Name: ASTM C1795-15 - Standard Test Methods for High-Temperature Characterization of Gypsum Boards and Panels
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Abstract

Standard Test Methods for High-Temperature Characterization of Gypsum Boards and Panels

SCOPE
1.1 These test methods describe three bench top test methods for measuring the thermophysical responses of gypsum boards and panels when exposed to high temperatures. The test methods are:
1.1.1 High-temperature Core Cohesion—This test method evaluates the ability of the test specimen to withstand a specified mechanical strain while exposed to elevated temperature.
1.1.2 High-temperature Shrinkage—This test method evaluates dimensional changes in the test specimen when exposed to elevated temperatures.
1.1.3 High-temperature Thermal Insulation—This test method evaluates the rate of heat transfer through the thickness of the test specimen by measuring the length of time required to heat the center of the test specimen over a specified temperature rise when exposed to prescribed furnace conditions.
1.2 The test methods appear in the following order:
Test Method
Section
High-temperature Core Cohesion
4
High-temperature Shrinkage
5
High-temperature Thermal Insulation
6
1.3 Units—The values stated in either inch-pound units or SI units (given in parenthesis) are to be regarded separately as standard. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard.
1.4 While these tests are useful for evaluating fire properties of gypsum boards and panels, they are not suitable for predicting the Test Methods E119 fire resistance performance of a specific gypsum protected assembly that has not previously been tested in accordance with Test Methods E119 and correlated to these tests.2
1.5 This standard is used to measure and describe the response of materials, products, or assemblies to heat and flame under controlled conditions, but does not by itself incorporate all factors required for fire hazard or fire risk assessment of the materials, products, or assemblies under actual fire conditions.
1.6 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 and health practices and determine the applicability of regulatory limitations prior to use.

General Information

Status

Historical

Publication Date

30-Nov-2015

ICS

13.220.50 - Fire-resistance of building materials and elements

91.060.10 - Walls. Partitions. Facades

Technical Committee

C11 - Gypsum and Related Building Materials and Systems

Drafting Committee

C11.01 - Specifications and Test Methods for Gypsum Products

Current Stage

Ref Project

Relations

Replaced By

ASTM C1795-17 - Standard Test Methods for High-Temperature Characterization of Gypsum Boards and Panels

Effective Date

01-Jun-2017

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ASTM C1795-15 - Standard Test Methods for High-Temperature Characterization of Gypsum Boards and Panels

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Standards Content (Sample)

ASTM C1795-15 - Standard Test ...

