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HomeMy WebLinkAboutBASF 2022ESR-3102ICC-ES Evaluation Reports are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are they to be construed
as an endorsement of the subject of the report or a recommendation for its use. There is no warranty by ICC Evaluation Service, LLC, express or implied, as
to any finding or other matter in this report, or as to any product covered by the report.
Copyright © 2021 ICC Evaluation Service, LLC. All rights reserved. Page 1 of 17
ICC-ES Evaluation Report ESR-3102
Reissued August 2021
This report is subject to renewal August 2022.
www.icc-es.org | (800) 423-6587 | (562) 699-0543 A Subsidiary of the International Code Council ®
DIVISION: 07 00 00—THERMAL AND MOISTURE
PROTECTION
Section: 07 21 00—Thermal Insulation
REPORT HOLDER:
BASF CORPORATION
EVALUATION SUBJECT:
ENERTITE® NM, ENERTITE® G AND ENERTITE® IB-418
OPEN-CELL SPRAY POLYURETHANE FOAM
INSULATIONS
1.0 EVALUATION SCOPE
1.1 Compliance with the following codes:
2015, 2012 and 2009 International Building Code® (IBC)
2015, 2012 and 2009 International Residential Code®
(IRC)
2015, 2012 and 2009 International Energy Conservation
Code® (IECC)
Other Codes (see Section 8.0)
Properties evaluated:
Surface-burning characteristics
Physical properties
Thermal resistance (R-values)
Attic and crawl space installation
Exterior walls of Types 1 through IV construction
Air permeability
1.2 Evaluation to the following green standard:
2008 ICC 700 National Green Building StandardTM (ICC
700-2008)
2.0 USES
2.1 ENERTITE® NM:
ENERTITE® NM is a spray-applied foam plastic insulation
used as a nonstructural thermal insulating material in
buildings of Type V construction under the IBC and
dwellings under the IRC. The insulation may also be used
on exterior walls of buildings of Types I, II, III and IV
construction when installed in accordance with Section 4.5
Under the IRC and 2015 IBC, the insulation may be used
as air-impermeable insulation when installed in accordance
with Section 3.4. The insulation is for use in wall cavities
and floor/ceiling assemblies, and in attic and crawl space
installations as described in Section 4.4.
2.2 ENERTITE® G:
ENERTITE® G is a spray-applied foam plastic insulation
used as a nonstructural thermal insulating material in
buildings of Type V construction under the IBC and
dwellings under the IRC. The insulation may also be used
on exterior walls of buildings of Types I, II, III and IV
construction when installed in accordance with Section 4.5
Under the IRC and 2015 IBC, the insulation may be used
as air-impermeable insulation when installed in accordance
with Section 3.4. The insulation is for use in wall cavities
and floor/ceiling assemblies, and in attic and crawl space
installations as described in Section 4.4.
2.3 ENERTITE® IB-418:
ENERTITE® IB-418 is a spray-applied foam plastic
insulation used as a nonstructural thermal insulating
material in buildings of Type V construction under the IBC
and dwellings under the IRC. The insulation may also be
used on exterior walls of buildings of Types I, II, III and IV
construction when installed in accordance with Section 4.5.
Under the IRC and 2015 IBC, the insulation may be used
as air-impermeable insulation when installed in accordance
with Section 3.4. The insulation is for use in wall cavities
and floor/ceiling assemblies, and in attic and crawl space
installations as described in Section 4.4. ENERTITE®
IB-418 is intended for use as thermal insulation and
covering for ENERTITE® NM in attics and crawl spaces
without the use of a prescriptive ignition barrier when
installed as described in Section 4.4.2.
The attributes of the insulation have been verified as
conforming to the provisions of ICC 700-2008 Section
703.2.1.1.1(c) as an air impermeable insulation. Note that
decisions on compliance for those areas rest with the user
of this report. The user is advised of the project-specific
provisions that may be contingent upon meeting specific
conditions, and the verification of those conditions is
outside the scope of this report. These codes or standards
often provide supplemental information as guidance.
3.0 DESCRIPTION
3.1 General:
ENERTITE® NM, ENERTITE® G and ENERTITE® IB-418
are two-component, low-density, open-cell, water-blown
polyurethane foam plastic insulation systems. The
installed nominal density of ENERTITE® NM is 0.67 pcf
(10.7 kg/m3). The installed nominal density of ENERTITE®
G is 0.6 pcf (9.6 kg/m3). The installed nominal density of
ENERTITE® IB-418 is 0.6 pcf (9.6 kg/m3). The two
components of the insulation are polymeric isocyanate
(A-component) and a resin (B-component) which when
stored in unopened containers at a temperature between
ESR-3102 | Most Widely Accepted and Trusted Page 2 of 17
50°F and 80°F (10°C and 26.7°C), have a shelf life of six
months, nine months and twelve months, respectively.
3.2 Surface-Burning Characteristics:
3.2.1 ENERTITE® NM: When tested in accordance with
ASTM E84 (UL 723), at a maximum thickness of
4.2 inches (107 mm) and a nominal density of 0.8 pcf,
ENERTITE® NM has a flame-spread index of 25 or less
and a smoke-developed index of 450 or less. There is no
thickness limitation on the insulation when installed behind
a code-prescribed 15-minute thermal barrier.
3.2.2 ENERTITE® G: When tested in accordance with
ASTM E84 (UL 723), at a maximum thickness of
4.2 inches (107 mm) and a nominal density of 0.6 pcf,
ENERTITE® G has a flame-spread index of 25 or less and
a smoke-developed index of 450 or less. There is no
thickness limitation on the insulation when installed behind
a code-prescribed 15-minute thermal barrier.
3.2.3 ENERTITE® IB-418: When tested in accordance
with ASTM E84 (UL 723), at a maximum thickness of
3.6 inches (91 mm) and a nominal density of 0.6 pcf
(15.7 kg/m3), ENERTITE® IB-418 has a flame-spread index
of 25 or less and a smoke-developed index of 450 or less.
