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ASTM F1370-92(2011)

(Specification)

Standard Specification for Pressure-Reducing Valves for Water Systems, Shipboard

Standard Specification for Pressure-Reducing Valves for Water Systems, Shipboard

ABSTRACT
This specification establishes the construction, coding, and performance requirements for self-contained, globe style, pressure-reducing valves used in water systems of shipboard installations that are limited to discharge pressure settings of 200 psig (1379 kPa) and below. The valves shall be either the pressurized spring chamber type (Type I) or unpressurized spring chamber type (Type II). They shall be tested for their conformance with hydrostatic proof, seat tightness, set pressure limits, and capacity.
SCOPE
1.1 This specification covers self-contained, globe style, pressure-reducing valves for use in water systems of shipboard installations. These valves are limited to discharge pressure settings of 200 psig (1379 kPa) and below.
1.2 The values stated in inch-pound units are to be regarded as the standard. The values given in parentheses are for information only.
1.3 The following precautionary caveat pertains only to the tests portion, Section 8, of this specification: 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
31-Oct-2011
ICS
23.060.40 - Pressure regulators
47.020.30 - Piping systems
Technical Committee
F25 - Ships and Marine Technology
Drafting Committee
F25.11 - Machinery and Piping Systems
Current Stage
Ref Project

Relations

Replaces
ASTM F1370-92(2005) - Standard Specification for Pressure-Reducing Valves for Water Systems, Shipboard
Effective Date
01-Nov-2011
Replaced By
ASTM F1370-92(2019)e1 - Standard Specification for Pressure-Reducing Valves for Water Systems, Shipboard
Effective Date
01-Aug-2019
Referred By
ASTM F1994-99(2023) - Standard Test Method for Shipboard Fixed Foam Firefighting Systems
Effective Date
01-Nov-2011

