can be supplied by CGII. In addition to holding a
substantial share of the fire glass market in the UK, the company enjoys a significant
presence in many overseas markets. In 2007 more than two thirds of CGII’s sales were to
export markets.
The range of fire glasses offered by CGII is the widest available from any single
manufacturer in the world. The company’s aim is to provide fire glass users with a ‘one
stop shop’ for all of their requirements - from basic integrity-only wired glass, to a range of
clear products, including fully insulating fire glasses with performances of 30/30; 60/30;
60/60; upto 120/120.
CGII’s own product, Pyroguard Plus, is a leader in many markets.
CGII is a BSI registered company which has BS EN ISO 9001 accreditation.
CGII’s range of fire glass products are CE marked.
SEZAL FIREBAAN GLASS PVT. LTD.
ABOUT US
Stockable, Cuttable Range of Fire Resisting Glasses Developed for
Integrity & Radiant Heat Control
The Pyroguard fire resisting glass range is manufactured exclusively by CGII at its
purpose-built factory in Haydock, UK. The unique laminating process allows the
production of a variety of glass types, with differing fire performance and visual
appearances.
PYROGURD - E + EW
Performance
TypeThickness
(mm)Rating No. of Sheets
In End CapSheet Size
(mm)Area Per
Sheeet (m2)Area Per
2End Cap (m )Weight Per
End Cap (kg)
CLEAR 7 EW 30 20 2700 x 1580 4.27 85.40 1,420
CLEAR 7 20 2500 x 1580 3.95 79.00 1,320
CLEAR 7 30 2410 x 1290 3.11 93.30 1,560
CLEAR
CLEAR
11 13 2500 x 1580 3.95 51.35 1,339
13 - - - -Cut SizePY
RO
GU
AR
D
EW 30
EW 30
EW 30
EW 120
Stock Sheet Availability
Description
Pyroguard is a clear, multi–laminated fire resisting glass with a specially formulated resin
interlayer which provides integrity, radiant heat control and impact safety. The resin
interlayer is UV stable and therefore can be used internally as well as externally. Standard
products available are 7mm (30 minutes) and 11mm (60 minutes).
ŸStops flames and some heat from spreading
allowing safe passage and exit
ŸCertified up to 60 minutes integrity with
radiant heat control
ŸClassified EW30 and EW60 to EN 13501-2
ŸBeveled variant made to order
ŸImpact Safety to EN 12600 minimum class
3B3
ŸCan be used in timber, steel with single
glazing, double and triple glazed units
ŸDoes not require edge taping
Pyroguard Insulation
(Fireswiss Foam) - EI
Stockable, Cuttable Range of Fire Resisting Glasses for Integrity and
Insulation
TypeThickness
(mm)Rating
Impact Safety
Make UpNo. Of
Sheets In Pack
Sheet Size (mm)
Area Per Sheet
2(m )
Area Per End Cap (m
2)
Weight Per End Cap (kg)
FSF Internal 15EI 30/30EI 60/30
1B1 12 3100 x 2125 6.60 2,728
FSF External 19EI 30/30EI 60/30
1B1 9 3100 x 2125 6.60 2,970
FSF Internal 23 EI 60/60 1B1 8 3100 x 2125 6.60 2,660
FSF External 27 EI 60/60 1B1
4 Float X 3 Interlayer
5 Float X 3Interlayer + 1pvb
6 Float X 5 Interlayer
7 Float X 5 Interlayer + 1pvb
6 3100 x 2125 6.60
72.60
52.80
46.20
39.60 2,448
Stock Sheet Availability
Description
Pyroguard Insulation is a clear multi-laminated product which is made up of layers of
3mm float glass with an intumescent (silicate) interlayer. The product has excellent visual
clarity and stops flames, smoke and heat, allowing safe exit. A range of thicknesses are
available in standard stock sheet sizes to British and European Standards in various
glazing systems and applications. The product can be used internally and externally (with
pvb interlayer added).
