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ASTM

ASTM F2029-00

(Practice)

Standard Practices for Making Heatseals for Determination of Heatsealability of Flexible Webs as Measured by Seal Strength

Standard Practices for Making Heatseals for Determination of Heatsealability of Flexible Webs as Measured by Seal Strength

SIGNIFICANCE AND USE
Practice A, Surface Heatsealability—This practice leads to determining the heatsealability of a surface, or sealant layer if there is one, as a function of interface temperature, free of the influence of other web properties. Commercially, its applications are in development of improved polymers and blends to be used as the sealant layer in coextruded films and laminated and coated web constructions. Also it is the appropriate method for quality control in manufacture of those films and laminations, since a QC test should be affected by the property being tested for, for example, heatsealability of the surface, and, so far as possible, not by other properties of the web, for example, total thickness, that are measured independently by other methods.
Note 2—Sealant-layer thickness may affect surface heatsealability.
Practice B, Web Sealability—While it is necessary to have a heatseal surface layer that has adequate seal strength for the application, the web also will have a specific construction and total thickness, both chosen to satisfy requirements other than heatsealability. Practice B compares specific web constructions for their suitability for applications where the dwell time may be too short for the sealing interface to reach jaw temperature. With this test method, both web construction and thickness, in addition to properties of the sealant layer, affect sealing performance. If the rate of heat transfer through the web due to its construction or total thickness is too slow for the production rate required, it may be necessary to use a sealant layer with a lower seal-inception temperature or fusion temperature.
SCOPE
1.1 These practices cover laboratory preparation of heatseals and the treatment and evaluation of heatseal strength data for the purpose of determining heatsealability of flexible barrier materials.
1.2 Testing strength or other properties of the heatseals formed by these practices is not included in this standard. Refer to Test Methods F88 for testing heatseal strength.
1.3 The practices of this standard are restricted to sealing with a machine employing hot-bar jaws. Impulse, high-frequency, and ultrasonic heating methods are not included.
1.4 These practices apply primarily to webs intended to be used on commercial machines employing reciprocating sealing jaws, such as most vertical form-fill packaging machines, platen heatsealers, etc. Conditions of dwell time and sealing pressure on machines of this type typically are different from those on rotary machines by an order of magnitude or more.
1.5 The procedures of these practices with respect to choice of heatsealing conditions apply equally whether the application is to ultimate seal strength or hot tack measurement.
1.6 Seals may be made between webs of the same or dissimilar materials. The individual webs may be homogeneous in structure or multilayered (coextruded, coated, laminated, etc.).
1.7 Strength of the heatseal is the criterion for judging heatsealability employed in these practices.
1.8 Determination of heatsealability as judged by seal continuity, typically measured by air-leak, dye penetration, visual examination, microorganism penetration or other techniques, are not covered by these practices.
1.9 Two variations of the heatsealing procedure are described herein, differing in whether the objective of the testing is to determine, the heatsealability of the surface, or how well the entire web would heatseal in applications where the sealing interface may not reach jaw temperature.
1.9.1 Practice A, Heatsealability of a Surface-This method measures sealability of the web surface, or sealant layer if there is one, as a function of interface temperature, which is independent of the influence of other web characteristics, such as total thickness and construction.
1.9.2 Practice B, Web Sealability at Short Dwell Time-The test seal is made at a dwell time shorter than required for the sealing int...

General Information

Status
Historical
Publication Date
09-May-2000
ICS
83.180 - Adhesives
Technical Committee
F02 - Primary Barrier Packaging
Drafting Committee
F02.20 - Physical Properties
Current Stage
Ref Project