There is no thickness limitation on the insulation when
installed behind a code-prescribed 15-minute thermal
barrier.
3.3 Thermal Resistance:
ENERTITE® NM, ENERTITE® G and ENERTITE® IB-418
have thermal resistance (R-values) at a mean temperature
of 75°F (24°C) as shown in Table 1.
3.4 Air Permeability:
3.4.1 ENERTITE® NM: ENERTITE® NM spray-applied
polyurethane foam insulation, at a minimum thickness of
3.5 inches (89 mm), is considered air-impermeable
insulation in accordance with 2015 and 2012 IRC Section
R806.5 (2009 IRC Section R806.4) and 2015 IBC Section
1203.3, based on testing in accordance with ASTM E283
and ASTM E2178.
3.4.2 ENERTITE® G: ENERTITE® G spray-applied
polyurethane foam insulation, at a minimum thickness of
3.5 inches (89 mm), is considered air-impermeable
insulation in accordance with 2015 and 2012 IRC Section
R806.5 (2009 IRC Section R806.4) and 2015 IBC Section
1203.3, based on testing in accordance with ASTM E283
and ASTM E2178.
3.4.3 ENERTITE® IB-418: ENERTITE® IB-418 is
considered air-impermeable insulation in accordance with
2015 and 2012 IRC Section R806.5 (2009 IRC Section
R806.4) and 2015 IBC Section 1203.3, at a thickness of
3.0 inches (76 mm) based on testing in accordance with
ASTM E283 and at 3.5 inches based on testing in
accordance with ASTM E2178.
3.5 Intumescent Coatings:
3.5.1 No-Burn® Plus XD: No Burn® Plus XD intumescent
coating is a latex-based coating manufactured by No-Burn,
Inc., and is supplied in 1-gallon (4 L) and 5-gallon (19 L)
pails and 55-gallon (208 L) drums. The coating material
has a shelf life of 36 months when stored in factory-sealed
containers at temperatures between 40°F (4.4°C) and 90°F
(32.2°C).
3.5.2 SPRAYCOAT™ 1920 Intumescent Coating:
SPRAYCOAT™ 1920 intumescent coating, supplied by
BASF Corporation, is a single-component, water-based,
liquid-applied, intumescent coating. The coating is supplied
in 5-gallon (18.8 L) pails and 55-gallon (208 L) drums and
has a shelf life of six months when stored in factory-sealed
containers at temperatures between 45°F (7.2°C) and 75°F
(23.9°C).
3.5.3 DC 315 Coating: DC 315 Coating (ESR-3702),
manufactured by International Fireproof Technology Inc. /
Paint to Protect Inc., is a single-component, water-based,
liquid-applied intumescent coating. The coating is supplied
in 5-gallon (19 L) pails and 55-gallon (208 L) drums and
has a shelf life of one year when stored in factory-sealed
containers at temperatures between 50°F (10°C) and 80°F
(27°C).
3.5.4 TPR2 CORPORATION FIRESHELL® (IB-4)
Coating: TPR2 FIRESHELL® (IB-4) intumescent coating is
a proprietary, water-based, one-part, nonflammable coating
manufactured by TPR2 Corporation. The coating is
supplied in 5-gallon (19 L) pails and 55-gallon (208 L)
drums and has a shelf life of 12 months when stored in
factory-sealed containers at temperatures between 45°F
(7.2°C) and 75°F (24°C).
3.5.5 TPR2 CORPORATION FIRESHELL® F10E: TPR2
CORPORATION FIRESHELL® F10E (ESR-3997)
intumescent coating is a proprietary, water-based, one-part,
nonflammable coating manufactured by TPR2 Corporation.
The coating is supplied in 5-gallon (19 L) pails and 55-
gallon (208 L) drums and has a shelf life of 12 months
when stored in factory-sealed containers at temperatures
between 45°F (7.2°C) and 95°F (35°C).
4.0 INSTALLATION
4.1 General:
ENERTITE® NM, ENERTITE® G and ENERTITE® IB-418
must be installed in accordance with the manufacturer’s
published installation instructions and this report. The
manufacturer’s installation instructions and this report must
be strictly adhered to, and a copy of the instructions and
this evaluation report must be available on the jobsite at all
times during installation.
4.2 Application:
The insulations must be applied using spray equipment
specified by BASF Corporation. The product must not be
used in areas which have a maximum service temperature
greater than that specified in the manufacturer’s published
installation instructions, nor in electrical outlet or junction
boxes or in contact with rain or water. The product must be
protected from the weather during and after application.
The insulations can be installed in multiple passes at 1/2 to
6 inches (12.7 mm to 152 mm) per pass to the maximum
thickness. Where multiple passes are required, the cure
time between passes is minimum 5 minutes for a 2-inch
(51 mm) pass.
4.3 Thermal Barrier:
4.3.1 Application with a Prescriptive Thermal Barrier:
ENERTITE® NM, ENERTITE® G and ENERTITE® IB-418
must be separated from the interior of the building by an
approved thermal barrier, such as 1/2-inch (12.7 mm)
gypsum wallboard installed using mechanical fasteners in
accordance with the applicable code, or an equivalent
15-minute thermal barrier complying with the applicable
code. There is no thickness limitation on the insulation
when installed behind a code-prescribed 15-minute
thermal barrier. When installation is within an attic or crawl
space, as described in Section 4.4, a thermal barrier is not
required between the foam plastic and the attic or crawl
space, but is required between the foam plastic and the
interior of the building.
ESR-3102 | Most Widely Accepted and Trusted Page 3 of 17
4.3.2 Application without a Prescriptive Thermal
Barrier: ENERTITE® NM or ENERTITE® G may be
installed without the 15-minute thermal barrier prescribed
in the IBC Section 2603.4 and IRC Section R316.4 when
the installation complies with one of the assemblies
described in Table 2.