Performance
ŸImpact safety to EN12600 Class 1B1
ŸExcellent visual clarity
ŸInternal and external applications
ŸMust be edge taped
ŸProvides a barrier to fire and heat
to allow safe passage and exit
ŸCertified up to 60 minutes integrity
and insulation
ŸClassified to EI 60 to EN 13501-2
Stockable, Cuttable Range of Fire Resisting Glasses Developed for
Integrity & Radiant Heat Control
The Pyroguard fire resisting glass range is manufactured exclusively by CGII at its
purpose-built factory in Haydock, UK. The unique laminating process allows the
production of a variety of glass types, with differing fire performance and visual
appearances.
PYROGURD - E + EW
Performance
TypeThickness
(mm)Rating No. of Sheets
In End CapSheet Size
(mm)Area Per
Sheeet (m2)Area Per
2End Cap (m )Weight Per
End Cap (kg)
CLEAR 7 EW 30 20 2700 x 1580 4.27 85.40 1,420
CLEAR 7 20 2500 x 1580 3.95 79.00 1,320
CLEAR 7 30 2410 x 1290 3.11 93.30 1,560
CLEAR
CLEAR
11 13 2500 x 1580 3.95 51.35 1,339
13 - - - -Cut SizePY
RO
GU
AR
D
EW 30
EW 30
EW 30
EW 120
Stock Sheet Availability
Description
Pyroguard is a clear, multi–laminated fire resisting glass with a specially formulated resin
interlayer which provides integrity, radiant heat control and impact safety. The resin
interlayer is UV stable and therefore can be used internally as well as externally. Standard
products available are 7mm (30 minutes) and 11mm (60 minutes).
ŸStops flames and some heat from spreading
allowing safe passage and exit
ŸCertified up to 60 minutes integrity with
radiant heat control
ŸClassified EW30 and EW60 to EN 13501-2
ŸBeveled variant made to order
ŸImpact Safety to EN 12600 minimum class
3B3
ŸCan be used in timber, steel with single
glazing, double and triple glazed units
ŸDoes not require edge taping
Pyroguard Insulation
(Fireswiss Foam) - EI
Stockable, Cuttable Range of Fire Resisting Glasses for Integrity and
Insulation
TypeThickness
(mm)Rating
Impact Safety
Make UpNo. Of
Sheets In Pack
Sheet Size (mm)
Area Per Sheet
2(m )
Area Per End Cap (m
2)
Weight Per End Cap (kg)
FSF Internal 15EI 30/30EI 60/30
1B1 12 3100 x 2125 6.60 2,728
FSF External 19EI 30/30EI 60/30
1B1 9 3100 x 2125 6.60 2,970
FSF Internal 23 EI 60/60 1B1 8 3100 x 2125 6.60 2,660
FSF External 27 EI 60/60 1B1
4 Float X 3 Interlayer
5 Float X 3Interlayer + 1pvb
6 Float X 5 Interlayer
7 Float X 5 Interlayer + 1pvb
6 3100 x 2125 6.60
72.60
52.80
46.20
39.60 2,448
Stock Sheet Availability
Description
Pyroguard Insulation is a clear multi-laminated product which is made up of layers of
3mm float glass with an intumescent (silicate) interlayer. The product has excellent visual
clarity and stops flames, smoke and heat, allowing safe exit. A range of thicknesses are
available in standard stock sheet sizes to British and European Standards in various
glazing systems and applications. The product can be used internally and externally (with
pvb interlayer added).