Relations

Replaced By
ASTM F2029-08 - Standard Practices for Making Heatseals for Determination of Heatsealability of Flexible Webs as Measured by Seal Strength
Effective Date
01-Apr-2008
Referred By
ASTM F1921/F1921M-12(2023) - Standard Test Methods for Hot Seal Strength (Hot Tack) of Thermoplastic Polymers and Blends Comprising the Sealing Surfaces of Flexible Webs
Effective Date
10-May-2000
Referred By
ASTM D6287-17 - Standard Practice for Cutting Film and Sheeting Test Specimens
Effective Date
10-May-2000
Referred By
ASTM F2097-20 - Standard Guide for Design and Evaluation of Primary Flexible Packaging for Medical Products
Effective Date
10-May-2000

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ASTM F2029-00 - Standard Practices for Making Heatseals for Determination of Heatsealability of Flexible Webs as Measured by Seal StrengthASTM F2029-00 - Standard Practices for Making Heatseals for Determination of Heatsealability of Flexible Webs as Measured by Seal Strength
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ASTM F2029-00 - Standard Practices for Making Heatseals for Determination of Heatsealability of Flexible Webs as Measured by Seal Strength
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NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
Contact ASTM International (www.astm.org) for the latest information
Designation:F2029–00
Standard Practices for
Making Heatseals for Determination of Heatsealability of
1
Flexible Webs as Measured by Seal Strength
This standard is issued under the fixed designation F 2029; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (e) indicates an editorial change since the last revision or reapproval.
1. Scope which is independent of the influence of other web character-
istics, such as total thickness and construction.
1.1 These practices cover laboratory preparation of heat-
1.9.2 Practice B, Web Sealability at Short Dwell Time—The
seals and the treatment and evaluation of heatseal strength data
test seal is made at a dwell time shorter than required for the
for the purpose of determining heatsealability of flexible
sealing interface to reach the jaw temperature level, simulating
barrier materials.
conditions on high-speed vertical form-fill machines, or on
1.2 Testing strength or other properties of the heatseals
slower machines where the condition of nonequilibrium also
formedbythesepracticesisnotincludedinthisstandard.Refer
exists. The resulting heatseal strength, under nonequilibrium
to Test MethodsF88 for testing heatseal strength.
conditions, is then dependent not only on characteristics of the
1.3 The practices of this standard are restricted to sealing
web’s sealing surface, but also on web thickness, construction,
with a machine employing hot-bar jaws. Impulse, high-
and other factors affecting rate of heat transfer from jaws to the
frequency, and ultrasonic heating methods are not included.
sealing interface.These include machine factors; (for example,
1.4 These practices apply primarily to webs intended to be
anti-stick jaw treatments, etc).
used on commercial machines employing reciprocating sealing
1.10 This standard does not purport to address all of the
jaws, such as most vertical form-fill packaging machines,
safety concerns, if any, associated with its use. It is the
platen heatsealers, etc. Conditions of dwell time and sealing
responsibility of the user of this standard to establish appro-
pressure on machines of this type typically are different from
priate safety and health practices and determine the applica-
those on rotary machines by an order of magnitude or more.
bility of regulatory limitations prior to use.
1.5 The procedures of these practices with respect to choice
ofheatsealingconditionsapplyequallywhethertheapplication
2. Referenced Documents
is to ultimate seal strength or hot tack measurement.
2
2.1 ASTM Standards:
1.6 Seals may be made between webs of the same or
F88 Test Method for Seal Strength of Flexible Barrier
dissimilar materials. The individual webs may be homoge-
Materials
neous in structure or multilayered (coextruded, coated, lami-
F 1921 Test Methods for Hot Seal Strength (Hot Tack) of
nated, etc.).
Thermoplastic Polymers and Blends Comprising the Sealing
1.7 Strength of the heatseal is the criterion for judging
Surfaces of Flexible Webs
heatsealability employed in these practices.
1.8 Determination of heatsealability as judged by seal con-
3. Terminology
tinuity, typically measured by air-leak, dye penetration, visual
3.1 Definitions:
examination, microorganism penetration or other techniques,
3.1.1 dwell time, n—the time interval when the sealing jaws
are not covered by these practices.
areincontactwith,andexertingpressureon,thematerialbeing
1.9 Two variations of the heatsealing procedure are de-
sealed.
scribed herein, differing in whether the objective of the testing
3.1.2 equilibrium dwell time, n—anydwelltimeinexcessof
is to determine, the heatsealability of the surface, or how well
that required for the seal strength to reach its maximum level
the entire web would heatseal in applications where the sealing
for the jaw temperature employed.
interface may not reach jaw temperature.
3.1.2.1 Discussion—Applies only when both jaws are at
1.9.1 Practice A, Heatsealability of a Surface—This
equal temperature (see Annex A1.3).
method measures sealability of the web surface, or sealant
3.1.3 heatseal curve, n—a plot of apparent seal strength
layer if there is one, as a function of interface temperature,
versus sealing temperature.
1 2
These practices are under the jurisdiction ofASTM Committee F02 on Flexible For referenced ASTM standards, visit the ASTM website, www.astm.org, or
Barrier Materials and are the direct responsibility of Subcommittee F02.20 on contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
Physical Properties. Standards volume information, refer to the standard’s Document Summary page on
Current edition approved May 10, 2000. Published July 2000. the ASTM website.
C
...