4.4 Ignition Barrier – Attics and Crawl Spaces:
4.4.1 Application with a Prescriptive Ignition Barrier:
When ENERTITE® NM, ENERTITE® G and ENERTITE®
IB-418 insulations are installed within attics or crawl
spaces, where entry is made only for service of utilities, an
ignition barrier must be installed in accordance with IBC
Section 2603.4.1.6 or IRC Section R316.5.3 or R316.5.4,
as applicable. The ignition barrier must be consistent with
the requirements for the type of construction required by
the applicable code and must be installed in a manner so
that the foam plastic insulation is not exposed.
4.4.2 Application without a Prescriptive Ignition
Barrier: ENERTITE® NM, ENERTITE® G and ENERTITE®
IB-418 insulations may be installed in an attic or crawl
space without a prescriptive ignition barrier when all of the
following conditions apply:
a. Entry to the attic or crawl space is only for the service
of utilities and no storage is permitted.
b. There are no interconnected attic or crawl space
areas.
c. Air in the attic or crawl space is not circulated to other
parts of the building.
d. Combustion air is provided in accordance with IMC
(International Mechanical Code®) Section 701.
e. Attic ventilation is provided when required by IBC
Section 1203.2 or IRC Section R806, except
air-impermeable insulation is permitted in unvented
attics in accordance with 2015 and 2012 IRC Section
R806.5 (2009 IRC Section R806.4) or 2015 IBC
Section 1203.3. Under-floor (crawl-space) ventilation
is provided when required by 2015 IBC Section
1203.4 (2012 and 2009 IBC Section 1203.3) or IRC
Section R408.1, as applicable. Refer to Section 3.4
for minimum thicknesses for use as air impermeable
insulation.
The insulations may be spray-applied to the underside
of roof sheathing and/or rafters in attics, and the underside
of wood floors and/or floor joists in crawl spaces, as
described in this paragraph and in Table 3. The maximum
thickness of the foam plastic applied to the underside of
the roof sheathing and to vertical wall surfaces must not
exceed the thicknesses set forth in Table 3, based on the
insulation type and the intumescent coating type and
insulation thickness used. The intumescent coatings used
to cover the foam plastic insulation are described in
Section 3.5. The intumescent coating must be applied over
the insulation in accordance with the coating
manufacturer’s instructions and at the thickness as
described in Table 3. Surfaces to be coated must be dry,
clean, and free of dirt, loose debris and other substances
that could interfere with adhesion of the coating. The
coating is applied with low-pressure airless spray
equipment.
The coating must be applied with ambient and substrate
temperature is at least 50°F (10°C). The insulation, at a
minimum thickness of 31/2 inches (89 mm), may be
installed in unvented attics as described in this section in
accordance with 2015 or 2012 IRC Section R806.5
(2009 IRC Section R806.4) or 2015 IBC Section 1203.3.
Exception: ENERTITE® IB-418 insulation may be
installed in an attic or crawl space without a prescriptive
ignition barrier or coating at the maximum thicknesses set
forth in Table 3.
4.4.3 Use on Attic Floors:
4.4.3.1 ENERTITE® NM: When used on attic floors,
ENERTITE® NM insulation may be installed at a maximum
thickness of 16 inches (406 mm) between joists. The
ignition barrier in accordance with IBC Section 2603.4.1.6,
or IRC Section R316.5.3, may be omitted, when the
installation is in accordance with Section 4.4.2. The
ENERTITE® NM insulation must be separated from the
interior of the building by an approved thermal barrier.
4.4.3.2 ENERTITE® G: When used on attic floors,
ENERTITE® G insulation may be installed at a maximum
thickness of 16 inches (406 mm) between joists. The
ignition barrier in accordance with IBC Section 2603.4.1.6,
or IRC Section R316.5.3, may be omitted, when the
installation is in accordance with Section 4.4.2. The
ENERTITE® G insulation must be separated from the
interior of the building by an approved thermal barrier.
4.4.3.3 ENERTITE® IB-418: ENERTITE® IB-418
insulation may be installed at a maximum thickness of
10 inches (254 mm) between joists in attic floors when
installation is in accordance with Section 4.4.2. The
ENERTITE® IB-418insulation must be separated from the
interior of the building by an approved thermal barrier.
4.5 Exterior Walls in Types I, II, III and IV
Construction:
ENERTITE® NM, ENERTITE® G and ENERTITE® IB-418
insulations, when used in exterior walls of Types I, II, III or
IV construction, the assembly must comply with IBC
Section 2603.5, this section and Table 4. The insulation
thickness must not exceed 6 inches (152 mm). The
potential heat of ENERTITE® NM and ENERTITE® G
insulation is 656 Btu/ft2 per inch of thickness, when tested
in accordance with NFPA 259. The potential heat of
ENERTITE® IB-418 insulation is 522 Btu/ft2 per inch of
thickness, when tested in accordance with NFPA 259.
5.0 CONDITIONS OF USE
The ENERTITE® NM, ENERTITE® G and ENERTITE® IB-
418 spray-applied polyurethane insulations described in
this report complies with, or is a suitable alternative to what
is specified in, those codes listed in Section 1.0 of this
report, subject to the following conditions:
5.1 This evaluation report and the manufacturer’s
published installation instructions, when required by
the code official, must be submitted at the time of
permit application.
5.2 The insulation must be installed in accordance with
the manufacturer’s published installation instructions,
this evaluation report and the applicable code. If there
is a conflict between the installation instructions and
this report, this report governs.
5.3 The insulation must be separated from the interior of
the building by an approved 15-minute thermal
barrier, except when installed as described in Section
4.3.2 or when installation is in attics and crawl spaces
as described in Section 4.4.
5.4 The insulation must not exceed the thickness and
density noted in Sections 3.2, 4.3 and 4.4.
5.5 The insulation must be protected from the weather
during and after application.