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: C1795 − 15
Standard Test Methods for
High-Temperature Characterization of Gypsum Boards and
1
Panels
This standard is issued under the ﬁxed designation C1795; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision.Anumber in parentheses indicates the year of last reapproval.A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
1. Scope ously been tested in accordance with Test Methods E119 and
2
correlated to these tests.
1.1 These test methods describe three bench top test meth-
1.5 This standard is used to measure and describe the
ods for measuring the thermophysical responses of gypsum
response of materials, products, or assemblies to heat and
boardsandpanelswhenexposedtohightemperatures.Thetest
ﬂame under controlled conditions, but does not by itself
methods are:
incorporate all factors required for ﬁre hazard or ﬁre risk
1.1.1 High-temperature Core Cohesion—This test method
assessment of the materials, products, or assemblies under
evaluates the ability of the test specimen to withstand a
actual ﬁre conditions.
speciﬁedmechanicalstrainwhileexposedtoelevatedtempera-
1.6 This standard does not purport to address all of the
ture.
safety concerns, if any, associated with its use. It is the
1.1.2 High-temperature Shrinkage—Thistestmethodevalu-
responsibility of the user of this standard to establish appro-
atesdimensionalchangesinthetestspecimenwhenexposedto
priate safety and health practices and determine the applica-
elevated temperatures.
bility of regulatory limitations prior to use.
1.1.3 High-temperature Thermal Insulation—This test
methodevaluatestherateofheattransferthroughthethickness 2. Referenced Documents
of the test specimen by measuring the length of time required
2.1 ASTM Standards:
to heat the center of the test specimen over a speciﬁed
C11Terminology Relating to Gypsum and Related Building
temperature rise when exposed to prescribed furnace condi-
Materials and Systems
tions.
E119Test Methods for Fire Tests of Building Construction
and Materials
1.2 The test methods appear in the following order:
E631Terminology of Building Constructions
Test Method Section
2.2 Other Standards:
High-temperature Core Cohesion 4
EN 520Gypsum Plasterboards—Deﬁnitions, Requirements
High-temperature Shrinkage 5
High-temperature Thermal Insulation 6
and Test Methods
1.3 Units—The values stated in either inch-pound units or
3. Terminology
SI units (given in parenthesis) are to be regarded separately as
standard. The values stated in each system may not be exact
3.1 General—Refer to Terminologies C11 and E631 for
equivalents;therefore,eachsystemshallbeusedindependently standard terminology on gypsum and related building
materials, systems and building construction.
of the other. Combining values from the two systems may
result in non-conformance with the standard.
3.2 Deﬁnitions of Terms Speciﬁc to This Standard:
3.2.1 Thermal Insulation Index (TI), n—asinglevalueindex
1.4 Whilethesetestsareusefulforevaluatingﬁreproperties
that denotes the rate of heating at the center of the Thermal
of gypsum boards and panels, they are not suitable for
Insulation Test specimen as determined by the elapsed time to
predicting the Test Methods E119 ﬁre resistance performance
the nearest minute for the temperature to rise from 104 to
of a speciﬁc gypsum protected assembly that has not previ-
392°F (40 to 200°C).
1
ThistestmethodisunderthejurisdictionofASTMCommitteeC11onGypsum
2
and Related Building Materials and Systems and is the direct responsibility of Shipp, P. H., andYu, Q., “Thermophysical Characterization of Type X Special
Subcommittee C11.01 on Speciﬁcations and Test Methods for Gypsum Products. Fire Resistant Gypsum Board,” Proceedings of the Fire and Materials 2011
Current edition approved Dec. 1, 2015. Published January 2016. DOI: 10.1520/ Conference, San Francisco, Jan. 1, 2011 – Feb. 2, 2011, Interscience Communica-
C1795-15 tions Ltd., London, UK, pp417-426.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
1

---------------------- Page: 1 ----------------------
C1795 − 15
4. High-temperature Core Cohesion the hanger strap. The loading weight may be conﬁgured as a
cup or disk to receive weighted shot or slotted disks to adjust
4.1 Summary of Test Method—The high-temperature core
the weight for different test specimen thicknesses. The total
cohesion of gypsum panel products is evaluated by applying a
weight of the entire loading device (hanger strap, loading
shear force and bending moment to a cantilevered test speci-
weight, suspension wire or hook) shall correspond to the
men by hanging a weight from the free end of the specimen.
nominal thickness of
...

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Standard Test Method for Determining the Fire Resistance of Continuity Head-of-Wall Joint Systems Installed Between Rated Wall Assemblies and Nonrated Horizontal Assemblies