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Standard Practices for Making Laboratory Heat Seals for Determination of Heat Sealability of Flexible Barrier Materials as Measured by Seal Strength

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4.1 These practices facilitate the determination of laboratory heat sealability of flexible barrier materials. While it is necessary to have a heat seal layer that provides adequate seal strength for the application, other material properties, such as the overall construction and thickness, will impact the sealing properties of the material. These practices allow the impact of changes in material properties on heat sealability to be measured.  
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1.1 These practices cover laboratory preparation of heat seals. These practices also cover the treatment and evaluation of heat seal strength data for the purpose of determining heat sealability of flexible barrier materials. It does not cover the required validation procedures for the production equipment.  
1.2 Testing of seal strength or other properties of the heat seals formed by these practices is not included in this standard. Refer to Test Method F88 for testing heat seal strength. These practices do not apply to hot tack testing, which is covered in Test Methods F1921.  
1.3 The practices of this standard are restricted to preparing heat seals using a sealer employing hot-bar or impulse sealing methods, or both.  
1.4 These practices are intended to assist in establishing starting relationships for sealing flexible barrier materials. Additional guidance may be needed on how to set up sealing conditions for flexible barrier materials on commercial/production sealing equipment.  
1.5 Seals may be made between webs of the same or dissimilar materials. The individual webs may be homogeneous in structure or multilayered (coextruded, coated, laminated, and so forth).  
1.6 Strength of the heat seal as measured by Test Method F88 is the sole criterion for assessing heat sealability employed in these practices.  
1.7 Other aspects of heat sealability, such as seal continuity, typically measured by air-leak, dye penetration, visual examination, microorganism penetration, or other techniques, are not covered by these practices.  
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This specification covers coal tar adhesive with or without polymer modification suitable for brush, spray, squeegee and trowel application to coal tar built up and coal tar modified bitumen membrane roofings and flashings. The adhesive shall be classified as: Type I and Type II. Coal tar adhesive shall consist of a processed coal tar base, volatile solvents, mineral stabilizers, with or without polymer modifiers excluding asbestos, mixed to a smooth consistency. The following test methods shall be performed to conform with the requirements of the material: nonvolatile matter; water; ash; lap shear strength; and peel strength.
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Standard Test Method for Creep and Time to Failure of Adhesives in Static Shear by Compression Loading (Wood-to-Wood)