ESR-3102 | Most Widely Accepted and Trusted Page 4 of 17
5.9 A vapor retarder must be installed in accordance with
the applicable code.
5.10 The insulations are manufactured in Houston, Texas,
under a quality control program with inspections by
ICC-ES.
6.0 EVIDENCE SUBMITTED
6.1 Data in accordance with the ICC-ES Acceptance
Criteria for Spray-applied Foam Plastic Insulation
(AC377), dated May 2015.
6.2 Reports of room corner fire testing in accordance with
NFPA 286 and UL 1715.
6.3 Reports of room corner fire testing in accordance with
AC377 Appendix X.
6.4 Reports of air permeance testing in accordance with
ASTM E283 and ASTM E2178.
6.5 Reports of critical radiant heat flux of exposed attic
floor in accordance with ASTM E970.
6.6 Report of fire testing in accordance with NFPA 285,
and related engineering analysis.
6.7 Report of potential heat tests in accordance with
NFPA 259.
7.0 IDENTIFICATION
7.1 All packages and containers of ENERTITE® NM,
ENERTITE® G and ENERTITE® IB-418 insulations
must be labeled with the BASF Corporation, name
and address; the product name; the flame spread
index and the smoke-developed index; the shelf life
expiration date; and the evaluation report number
(ESR-3102).
International Fireproof Technology, Inc. / Paint to
Protect Inc., DC 315 coating is labeled with the
manufacturer’s name and address; the product name;
the date of manufacture, the shelf life or expiration
date; the manufacturer’s instructions for application,
and evaluation report number (ESR-3702).
Fireshell F10E, coating is labeled with the
manufacturer’s name and address; the product name;
the date of manufacture, the shelf life or expiration
date; the manufacturer’s instructions for application,
and the evaluation report number (ESR-3997).
Intumescent coatings described in Sections 3.5.1,
3.5.2 and 3.5.4 are identified with the manufacturer’s
name and address, the product trade name and use
instructions.
7.2 The report holder’s contact information is the
following:
BASF CORPORATION
1703 CROSSPOINT AVENUE
HOUSTON, TEXAS 77054
(713) 383-4554
www.spf.basf.com
8.0 OTHER CODES
In addition to the codes referenced in Section 1.0, the
products in the report were evaluated for compliance with
the requirements of the following codes:
2006 and 2003 International Building Code®
2006 and 2003 International Residential Code®
2006 and 2003 International Energy Conservation
Code®
The products comply with the above-mentioned codes as
described in Sections 2.0 through 7.0 of this report, with
the revisions noted below:
Application with a Prescriptive Thermal Barrier: See
Section 4.3.1, except the approved thermal barrier must
be installed in accordance with Section R314.4 of the
2006 IRC or Section R314.1.2 of the 2003 IRC, as
applicable.
Application with a Prescriptive Ignition Barrier: See
Section 4.4.1, except an ignition barrier must be
installed in accordance with Section R314.2.3 of the
2003 IRC, or Section R314.5.3 or R314.5.4 of the 2006
IRC.
Application without a Prescriptive ignition Barrier:
See Section 4.4.2, except that combustion air is
provided in accordance with Sections 701 and 703 of
the 2006 IECC.
Protection against Termites: See Section 5.7, except
use of the insulation in areas where the probability of
termite infestation if “very heavy” must be in accordance
with Section 320.4 of the 2003 IRC or Section R320.5 of
the 2006 IRC.
Jobsite Certification and Labeling: See Section 5.8,
except jobsite certification and labeling must comply
with Section 102.5.1 of the 2003 IECC, or Sections
102.1.1 and 102.1.11, as applicable, of the 2006 IECC.
ESR-3102 | Most Widely Accepted and Trusted Page 5 of 17
TABLE 1—THERMAL RESISTANCE (R-VALUES1,2)
For SI: 1 inch = 25.4 mm, 1°F⋅ft2⋅h/Btu = 0.176 110K⋅m2/W.
1R-values are calculated based on tested K values at 1- and 4-inch thicknesses. 2R-values greater than 10 are rounded to the nearest whole number.
TABLE 2 —USE OF INSULATION WITHOUT A PRESCRIPTIVE THERMAL BARRIER1
INSULATION
TYPE
MAXIMUM
THICKNESS
(in) (Wall
Cavities)
MAXIMUM
THICKNESS (in)
(Ceilings, Underside
of Roof Sheathing /
Rafters & Floors)
FIRE-PROTECTIVE
COATING MINIMUM
THICKNESS & TYPE
(Applied to all Foam
Surfaces)2
MINIMUM
APPLICATION
RATE OF FIRE-
PROTECTIVE
COATING
May be left
exposed as
an Interior
Finish
TESTS
SUBMITTED
ENERTITE® NM
ENERTITE® G
71/2 141/2 DC315
18 wet mils 1.12 gal / 100 ft2 Yes NFPA 286
91/2 111/2 Fireshell F10E
18 wet mils 1.18 gal / 100 ft2 Yes NFPA 286
For SI: 1 inch = 25.4 mm; 1 mil = 0.0254 mm; 1 gallon = 3.38 L; 1 ft2 = 0.093 m 2. 1See Section 4.3.2. 2See Sections 3.5.3 and 3.5.5.