SIGNIFICANCE AND USE
5.1 This test method evaluates the following under the specified test conditions:
5.1.1 The ability of a test specimen to undergo movement without reducing its fire resistance rating, and
5.1.2 The duration for which a test specimen will contain a fire and retain its integrity during a predetermined fire resistive test exposure.
5.2 This test method provides for the following measurements and evaluations where applicable:
5.2.1 Ability of the test specimen  to movement cycle.
5.2.2 Ability of the test specimen  to prohibit the passage of flames and hot gases.
5.2.3 Transmission of heat through the test specimen.
5.2.4 Ability of the test specimen  to resist the passage of water during a hose stream test.
5.3 This test method does not provide the following:
5.3.1 Any information about the rated wall assembly because its performance has already been determined.
5.3.2 Evaluation of the degree by which the test specimen contributes to the fire hazard by generation of smoke, toxic gases, or other products of combustion.
5.3.3 Measurement of the degree of control or limitation of the passage of smoke or products of combustion through the test specimen.
5.3.4 Measurement of flame spread over the surface of the test specimen.
Note 3: The information in 5.3.1 – 5.3.4 may be determined by other suitable fire resistive test methods. For example, 5.3.4 may be determined by Test Method E84.
5.4 In this procedure, the test specimens are subjected to one or more specific tests under laboratory conditions. When different test conditions are substituted or the end-use conditions are changed, it is not always possible by, or from, this test method to predict changes to the characteristics measured. Therefore, the results are valid only for the exposure conditions described in this test method.
SCOPE
1.1 This fire-test-response test method measures the performance of a unique fire resistive joint system called a continuity head-of-wall joint system, which is designed to be used between a rated wall assembly and a nonrated horizontal assembly during a fire resistance test.
1.2 This fire-test-response standard does not measure the performance of the following:
1.2.1 The rated wall assembly, which is already established by other test methods, such as Test Method E119, or
1.2.2 The nonrated horizontal assembly, which would be established by other test methods such as Test Method E119.
Note 1: Typically, rated wall assemblies obtain a fire resistance rating after being tested to Test Method E119, NFPA 251, UL 263, CAN/ULC-S101, or other similar fire resistive test methods.
1.3 This fire-test-response standard is not intended to evaluate the connections between rated wall assemblies and nonrated horizontal assemblies  unless part of the continuity head-of-wall joint system.
1.4 The fire resistive test end point is the period of time elapsing before the first performance criteria is reached when the continuity head-of-wall joint system is subjected to one of two time-temperature fire exposures.
1.5 The fire exposure conditions used are either those specified by Test Method E119 for testing assemblies to standard time-temperature exposures or Test Method E1529 for testing assemblies to rapid-temperature rise fires.
1.6 This test method specifies the heating conditions, methods of test, and criteria to establish a fire resistance rating only for a continuity head-of-wall joint system.
1.7 Test results establish the performance of continuity head-of-wall joint systems to maintain continuity of fire resistance of the rated wall assembly where the continuity head-of-wall joint system interfaces with a nonrated horizontal assembly during the fire-exposure period.
1.8 Test results shall not be construed as having determined the continuity head-of-wall joint system, nonrated horizontal assembly and the rated wall assembly’s suitability for use after that ...

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ASTM E2707-22(Test Method)

Standard Test Method for Determining Fire Penetration of Exterior Wall Assemblies Using a Direct Flame Impingement Exposure

SIGNIFICANCE AND USE
5.1 The test method described herein measures the ability of the exterior wall covering material or system to resist fire penetration from the exterior to the unexposed side of the wall assembly under the specified conditions of exposure.
5.2 Representative joints and other characteristics of an assembly shall be included in a test specimen when these details are representative of the construction of the end-use product(s).
5.3 This test method is applicable to end-use product(s) not having an ideally planar external surface.
5.4 The overall performance of the test specimen is visually documented by full-color photographic records. Video recording of the complete fire test is an acceptable alternative to the photographic record. Infrared photography of the unexposed side of the test wall can be used to identify areas of increasing temperatures or persisting hot spots.
5.5 In this procedure, the specimens are subjected to a specific set of laboratory fire test exposure conditions. If different test conditions are substituted or the anticipated end-use conditions are changed, it is not known whether it is possible by use of this test to predict changes in the performance characteristics measured. Therefore, the results are strictly valid only for the fire test exposure conditions described in this procedure.
SCOPE
1.1 This fire-test-response standard prescribes a method to assess the fire performance of a vertically oriented specimen exposed to direct flame impingement in a simulated external fire exposure potentially encountered in a ‘Wildland Urban Interface’ scenario. This test method provides data suitable for comparing the performance of materials, which are used as the exposed surfaces of exterior walls in construction applications.
Note 1: This test method closely follows the test procedure of California Office of State Marshal (SFM) Method 12-7A-1.2
1.2 This test method measures the ability of the wall system to resist fire penetration from the exterior into the wall cavity or unexposed side of the test assembly under the conditions of exposure.
1.3 This test method provides data suitable for comparing the performance of vertically oriented materials, products or assemblies in exterior construction applications. The test specimen shall be tested in thicknesses and configurations representative of actual end product or system uses.
1.4 Limitations of the test method are listed in Section 5.5.
1.5 The system of units to be used in referee decisions is the SI system of units; see IEEE/ASTM SI-10 for further details. The units given in parentheses are for information only.
1.6 This standard is used to measure and describe the response of materials, products, or assemblies to heat and flame under controlled conditions, but does not by itself incorporate all factors required for fire hazard or fire risk assessment of the materials, products, or assemblies under actual fire conditions.
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1.8 Fire testing is inherently hazardous. Adequate safeguards for personnel and property shall be employed in conducting these tests.
1.9 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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ASTM D6513-21(Practice)