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4.1 Creep data that are obtained over a relatively short period of time in this test method can provide a measure of an adhesive bond's ability to withstand static loading in shear over a relatively long period of time. Creep measurements are made over a range of expected service conditions, including level of stress, temperature, relative humidity, and duration of load. Creep rate, creep strain, and creep modulus are calculated at the various service conditions.  
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SCOPE
1.1 This test method covers the determination of time-dependent properties of structural adhesives in wood-to-wood bonds when specimens are subjected to shearing stresses at various levels of static load, constant temperature, and relative humidity. Apparatus and procedures are provided for direct measurement of time-dependent shear deformation (creep) and time to failure of adhesive bonds under static load. Guidelines for selecting test conditions, methods for calculating creep rate, creep strain, creep modulus, and extrapolation of time to failure, are given along with methods of presenting these data.  
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1.1 This terminology standard is a compilation of definitions used in the science and technology of the adhesives industry. Terms that are generally understood or adequately defined in other readily available sources are not included.  
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4.1 Tension tests provide reasonably accurate information with regard to the tensile strength of adhesives. Tensile strength data may be suitable for specification acceptance, service evaluation, manufacturing control, research, and development. Tension tests are not considered significant for applications differing from the test in rate, direction, and type of loading.
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1.1 This test method covers the determination of the relative tensile strength of adhesives by the use of bar- and rod-shaped butt-joined specimens under defined conditions of preparation, conditioning, and testing. This test method is applicable to the testing of adhesives with various adherend materials in either similar or dissimilar combinations.  
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Standard Specification for Adhesives for Wood-Based Materials for Construction of Manufactured Homes

ABSTRACT
This specification provides the means to measure and evaluate the performance of adhesives for structural or semistructural bonding of wood-to-wood in manufactured homes. Wood as used in this specification includes lumber, plywood, particleboard, gypsum board, and all materials having woodbased surfaces at the bondline. The adhesives can be classified according to resistance to deformation: Group A or structural, and Group B or semistructural. Also, the adhesives may be designated into three types, according to their recommended use based on their resistance to water and water vapor: Type 1 for interior and exterior use, Type 2 for weather-protected interior use, and Type 3 for interior use only. Different tests shall be performed in order to determine the following properties of adhesives: shear strength, gap-filling ability, total deformation resistance, moisture and temperature limitation during fabrication, high-temperature resistance, low-temperature resistance, moisture resistance, aging, oxidation resistance, and mold resistance.
SCOPE
1.1 This specification provides the means to measure and evaluate the performance of adhesives for structural or semi-structural bonding of wood-to-wood in manufactured homes. Wood as used in this specification includes lumber, plywood, particleboard, gypsum board, and all materials having wood-based surfaces at the bondline. This specification does not cover other adhesives used in manufactured homes such as adhesives for carpet, floor tile, ceramic fixtures, plastic laminates, trim and millwork, and similar nonstructural applications.  
1.1.1 The performance of the adhesives is measured in the following tests:    
Number  
Test  
Section  
1  
Low Temperature  
16  
2  
Dry Lumber  
17  
3  
Gap-Filling  
18  
4  
High Temperature  
19  
5  
Type 3 Qualification  
20  
6  
Type 2 Qualification  
21  
7  
Aging, Film Oxidation  
22  
8  
Aging, Bond Oxidation  
23  
9  
Resistance to Deformation, Creep  
24  
10  
Mold  
25  
11  
Type 1 Qualification  
26  
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SCOPE
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SIGNIFICANCE AND USE
4.1 Structural design based on strength-of-materials principles requires knowledge of the mechanical properties of the structural components, including adhesives. By nature of their use, the most important property of adhesive is shear strength.  
4.2 Shear strength measured by this test method is suitable for use in adhesive development, manufacturing quality control, and in materials performance specifications, as well as structural design.
SCOPE
1.1 This test method covers the determination of comparative shear properties of gap-filling adhesives in wood-to-wood joints at specified thicknesses of bondline in the dry condition, when tested on standard specimens under specified conditions of preparation, conditioning, and loading in compression. This test method is intended as an evaluation of gap-filling adhesives such as those used to bond plywood to lumber, lumber to lumber, and other similar materials in building constructions.  
1.2 This test method also may be used to determine shear properties of gap-filling adhesives in species of wood and in thicknesses of bondline other than those specified for the comparative tests of shear properties within this test method. All procedures specified herein are applicable, excepting requirements for wood species and specific gravity, and thicknesses of bondlines.  
1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.  
1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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