TABLE 3—USE OF INSULATION IN ATTICS AND CRAWL SPACES WITHOUT A PRESCRIPTIVE IGNITION BARRIER1
INSULATION
TYPE
MAXIMUM
THICKNESS (in)
(Wall Cavities and
Attic Floors)
MAXIMUM
THICKNESS (in)
(Underside of Roof
Sheathing/Rafters and
floors)
FIRE PROTECTIVE COATING
MINIMUM THICKNESS AND TYPE
(Applied to all Exposed
Foam Surfaces)2
MINIMUM
APPLICATION
RATEOF THE
FIRE-
PROTECTIVE
COATING
TESTS
SUBMITTED
ENERTITE® NM
ENERTITE® G
111/4 16 SPRAYCOAT™ 1920
8 wet mils (4 mils dry) 0.59 gal/100 ft2 AC377
Appendix X
111/4 16 FIRESHELL® (IB-4)
8 wet mils (4 mils dry) 0.68 gal/100 ft2 AC377
Appendix X
111/4 16 No-Burn Plus XD
6 wet mils (4 dry mils) 0.37 gal / 100 ft2 AC377
Appendix X
10 14 ENERTITE® IB-418 Spray Foam
2 inches thick 2.0 inches AC377,
Appendix X
ENERTITE® IB-418 12 16 No covering required N/A AC377,
Appendix X
For SI: 1 inch = 25.4 mm; 1 mil = 0.0254 mm; 1 gallon = 3.38 L; 1 ft2 = 0.093 m 2. 1See Section 4.4.2. 2See Sections 3.5.1, 3.5.2 and 3.5.4.
ENERTITE® IB-418
THICKNESS (inches) R-VALUE (°F⋅ft2⋅h/Btu)
1 4.1
2 8.0
2.5 10
3 12
3.5 14
4 15
5 19
5.5 21
6 23
7 27
7.5 29
8 31
9 35
9.5 37
10 39
11.5 44
12 46
16 62
ENERTITE® NM AND ENERTITE® G
THICKNESS (inches) R-VALUE (°F⋅ft2⋅h/Btu)
1 3.9
2 7.6
3 11
3.5 13
4 15
5 19
5.5 21
6 22
7 26
7.5 28
8 30
9 33
9.5 35
10 37
11.5 43
12 45
16 59
ESR-3102 | Most Widely Accepted and Trusted Page 6 of 17
TABLE 4—USE OF ENERTITE® NM AND ENERTITE® IB-814 IN EXTERIOR WALL CAVITIES
OF BUILDINGS OF TYPES I, II, III AND IV CONSTRUCTION
WALL COMPONENT MATERIALS
Base Wall System –
Use either 1, 2 or 3
1 – Concrete wall1
2 – Concrete masonry wall1
3 – 1 layer of 5/8-inch-thick (15.9 mm) Type X gypsum wallboard installed on the interior side of minimum 35/8-inch-
deep (92 mm), minimum 18 gauge thick steel studs spaced a maximum of 24 inches (610 mm) on center.
Perimeter Fire Barrier
System
Perimeter fire barrier system complying with 2015 or 2012 IBC Section 715.4 (2009 IBC Section 714.4) shall be
installed, as applicable, to fill the void between the edge of the concrete floor slab and the interior surface of the
exterior wall assembly.
Interior Insulation –
Use either 1, 2, 3, 4 or
5 or combinations of 3
and 4 or 3 and 5
1 – Maximum nominal thickness of 6 inches (152 mm) of ENERTITE® NM. ENERTITE® G or ENERTITE® IB-418
applied to the interior surface of Base Wall System 1 or 2 (See Note 1).
2 – Maximum nominal thickness of 6 inches (152 mm) of ENERTITE® NM, ENERTITE® G or ENERTITE® IB-418
applied using the back face of the exterior gypsum sheathing of Base Wall System 3 as the substrate and covering
the width of the cavity and the inside of the steel wall stud framing flange.
3 – Fiberglass batt insulation2
4 – Mineral wool insulation2
Exterior sheathing 5/8-inch-thick (15.9 mm) Type X exterior-type gypsum sheathing (for Base Wall System 3)
Exterior Wall
Covering
1 – Any non-combustible exterior wall covering material using any standard installation technique
2 – Any non-combustible exterior wall covering system with a combustible WRB that has successfully been tested
in accordance with NFPA 285
Details of the exterior wall covering must be provided to the code official by the report holder, designer or specifier,
with an engineering analysis demonstrating that (1) the exterior wall covering conforms to ASTM E136 and (2) the
addition of the wall covering and/or water-resistive barrier to the assembly described in this section does not
negatively affect conformance of the assembly with the requirements of IBC Section 2603.5.
1 Fireblocking per Section 718 of the IBC and thermal barrier material requirements must be met for Base Wall Systems 1 and 2, as required by
specific wall construction details when combustible concealed space is created on interior side of exterior wall assembly. 2 Insulation must comply with the applicable requirements of 2015 or 2012 IBC Section 720.2 (2009 IBC Section 719.2).
ICC-ES Evaluation Reports are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are they to be construed
as an endorsement of the subject of the report or a recommendation for its use. There is no warranty by ICC Evaluation Service, LLC, express or implied, as
to any finding or other matter in this report, or as to any product covered by the report.
Copyright © 2021 ICC Evaluation Service, LLC. All rights reserved. Page 7 of 17
ICC-ES Evaluation Report ESR-3102 CBC, CRC and CEC Supplement
Reissued August 2021
This report is subject to renewal August 2022.
www.icc-es.org | (800) 423-6587 | (562) 699-0543 A Subsidiary of the International Code Council ®
DIVISION: 07 00 00—THERMAL AND MOISTURE PROTECTION
Section: 07 21 00—Thermal Insulation
REPORT HOLDER:
BASF CORPORATION
EVALUATION SUBJECT:
ENERTITE® NM, ENERTITE® G AND ENERTITE® IB-418 OPEN-CELL SPRAY POLYURETHANE FOAM INSULATIONS
1.0 EVALUATION SCOPE
Compliance with the following codes:
2016 California Building Code (CBC)
2016 California Residential Code (CRC)
2016 California Energy Code (CEC)
Properties evaluated:
Surface burning characteristics
Physical properties
Thermal resistance (R-values)
Attic and crawl space installation
Air permeability
2.0 PURPOSE OF THIS SUPPLEMENT
This supplement is issued to indicate that the ENERTITE® NM, ENERTITE® G and ENERTITE® IB-418 insulations described
in Sections 2.0 through 7.0 of the report ESR-3102 comply with the 2016 California Building Code (CBC), the 2016 California
Residential Code (CRC), and the 2016 California Energy Code (CEC), when installed in accordance with the 2015 IBC and
IRC provisions, as applicable, of the evaluation report and the 2016 CEC under the following conditions:
In accordance with Section 110.8 of the 2016 California Energy Code, verification of certification by the Department of
Consumer Affairs, Bureau of Home Furnishings and Thermal Insulation, must be provided to the code official,
demonstrating that the insulation conductive thermal performance is approved pursuant to the California Code of
Regulations, Title 24, Part 12, Chapters 12-13, Article 3, “Standards for Insulating Material.”