Standard Practice for Calculating the Superimposed Load on Wood-frame Walls for Standard Fire-Resistance Tests

SIGNIFICANCE AND USE
4.1 Test Methods E119 and E1529, and other standard fire resistance test methods specify that throughout exposures to fire and the hose stream, a constant superimposed axial load be applied to a load-bearing test specimen to simulate a maximum load condition. These test methods specify that this superimposed load shall be as nearly as practicable the maximum allowable axial design load allowed by design under nationally recognized structural design criteria. For this practice, the nationally recognized structural design criteria is the National Design Specification (NDS) for Wood Construction
4.1.1 Alternatively, the standard fire resistance test methods shall be conducted by applying an axial load that is less than the maximum allowable axial design load as addressed by the NDS and this practice, but these tests shall be identified in the test report as being conducted under restricted load conditions.
4.1.2 The superimposed axial load, as well as the superimposed axial load as a percentage of the maximum allowable axial design load for the stud and as a percentage of the maximum allowable design load for the plate, shall be calculated using the Allowable Stress Design (ASD) method in the NDS and this practice shall be included in the test report.
Note 1: The NDS should be used to ensure calculation of the superimposed load is in compliance with all applicable provisions of that document. Appendix X1 describes how to calculate the superimposed load in accordance with the NDS.
4.2 This practice describes procedures for calculating the superimposed axial load to be applied in standard fire resistance tests of wood-frame wall assemblies.
4.3 Statements in either the fire resistance test method standard or the nationally recognized structural design standard supersede any procedures described by this practice.
SCOPE
1.1 This practice covers procedures for calculating the superimposed axial load required to be applied to load-bearing wood-frame walls throughout standard fire-resistance and fire and hose-stream tests.
1.2 The calculations determine the maximum load allowed by design for wood-frame wall assemblies under nationally recognized structural design criteria.
1.3 This practice is only applicable to those wood-frame assemblies for which the nationally recognized structural design criteria are contained in the National Design Specification for Wood Construction (NDS).2
1.4 The system of units to be used is that of the nationally recognized structural design criteria. For the NDS, the units are inch-pound.
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SIGNIFICANCE AND USE
5.1 This test method is intended to standardize the cyclic movement of a through-penetration firestop system prior to a fire resistance test. If the amplitude of movement in a design application can be predicted, then the numerical values of allowable movement can be used as one data point in helping to establish suitability of the through-penetration firestop system for the given application.
Note 4: The fire resistance rating of a through-penetration firestop system is established in accordance with a relevant fire test, as acceptable to the Authority Having Jurisdiction. Examples of such tests include Test Method E814, CAN/ULC-S115, UL 1479, and ISO 10295-1.
5.2 This test method will assist users, producers, building officials, code authorities, and others in understanding relative movement capabilities of representative test specimens of through-penetration firestop systems under standardized test conditions.
5.3 This test method is not intended to predict the absolute movement capabilities of all likely permutations of through-penetration firestop systems under all likely types of real-life movement.
5.4 This test method does not provide information on:
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5.4.2 Rotational shear capabilities of the test specimen;
5.4.3 Any other attributes of the test specimen, such as wear resistance, chemical resistance, air infiltration, water-tightness, and so forth; and
5.4.4 Compatibility of through-penetration firestop system components and the penetrating items.
5.5 This test method is only to be used as one element in the selection of a through-penetration firestop system for a particular application.
5.6 This is not a fire test standard. To determine the effect of cyclic movement on the fire resistance rating of a though-penetration firestop system, conduct a fire ...
SCOPE
1.1 This test method covers testing procedures for through-penetration firestop systems. This test method is intended for the following uses:
Note 1: Refer to Test Method E814 for definition of “through-penetration firestop system.”
1.1.1 To determine relative movement capability in two separate and distinct planes of movement for different types of through-penetration firestop systems,
1.1.2 To standardize a comparison of movement capability by establishing standardized test conditions, in order to allow the type of through-penetration firestop system’s movement capabilities to be examined,
1.1.3 To provide the user with information on amplitudes of relative movement between the penetrating items and the substrate (concrete-based or gypsum-based).
Note 2: Amplitude is the measure of change over a single cycle.
1.2 This test method is intended to be used only as part of a specification or acceptance criteria due to the limited movements tested, and limited number of variables examined.
1.3 This test method uses standardized configurations for the test specimen. Test results will not be representative of all possible through-penetration firestop systems.
1.4 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.
1.5 The text of this standard references notes, comments, and footnotes which provide explanatory material. These notes, comments, and footnotes (excluding those in tables and figures) shall not be considered requirements of this standard.
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Standard Guide for Ecological Considerations for the Use of Oil Spill Dispersants in Freshwater and Other Inland Environments, Lakes and Large Water Bodies