Performance
ŸImpact safety to EN12600 Class 1B1
ŸExcellent visual clarity
ŸInternal and external applications
ŸMust be edge taped
ŸProvides a barrier to fire and heat
to allow safe passage and exit
ŸCertified up to 60 minutes integrity
and insulation
ŸClassified to EI 60 to EN 13501-2
Potential Application Areas
Segments Application Areas
Partitions / Vision Panels / Smoke Curtains / Roof Glazing /
Fully Glazed Doors / Front Reception Automatic Doors
Application Areas : Server Rooms / Data Centers / Intellectual
Property Engine Labs / Reception Lobby for Visitors
IT / ITES Installations
Refuge / Exit Areas / Partitions
Application Areas : Fire & Smoke Barriers between retail outlets
(Internal & External Applications)
Shopping Malls / Premium
Retail Space
Fully Glazed Doors / Front Reception Automatic Doors / Partitions
Application Areas : Partitions between Restaurant & Lobby Areas
& other Internal & External Applications
Starred Hotels
Laminated glass construction with butacite
GlassButacitePVB interlayer
Glass
kW/m3
m
m/s
Selectivity / Performance Classification
E = Stability
INTEGRITY
Glazing products to contain smoke and flames
EW = Stability + Radiation Reduction
INTEGRITY & RADIATION REDUCTION
Products to reduce radiant heat transfer
EI = Stability + Temperature Insulation
INTEGRITY & TEMPERATURE INSULATION
Products providing a barrier to radiant and
conducted heat transfer (transparent wall panels)
Potential Application Areas
Segments Application Areas
Partitions / Vision Panels / Smoke Curtains / Roof Glazing /
Fully Glazed Doors / Front Reception Automatic Doors
Application Areas : Server Rooms / Data Centers / Intellectual
Property Engine Labs / Reception Lobby for Visitors
IT / ITES Installations
Refuge / Exit Areas / Partitions
Application Areas : Fire & Smoke Barriers between retail outlets
(Internal & External Applications)
Shopping Malls / Premium
Retail Space
Fully Glazed Doors / Front Reception Automatic Doors / Partitions
Application Areas : Partitions between Restaurant & Lobby Areas
& other Internal & External Applications
Starred Hotels
Laminated glass construction with butacite
GlassButacitePVB interlayer
Glass
kW/m3
m
m/s
Selectivity / Performance Classification
E = Stability
INTEGRITY
Glazing products to contain smoke and flames
EW = Stability + Radiation Reduction
INTEGRITY & RADIATION REDUCTION
Products to reduce radiant heat transfer
EI = Stability + Temperature Insulation
INTEGRITY & TEMPERATURE INSULATION
Products providing a barrier to radiant and
conducted heat transfer (transparent wall panels)
FIELD SALES REPRESENTATIVES
We're here to help with design assistance, budget costing, return on
investment costing, spec writing and review as well as act as a liaison
between architects and glazing contractors. We also work closely with the
glazing contractor to offer assistance with initial costs, final pricing
negotiations, product information and job site inspections. Just ask.
Sezliaise™
Contact ourSales Team for further information and warranties.
To fix a consultation or obtain additional literature contact:
Ritesh : 91-22-28665100
www.sezalglass.com
Color Rendering Index (CRI)
The ability of transmitted daylight through the glazing to portray a variety of colors
compared to those seen under daylight without the glazing. Scale is 1 - 100. For instance,
a low CRI causes colors to appear washed out, while a high CRI causes colors to appear
vibrant and natural. In commercial glass, CRI indicates the effect the specific glass
configuration has on the appearance of objects viewed through the glass. Heat gain is
heat added to a building interior by radiation, convection or conduction.
Heat Transfer Methods
Heat transfer occurs through convection, conduction or radiation (also referred to as
"emission"). Convection results from the movement of air due to temperature differences.
For instance, warm air moves in an upward direction and, conversely, cool air moves in a
downward direction. Conduction results when energy moves from one object to another.
Radiation, or emission, occurs when heat (energy) can move through space to an object
and then is transmitted, reflected or absorbed.
Light to Solar Gain
Ratio of the visible light transmittance to the Solar Heat Gain Coefficient. A higher LSG
ratio means sunlight entering the room is more efficient for daylighting, especially for
summer conditions where more light is desired with less solar gain. This ratio is the
measurement used to determine whether the glazing is "spectrally selective."