This supplement expires concurrently with the evaluation report, reissued August 2021.
ICC-ES Evaluation Reports are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are they to be construed
as an endorsement of the subject of the report or a recommendation for its use. There is no warranty by ICC Evaluation Service, LLC, express or implied, as
to any finding or other matter in this report, or as to any product covered by the report.
Copyright © 2021 ICC Evaluation Service, LLC. All rights reserved. Page 8 of 17
ICC-ES Evaluation Report ESR-3102 FBC Supplement
Reissued August 2021
This report is subject to renewal August 2022.
www.icc-es.org | (800) 423-6587 | (562) 699-0543 A Subsidiary of the International Code Council ®
DIVISION: 07 00 00—THERMAL AND MOISTURE PROTECTION
Section: 07 21 00—Thermal Insulation
REPORT HOLDER:
BASF CORPORATION
EVALUATION SUBJECT:
ENERTITE® NM, ENERTITE® G, AND ENERTITE® IB-418 OPEN-CELL SPRAY POLYURETHANE FOAM INSULATIONS
1.0 REPORT PURPOSE AND SCOPE
Purpose:
The purpose of this evaluation report supplement is to indicate that ENERTITE® NM, ENERTITE® G and ENERTITE® IB-418
open-cell spray-applied polyurethane foam insulations, described in ICC-ES evauation report ESR-3102, have also been
evaluated for compliance with the codes noted below.
Applicable code editions:
2017 Florida Building Code—Building
2017 Florida Building Code—Residential
2.0 CONCLUSIONS
The ENERTITE® NM, ENERTITE® G and ENERTITE® IB-418 spray-applied polyurethane foam insulations described in
Sections 2.0 through 7.0 of the evaluation report comply with the Florida Building Code—Building and the Florida Building
Code—Residential, provided the installation is in accordance with the 2015 International Building Code® (IBC) provisions
noted in the evaluation report under the following condition:
Installation must meet the requirements of Sections 1403.8 and 2603.8 of the Florida Building Code—Building and
Sections R318.7 and R318.8 of the Florida Building Code—Residential, as applicable.
Use of ENERTITE® NM, ENERTITE® G and ENERTITE® IB-418 spray-applied polyurethane foam insulations has also
been found to be in compliance with the High-Velocity Hurricane Zone provisions of the Florida Building Code—Building and
the Florida Building Code—Residential, provided ENERTITE® NM, ENERTITE® G and ENERTITE® IB-418 spray-applied
polyurethane foam insulations used in exterior walls of multistory buildings located in the High-Velocity Hurricane Zone,
comply with Section 2612.3.2.4 of the Florida Building Code—Building.
For products falling under Florida Rule 9N-3, verification that the report holder’s quality assurance program is audited by a
quality assurance entity approved by the Florida Building Commission for the type of inspections being conducted is the
responsibility of an approved validation entity (or the code official when the report holder does not possess an approval by
the Commission).
This supplement expires concurrently with the evaluation report, reissued August 2021.
ICC-ES Evaluation Reports are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are they to be construed
as an endorsement of the subject of the report or a recommendation for its use. There is no warranty by ICC Evaluation Service, LLC, express or implied, as
to any finding or other matter in this report, or as to any product covered by the report.
Copyright © 2021 ICC Evaluation Service, LLC. All rights reserved. Page 9 of 17
ICC-ES Evaluation Report ESR-3102 Seal & Insulate with
ENERGY STAR® Supplement
Reissued August 2021
This report is subject to renewal August 2022.
www.icc-es.org | (800) 423-6587 | (562) 699-0543 A Subsidiary of the International Code Council ®
DIVISION: 07 00 00—THERMAL AND MOISTURE PROTECTION
Section: 07 21 00—Thermal Insulation
REPORT HOLDER:
BASF CORPORATION
EVALUATION SUBJECT:
ENERTITE® NM, ENERTITE® G AND ENERTITE® IB-418 OPEN-CELL SPRAY POLYURETHANE FOAM INSULATIONS
1.0 EVALUATION SCOPE
Conformance to the following requirements:
Seal and Insulate with ENERGY STAR® Program—Definitions and Testing Requirements for Residential Insulation,
Version 1.0
Properties evaluated:
Thermal resistance
Surface-burning characteristics
2.0 PURPOSE OF THIS SUPPLEMENT
This supplement is issued to certify that the ENERTITE® spray-applied foam plastic insulation products described in Sections
2.0 through 7.0 of the evaluation report (ESR-3102) have been reviewed for compliance with the applicable codes noted in
Section 1.0 of the evaluation report and with the requirements set forth in the Seal and Insulate with ENERGY STAR®
Program—Definitions and Testing Requirements for Residential Insulation, Version 1.0. The insulation products covered by
this supplement are defined as "Spray or Pour Foam Insulation."
The requirements for testing laboratory qualifications and product sampling, as well as the specific material and test
standards and editions used in this evaluation, are as set forth in the applicable documentation noted in Section 6.0 of the
evaluation report.
3.0 DEFINITIONS
The following definitions are from the Definitions and Testing Requirements for Residential Insulation, Version 1.0, and are
applicable to the subject of this report.