SIGNIFICANCE AND USE
3.1 This guide is meant to aid response teams who may use it during spill response planning and spill events.
3.2 This guide should be adapted to site specific circumstance.
SCOPE
1.1 This guide covers the use of oil spill dispersants to assist in the control of oil spills. The guide is written with the goal of minimizing the environmental impacts of oil spills; this goal is the basis on which the recommendations are made. Aesthetic and socioeconomic factors are not considered, although these and other factors are often important in spill response.
1.2 Spill responders have available several means to control or clean up spilled oil. Chemical dispersants should be given equal consideration with other spill countermeasures.
1.3 This is a general guide only. Oil, as used in this guide, includes crude oils and refined petroleum products. Differences between individual dispersants or between different oil products are not considered. The dispersibility of the oil with the chosen dispersant should be evaluated.
1.4 The guide is organized by habitat type, for example, small ponds and lakes, rivers and streams, and land. It considers the use of dispersants primarily to protect habitats from impact (or to minimize impacts).
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1.7 This guide does not address getting regulatory approval.
1.8 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.
1.9 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.
1.10 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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SIGNIFICANCE AND USE
4.1 This test method establishes a selected set of conditions of temperature, relative humidity and rate of evaporation of the environment to which a mortar specimen of stated composition shall be subjected for a specified period of time during which its change in length is determined and designated “drying shrinkage.”
4.2 The drying shrinkage of mortar as determined by this test method has a linear relation to the drying shrinkage of concrete made with the same cement and exposed to the same drying conditions.4 Hence this test method may be used when it is desired to develop data on the effect of a hydraulic cement on the drying shrinkage of concrete made with that cement.
SCOPE
1.1 This test method determines the change in length on drying of mortar bars containing hydraulic cement and graded standard sand.
1.2 The values stated in SI units are to be regarded as standard. When combined standards are referenced, the selection of measurement system is at the user’s discretion subject to the requirements of the referenced standard.
1.3 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. Warning—Fresh hydraulic cementitious mixtures are caustic and may cause chemical burns to skin and tissue upon prolonged exposure).2
1.4 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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SCOPE
1.1 This specification covers preformed expansion joint filler having relatively little extrusion and substantial recovery after release from compression.
1.2 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.
Note 1: Attention is called to Specifications D1752 and D994/D994M.
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This specification covers hot- and cold-worked precipitation-hardenable nickel alloy rod, bar, forgings, and forging stock for high-temperature service. Chemical analysis shall be performed on the alloy and shall conform to the chemical composition requirement in carbon, manganese, silicon, phosphorus, sulfur, chromium, cobalt, molybdenum, columbium, tantalum, titanium, aluminum, zirconium, boron, iron, copper, and nickel. The material shall follow recommended annealing treatment, solution treatment, stabilizing treatment, and precipitation hardening treatment. Tension testing, hardness testing and stress-rupture testing shall be performed on the material and shall comply to the required tensile strength, yield strength, elongation, reduction in area, and Brinell hardness.
SCOPE
1.1 This specification2 covers hot- and cold-worked precipitation-hardenable nickel alloy rod, bar, forgings, and forging stock for moderate or high temperature service (Table 1).
1.2 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.
1.3 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 become familiar with all hazards including those identified in the appropriate Safety Data Sheet (SDS) for this product/material as provided by the manufacturer, to establish appropriate safety, health, and environmental practices, and determine the applicability of regulatory limitations prior to use.
1.4 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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