Low-E Coatings
Relatively neutral in appearance, low-E coatings reduce heat gain or loss by reflecting
longwave infrared energy (heat) and, therefore decrease the U-Value and improve energy
efficiency. Current sputter-coated low-E coatings are multilayered, complex designs
engineered to provide high visible light transmission, low visible light reflection and
reduce heat transfer.
Glossary
FIELD SALES REPRESENTATIVES
We're here to help with design assistance, budget costing, return on
investment costing, spec writing and review as well as act as a liaison
between architects and glazing contractors. We also work closely with the
glazing contractor to offer assistance with initial costs, final pricing
negotiations, product information and job site inspections. Just ask.
Sezliaise™
Contact ourSales Team for further information and warranties.
To fix a consultation or obtain additional literature contact:
Ritesh : 91-22-28665100
www.sezalglass.com
Color Rendering Index (CRI)
The ability of transmitted daylight through the glazing to portray a variety of colors
compared to those seen under daylight without the glazing. Scale is 1 - 100. For instance,
a low CRI causes colors to appear washed out, while a high CRI causes colors to appear
vibrant and natural. In commercial glass, CRI indicates the effect the specific glass
configuration has on the appearance of objects viewed through the glass. Heat gain is
heat added to a building interior by radiation, convection or conduction.
Heat Transfer Methods
Heat transfer occurs through convection, conduction or radiation (also referred to as
"emission"). Convection results from the movement of air due to temperature differences.
For instance, warm air moves in an upward direction and, conversely, cool air moves in a
downward direction. Conduction results when energy moves from one object to another.
Radiation, or emission, occurs when heat (energy) can move through space to an object
and then is transmitted, reflected or absorbed.
Light to Solar Gain
Ratio of the visible light transmittance to the Solar Heat Gain Coefficient. A higher LSG
ratio means sunlight entering the room is more efficient for daylighting, especially for
summer conditions where more light is desired with less solar gain. This ratio is the
measurement used to determine whether the glazing is "spectrally selective."
Low-E Coatings
Relatively neutral in appearance, low-E coatings reduce heat gain or loss by reflecting
longwave infrared energy (heat) and, therefore decrease the U-Value and improve energy
efficiency. Current sputter-coated low-E coatings are multilayered, complex designs
engineered to provide high visible light transmission, low visible light reflection and
reduce heat transfer.
Glossary
Relative Heat Gain (RHG)
The total heat gain through glass for a specific set of conditions. This value considers
indoor/outdoor air temperature differences and the effect of solar radiation.
R-Value
A measure of the resistance of the glazing to heat flow. It is determined by dividing the U-
Value into 1. A higher R-Value indicates better insulating properties of the glazing. R-Value
is not typically used as a measurement for glazing products and is referenced here to
help understand U-Value.
Shading Coefficient (SC)
An alternative measure of the heats gain through glass from solar radiation. Specifically,
the shading coefficient is the ratio between the solar heat gain for a particular type of
glass and that of double strength clear glass. A lower shading coefficient indicates lower
solar heat gain.
Solar Energy
Radiant energy from the sun having a wavelength range of 300 to 4000 nm, which
includes UV (300 to 380 nm), visible light (380 to780 nm) and near infrared energy (780 to
4000 nm).
% Reflectance Out - percentage of incident solar energy directly reflected from the glass
back outdoors.
% Absorptance - percentage of incident solar energy absorbed into the glass.
% Transmittance - percentage of incident solar energy directly transmitted through the
glass.
The sum of percent reflectance out + absorptance out + transmittance = 100%. An
additional consideration is emission, or emissivity. This refers to the reradiation of
absorbed energy that can be emitted toward both the exterior and interior of the building.
Emissivity is controlled through the use of low-emissivity, or low-E coatings.
Solar Heat Gain Coefficient (SHGC)
The percent of solar energy incident on the glass that is transferred indoors, both directly
and indirectly through the glass. The direct gain portion equals the solar energy
transmittance, while the indirect is the fraction of solar incident on the glass that is
absorbed and re-radiatedor convected indoors.