3.1 General Definitions:
Insulation: Any material mainly used to slow down heat flow. It may be mineral or organic, fibrous, cellular, or reflective
(aluminum foil). It may be in rigid, semi-rigid, flexible, or loose-fill form.
Residential Buildings: Single family homes (attached or unattached), multifamily buildings with 4 units or fewer, or
multifamily buildings (condominiums, apartments) with 3 stories or less in height above grade.
3.2 Insulation Product Definition:
Spray or Pour Foam Insulation: A thermal insulating material that is sprayed or poured (as a gel or foamy liquid) into place,
and expands or sets into a cellular foam and cures at the point of installation through a chemical reaction. Foamed materials
include, but are not limited to polyurethane, polyisocyanurate, phenolic, and cementitious insulation.
3.3 Insulation Performance Definitions:
R-value: The inverse of the time rate of heat flow through a body from one of its bounding surfaces to the other surface for a
unit temperature difference between the two surfaces, under steady state conditions, per unit area. For the purposes of the
Seal and Insulate with ENERGY STAR program, only Imperial units will be accepted [(hꞏft2ꞏ°F)/Btu].
ESR-3102 S&I Supplement | Most Widely Accepted and Trusted Page 10 of 17
Smoke-Development Index: The characteristic of a material to emit smoke when exposed to flame or fire compared to red
oak and inorganic cement.
Flame-Spread Index: The characteristic of a material to resist the spreading of flames when exposed to flame or fire
compared to red oak and inorganic cement.
3.4 Thermal Resistance:
The ENERTITE® spray-applied foam plastic insulations have thermal resistance R-values as noted in Table 1 of
ESR-3102, based upon testing.
3.5 Installation
3.5.1 General: The installation of the ENERTITE® spray-applied foam plastic insulations must be in accordance with the
requirements set forth in Sections 4.0 and 5.0 (as applicable) of ESR-3102. The insulation is manufactured on-site by spray
polyurethane foam applicators meeting the qualification requirements stated in Section 5.6 of ESR-3102. The insulation
should not be installed in direct contact with chimneys, flues or heat-producing appliances. See Figure 7 for recommended
clearances.
3.5.2 Personal Protective Equipment (PPE): The following personal protective equipment (PPE) requirements are
reprinted from the website of the American Chemistry Council (ACC) and deal with Spray Polyurethane Foam Health and
Safety (http://www.spraypolyurethane.org/PPE):
“PPE for SPF High Pressure Interior Application:
When spraying an SPF two-component high pressure spray polyurethane foam system indoors, sprayers and helpers
should wear:
A NIOSH-approved full face or hood-type supplied air respirator (SAR) (as outlined in your company's Respiratory
Protection Program)
MDI-resistant chemical gloves (e.g., nitrile), or fabric gloves coated in nitrile, neoprene, butyl, or PVC
Chemically resistant long-sleeve coveralls or chemically resistant full body suit with hood
MDI-resistant fitted boots/booties”
“Protective Clothing:
The use of appropriate protective clothing is necessary whenever there is possibility of direct contact with SPF chemicals.
The appropriate protective clothing varies depending upon the potential for exposure. Applicators and helpers typically wear
disposable coveralls to keep spray and mist from contacting skin and clothing. To protect skin, wear PPE in such a manner
as to protect all skin (in other words, there should be no exposed skin showing). When not wearing a hood respirator, select
a coverall with an attached hood or spray head cover. For tasks where there is a potential for splash, consider a suit coated
with an impermeable coating such as PVC and MDI-resistant fitted boots/booties.”
“Gloves:
Gloves made of nitrile, neoprene, butyl or PVC generally provide adequate protection against A-side materials. (See
Guidance for the Selection of Protective Clothing for MDI Users, Center for the Polyurethane Industry (CPI) Guidance
Document AX178). A-side protection is generally considered adequate to provide B-side protection; however, consult the
manufacturer’s SDS for specific information about B-side protection.”
“Eye and Face Protection:
Appropriate eye protection helps prevent eye contact from splashes of liquid SPF chemicals, accidental sprays of reacting
foam, aerosols and vapors that are likely to be present during spraying, and airborne particulate associated with sanding and
grinding operations. The type of eye protection needed depends on the nature of the activity.”
Persons handling liquid SPF chemicals in open containers can protect their eyes by wearing safety goggles or safety
goggles in combination with face shields. The use of contact lenses is discouraged.
During application of SPF, eye protection may be provided by virtue of wearing a full-face or hood respirator. OSHA
requires that an eyewash* or safety shower be provided in the work area where the eyes or body may be exposed to
“injurious corrosive materials.” Consult the SDS for all materials to be used on the job in advance to help you understand
whether such materials will be present, and if so, how to comply with applicable OSHA requirements.
“Respiratory Protection:
Engineering controls, such as local exhaust ventilation, can be used to control SPF chemical exposures. Administrative
controls, such as work schedules and work practices, are used concurrently to minimize exposure. Respirators are needed
when air concentrations continue to exceed occupational exposure limits when engineering and administrative controls are
implemented. These limits have been set for a number of SPF chemicals and some common chemicals encountered during
SPF application.
Air-purifying respirators (APR) and powered air-purifying respirators (PAPR) are generally appropriate for exterior
applications and may be used when spraying polyurethane foam in exterior applications. Supplied air respirators (SAR) are
typically used in interior applications. Refer to the NIOSH Respirator Decision Logic (2004) for more information regarding
respirator selection.”
ESR-3102 S&I Supplement | Most Widely Accepted and Trusted Page 11 of 17
Ventilation of the work area is required and should be in accordance with Ventilation Considerations or Spray
Polyurethane Foam: Guidance on Ventilation During Installation of Interior Applications of High-Pressure Spray
Polyurethane Foam as published by the Spray Foam Coalition (SFC) of the Center for the Polyurethanes Industry (CPI).
