Product Brochure
PINK NEXT GEN
™
FIBERGLAS
™
INSULATION
Product Data Sheet | PINK
Next Gen™ Fiberglas™ Insulation | May 2021
Standards, Codes Compliance
• Manufactured in compliance with ASTM C665
• Classied non-combustible as tested in accordance with ASTM
E136 (unfaced only)
• Unfaced PINK Next Gen™ Fiberglas™ insulation is acceptable for
use in ICC building construction types I through V; Kraft and foil-
faced PINK Next Gen™ Fiberglas™ insulation are acceptable for
use in ICC building construction types III, IV, and V
• Certied to meet California Code of Regulations, Title 24,
Chapter 12-13, Article 3, “Standards for Insulating Material”
Owens Corning
®
PINK Next Gen™ Fiberglas™ Insulation is a
preformed, exible blanket insulation. It is produced in R-values
from 11 to 49, with thicknesses ranging from 3½ inches to 14
inches. It is available unfaced, or faced with either a Kraft or foil
vapor retarder.
Features
• Proven thermal control and sound dampening
• Improved recovery and stiffness for fast install
• Long-term performance and will not settle or slump
within wall cavities
• Soft as cotton and shed-resistant with less dust
• Compression packaging for easier handling
Applications
• Wood-framed wall, oor, and roof/ceiling cavity applications
• Metal-framed wall and oor cavity applications
• Interior surfaces of basement and unvented crawl space
foundation walls
Physical Properties
PROPERTY TEST VALUE
Thermal Resistance ASTM C518 See “Availability”
table for R-values
Surface Burning Characteristics
1
(ame spread/smoke developed)
Unfaced
Kraft faced
Foil faced
ASTM E84/
UL 723
< 25/< 50
NR/NR
75/150
Critical Radiant Flux (W/cm
2
) ASTM E970 > 0.12
Water Vapor Permeance (perms)
Kraft faced
Foil faced
ASTM E96
1.0
0.5
Water Vapor Sorption
(by weight)
ASTM C1104 < 5%
Odor Emission ASTM C1304 Pass
Corrosion Resistance ASTM C665,
part 13.8
Pass
Fungi Resistance ASTM C1338 Pass
1 The surface burning characteristics of insulation were derived from products
tested in accordance with ASTM E84. This standard is used solely to measure and
describe properties of products in response to heat and ame under controlled
laboratory conditions, and should not be used to describe or approve the re hazard
of materials under actual re conditions. However, the results of these tests may be
used as elements of a re risk assessment that takes into account all of the factors
pertinent to an assessment of the re hazard of a particular end use. Values are
reported to the nearest ve rating.
Design Considerations
• For optimum insulation performance, the building thermal
barrier (insulation) should be in continual alignment with the
building air barrier. In framed cavities, the product thickness
should match the depth of the framing members.
• Follow the local, applicable building code(s) to determine the
need for and placement of a vapor retarder.
• Do not install insulation on top, or within 3 inches, of a recessed
light xture unless the xture is labeled as “insulation contact”
(IC) rated.
• Kraft and standard foil facings will burn and cannot be left
exposed. Install facings in substantial contact with the assembly
nish material. Protect from open ame or other heat source.