Solar/Reflective Coatings
Typically, highly reflective coatings that reduce solar heat gain through reflection and
absorption. Though very effective at reducing heat gain, visible light transmittance is
generally low and U-Values are not as energy efficient as low-E coatings.
Transmittance Percent
Percentage of incident ultraviolet energy that is directly transmitted through the glass.
Long-termexposure to UV light may result in fabric and pigment fading, plastic
deterioration and changes to the appearance of many types of wood.
UV
Ultraviolet radiant energy from the sun having a wavelength range of 300 to 380 nm with
airmass of 1.5.
U-Value (U-Factor)
A measure of the heat gain or loss through glass due to the difference between indoor &
outdoor air temperatures. It is also referred to as the overall coefficient of heat transfer. A
lower U-Value indicates better insulating properties. The units are Btu/(hr)(ft2)(°F).
Relative Heat Gain (RHG)
The total heat gain through glass for a specific set of conditions. This value considers
indoor/outdoor air temperature differences and the effect of solar radiation.
R-Value
A measure of the resistance of the glazing to heat flow. It is determined by dividing the U-
Value into 1. A higher R-Value indicates better insulating properties of the glazing. R-Value
is not typically used as a measurement for glazing products and is referenced here to
help understand U-Value.
Shading Coefficient (SC)
An alternative measure of the heats gain through glass from solar radiation. Specifically,
the shading coefficient is the ratio between the solar heat gain for a particular type of
glass and that of double strength clear glass. A lower shading coefficient indicates lower
solar heat gain.
Solar Energy
Radiant energy from the sun having a wavelength range of 300 to 4000 nm, which
includes UV (300 to 380 nm), visible light (380 to780 nm) and near infrared energy (780 to
4000 nm).
% Reflectance Out - percentage of incident solar energy directly reflected from the glass
back outdoors.
% Absorptance - percentage of incident solar energy absorbed into the glass.
% Transmittance - percentage of incident solar energy directly transmitted through the
glass.
The sum of percent reflectance out + absorptance out + transmittance = 100%. An
additional consideration is emission, or emissivity. This refers to the reradiation of
absorbed energy that can be emitted toward both the exterior and interior of the building.
Emissivity is controlled through the use of low-emissivity, or low-E coatings.
Solar Heat Gain Coefficient (SHGC)
The percent of solar energy incident on the glass that is transferred indoors, both directly
and indirectly through the glass. The direct gain portion equals the solar energy
transmittance, while the indirect is the fraction of solar incident on the glass that is
absorbed and re-radiatedor convected indoors.
Solar/Reflective Coatings
Typically, highly reflective coatings that reduce solar heat gain through reflection and
absorption. Though very effective at reducing heat gain, visible light transmittance is
generally low and U-Values are not as energy efficient as low-E coatings.
Transmittance Percent
Percentage of incident ultraviolet energy that is directly transmitted through the glass.
Long-termexposure to UV light may result in fabric and pigment fading, plastic
deterioration and changes to the appearance of many types of wood.
UV
Ultraviolet radiant energy from the sun having a wavelength range of 300 to 380 nm with
airmass of 1.5.
U-Value (U-Factor)
A measure of the heat gain or loss through glass due to the difference between indoor &
outdoor air temperatures. It is also referred to as the overall coefficient of heat transfer. A
lower U-Value indicates better insulating properties. The units are Btu/(hr)(ft2)(°F).
SKY
WIND
WATER
EARTH
FIRE
DIN EN ISO 9001:2008
Indian Green Building Council
Member IGBC
SEZAL GLASS LTD.
Tel: +91-22-2863 3383 / 84 / 85 / 86 | Fax:
Email: [email protected] | www.sezalglass.com
201/ 202, Abilasha, 2nd Floor, S.V. Road, Kandivali (W), Mumbai - 400 067, INDIA.
+91-22-2863 3389 / 90