The following statement regarding ventilation of the work area is reprinted from the guidance document:
“Work zone mechanical ventilation during and after SPF installation is designed to prevent workers and others in the area
from being exposed to SPF chemicals above recommended or permissible levels. Potential health effects from exposure
above recommended levels can range from no effects to slight irritation of the eyes, skin or respiratory system to the
development of chronic lung or pulmonary disease depending on the individual person and level and duration of
overexposure.”
3.5.3 Occupancy Time after Installation: The re-entry or re-occupancy time shall be in accordance with the
manufacturer’s installation instructions, which are reprinted on pages 4 and 5 of this certification.
3.5.4 Figures: Figures 1 through 6 represent general installations of the ENERTITE® spray-applied foam plastic insulations
in vented and unvented crawl spaces, the interior of below-grade foundation walls, the exterior of above-grade walls, and in
vented and unvented attics. Figure 7 depicts minimum clearances to heat-producing objects. These figures are for illustration
purposes only and are not to be construed or used as construction documents.
This supplement expires concurrently with the evaluation report, reissued August 2021.
ESR-3102 S&I Supplement | Most Widely Accepted and Trusted Page 12 of 17
BASF Re-Occupancy Times for Interior Building Spray Applications
Jim Andersen, Marketing Applications Specialist SR 021514
Introduction
The application of spray foam insulation is done through special high pressure spray application equipment, Low
pressure application units or single component foams. This document will discuss two part foams field process
using high pressure application equipment. When the combination of liquid part A compound and liquid B
compound is done to produce either closed cell or open cell spray foam insulation there are potential health
hazards during the application. OSHA and other government agencies have established protection requirements
for all workers that can be exposed to the chemicals during the spray application. Only trained and properly
protected workers are allowed in the spray application areas during the spraying and for a period after the
spraying has stopped.
Requirements
The spray area should be posted with keep out WARNING signs before and after spraying. Workers only that are
trained and have the necessary personal protection equipment are allowed inside the spray area. All others must
be kept out as well as pets. Ventilation of the spray area is to be done incorporating the guidance documents:
“Ventilation Guidance for Spray Polyurethane Foam Application,” published by the U.S. Environmental Protection
Agency (EPA), online at www.epa.gov/dfe/pubs/projects/spf/ventilation-guidance.html and “Good Practices –
Engineering Controls and Ventilation,” published by the American Chemistry Council’s Center for the
Polyurethanes Industry, available online at: www.spraypolyurethane.org/GoodPractices#EngineeringControls
The following general requirements must also be followed, Code of Federal Regulations Title 29 CFR §1926.20
Safety and Health Regulations for Construction: General Safety and Health Provisions available online at
www.osha.gov/pls/oshaweb/owadisp.show_document?p_table=STANDARDS&p_id=10606
The applicators and building owners should visit www.spraypolyurethane.org and also www.spf.basf.com for up to
date information about spray polyurethane foam construction applications before starting projects.
Industry Established Re Occupancy Times
The Spray Foam Industry and government agencies have worked together to establish general guidelines for re
occupancy. These can be found at www.spraypolyurethane.org. The general statement of 24 hours for re
occupancy times for interior building applications is the general rule BASF suggests for two part high pressure
spray.
“Evaluation reports for many types of building products, including SPF insulation, often include the suggested
reoccupancy time, which is variable: for an interior application using two-component high-pressure SPF, some
manufacturers recommend 24 hours before reoccupancy, and for an interior two-component, low-pressure SPF
kit application, some manufacturers recommend a one hour reoccupancy time. Consult the product manufacturer
to determine the recommended reoccupancy time for the particular job and SPF in use.
Note: ”Exterior applications where the spray application is done to a roof top application or exterior walls and
where there is wide open air spaces; the risk control is done by closing off all air intake areas to a building
interior,(windows, doors, warning signs and HVAC intake vents). Roof or exterior applications will generally have
plenty of ventilation with natural wind as well as massive volumes of space to dissipate the concentration of
materials. Therefore the controls used for interior applications are not generally required, such as added
ventilation. The elastomeric roof coatings vary in risks and must be assessed and the risks evaluated on a job by
job and material specific basis by the spray foam applicator company.
BASF Re Occupancy Research
BASF, Air Products and Honeywell have conducted proprietary studies for indoor air quality measurements on
spray foam applications to retrofit attics. Robert, William, James Andersen, Richard Wood, and Mary Bogdan.
“Ventilation and Re-Occupancy of a Residential Home Sprayed with High Pressure Polyurethane Foam.”
Presented at the CPI Technical Conference, September 2012
ESR-3102 S&I Supplement | Most Widely Accepted and Trusted Page 13 of 17
This study of three houses where the attic was sealed and ventilated during the spray application has resulted in
no chemicals detected within the house at levels greater than those currently assigned levels by government
agencies and private chemical manufactures’ Material Safety Data Sheets (MSDS) or Safety Data Sheets (SDS).
This particular application process indicates 2 hours after spraying has stopped and ventilation continued that re-
occupancy can occur within the homes. The spray foam was done above the sheetrock in non inhabited attic
spaces.
BASF continues field monitoring testing as well as supports continued research being done by the American
Chemistry Council/Center for the Polyurethane Industries of which we are an active member.
Summary
This information has been provided for use by our spray foam applicators and distributors use. It may also be
used to inform end customers who have contracted to have spray foam produced by spray foam applicators to
their buildings. It is offered in good faith and believed to present the risks and best industry practices to manage
them. Since each field application is different the responsibility rests with spray foam applicators to assess the
job risks and control them per the OSHA and others requirements. Technical Questions can be directed to BASF
Technical Services 800-706-0712.
FIGURE 1
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FIGURE 2
ESR-3102 S&I Supplement | Most Widely Accepted and Trusted Page 15 of 17
FIGURE 3
FIGURE 4
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FIGURE 5
ESR-3102 S&I Supplement | Most Widely Accepted and Trusted Page 17 of 17
FIGURE 6
FIGURE 7