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ASTM F1370-92(2011) - Standard Specification for Pressure-Reducing Valves for Water Systems, ShipboardASTM F1370-92(2011) - Standard Specification for Pressure-Reducing Valves for Water Systems, Shipboard
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ASTM F1370-92(2011) - Standard Specification for Pressure-Reducing Valves for Water Systems, Shipboard
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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:F1370 −92 (Reapproved 2011) An American National Standard
Standard Specification for
Pressure-Reducing Valves for Water Systems, Shipboard
This standard is issued under the fixed designation F1370; 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 (´) indicates an editorial change since the last revision or reapproval.
This standard has been approved for use by agencies of the U.S. Department of Defense.
1. Scope A276 Specification for Stainless Steel Bars and Shapes
A313/A313M Specification for Stainless Steel Spring Wire
1.1 This specification covers self-contained, globe style,
A689 Specification for Carbon and Alloy Steel Bars for
pressure-reducing valves for use in water systems of shipboard
Springs
installations. These valves are limited to discharge pressure
B21/B21M Specification for Naval Brass Rod, Bar, and
settings of 200 psig (1379 kPa) and below.
Shapes
1.2 The values stated in inch-pound units are to be regarded
B26/B26M Specification for Aluminum-Alloy Sand Cast-
as the standard. The values given in parentheses are for
ings
information only.
B61 Specification for Steam or Valve Bronze Castings
1.3 The following precautionary caveat pertains only to the B62 Specification for Composition Bronze or Ounce Metal
tests portion, Section 8, of this specification: This standard
Castings
does not purport to address all of the safety concerns, if any, B148 Specification for Aluminum-Bronze Sand Castings
associated with its use. It is the responsibility of the user of this
B150/B150M Specification forAluminum Bronze Rod, Bar,
standard to establish appropriate safety, health, and environ- and Shapes
mental practices and determine the applicability of regulatory
B637 Specification for Precipitation-Hardening and Cold
limitations prior to use. Worked Nickel Alloy Bars, Forgings, and Forging Stock
1.4 This international standard was developed in accor-
for Moderate or High Temperature Service
dance with internationally recognized principles on standard- B689 Specification for Electroplated Engineering Nickel
ization established in the Decision on Principles for the
Coatings
Development of International Standards, Guides and Recom- F467 Specification for Nonferrous Nuts for General Use
mendations issued by the World Trade Organization Technical
F468 Specification for Nonferrous Bolts, Hex Cap Screws,
Barriers to Trade (TBT) Committee.
Socket Head Cap Screws, and Studs for General Use
F593 Specification for Stainless Steel Bolts, Hex Cap
2. Referenced Documents
Screws, and Studs
2.1 ASTM Standards:
F594 Specification for Stainless Steel Nuts
A125 Specification for Steel Springs, Helical, Heat-Treated
2.2 ANSI Standards:
A193/A193M Specification for Alloy-Steel and Stainless
ANSI B1.1 Unified Screw Threads
Steel Bolting for High Temperature or High Pressure
ANSI B1.12 Class 5 Interference, Fit Thread
Service and Other Special Purpose Applications
2.3 ISA Standards:
A194/A194M Specification for Carbon Steel, Alloy Steel,
S75.01 Flow Equations for Sizing Control Valves
and Stainless Steel Nuts for Bolts for High Pressure or
S75.02 Control Valve Capacity Test Procedure
High Temperature Service, or Both
2.4 Federal Specifications:
A231/A231M Specification for Chromium-Vanadium Alloy
QQ-B-637 Brass, Naval: Rod, Wire, Shapes, Forgings, and
Steel Spring Wire
Flat Products with Finished Edges (Bar, Flat Wire, and
Strip)
This specification is under the jurisdiction of ASTM Committee F25 on Ships QQ-C-390 Copper Alloy Casting (Including Cast Bar)
and Marine Technology and is the direct responsibility of Subcommittee F25.11 on
Machinery and Piping Systems.
Current edition approved Nov. 1, 2011. Published November 2011. Originally Available fromAmerican National Standards Institute (ANSI), 25 W. 43rd St.,
approved in 1992. Last previous edition approved in 2005 as F1370 – 92 (2005). 4th Floor, New York, NY 10036, http://www.ansi.org.
DOI: 10.1520/F1370-92R11. Available from Instrumentation, Systems, andAutomation Society, 67Alexan-
For referenced ASTM standards, visit the ASTM website, www.astm.org, or der Dr., Research Triangle Park, NC 27709.
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM Available from Standardization Documents Order Desk, DODSSP, Bldg. 4,
Standards volume information, refer to the standard’s Document Summary page on Section D, 700 Robbins Ave., Philadelphia, PA 19111-5098, http://
the ASTM website. dodssp.daps.dla.mil.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
F1370−92 (2011)
QQ-C-465 Copper-Aluminum Alloys (Aluminum Bronze) to any combination of inlet pressure, flow demand, and
(CopperAlloy Numbers 606, 6014, 630, 632M, and 642); ambient temperature variations within the specified limits.
Rod, Flat Products with Finished Edges (Flat Wire, Strip,
3.1.2 design pressure and temperature—the maximum pres-
and Bar) Shapes, and Forgings
sure and temperature the valve should be subjected to under
QQ-N-281 Nickel-Copper Alloy Bar, Rod, Plate, Sheet,
any condition; these are the pressure and temperature upon
Strip, Wire, Forgings, and Structural and Special Shaped
which the strength of the pressure-containing envelope is
Sections
based.
QQ-N-286 Nickel-Copper-AluminumAlloy, Wrought (UNS
3.1.3 hydrostatic proof test pressure—the maximum test
N05500)
pressure that the valve is required to withstand without
QQ-N-288 Nickel-Copper Alloy and Nickel-CopperSilicon
damage; valve operation is not required during application of
Alloy, Castings
this test pressure, but the valve must meet all performance
QQ-S-763 Steel Bars, Wire, Shapes, and Forgings, Corro-
requirements after the pressure has been removed.
sion Resisting
3.1.4 lockup pressure—the outlet pressure delivered by a
QQ-S-766 Steel Corrosion Resisting Plate, Sheet and Strip
pressure-reducing valve when the flow is reduced to zero;
QQ-W-390 Wire, Nickel-Chromium-Iron Alloy
lockup pressure is always greater than set pressure, and in
TT-P-645 Primer Paint, Zinc Chromate, Alkyd Type
actual practice it may vary with the specific valve design,
2.5 Military Standards and Specifications:
tolerances,methodofsensingdownstreampressure,andpiping
MIL-V-3 Valves, Fittings, and Flanges (Except for Systems
configurations.
Indicated Herein), Packaging of
3.1.5 nominal pressure—the approximate maximum pres-
MIL-S-901 Shock Tests, H.I. (High Impact), Shipboard
sure to which the valve will be subjected in service under
Machinery, Equipment and Systems, Requirements for
normal conditions.
MIL-F-1183 Fittings, Pipe, Cast Bronze, Silver-Brazing,
General Specification for
3.1.6 set pressure—the downstream pressure that the valve
DOD-P-15328 Primer (Wash), Pretreatment (Formula No.
issettomaintainunderagivensetofoperatingconditions(that
117 for Metals) (Metric)
is, inlet pressure and flow); the valve should ideally be set at
MIL-F-20042 Flanges, Pipe and Bulkhead, Bronze (Silver
downstream pressure approximately equal to the midpoint of
Brazing)
the set pressure limits (defined in 3.1.7).
MIL-C-20159 Copper-Nickel Alloy Casting (UNS No.
3.1.7 set pressure limits (set pressure adjustable range)—
C96200 and C96400)
the range of set pressure over which the valve can be adjusted
MIL-F-24227 Fittings and Flanges, Cast Bronze, Silver
while meeting the specified performance requirements.
Brazing Suitable for Ultrasonic Inspection
MIL-B-24480 Bronze, Nickel-Aluminum (UNS No.
4. Classification
C95800) Castings for Seawater Service
4.1 Valves shall be of the following types and pressure
MIL-S-81733 Sealing and Coating Compound, Corrosion
ratings, as specified (see Section 5 and 6.1.21).
Inhibitive
4.1.1 Type I—Pressurized spring chamber, and
MIL-STD-167-1 Mechanical Vibrations of Shipboard
4.1.2 Type II—Unpressurized spring chamber.
Equipment (Type I—Environmental, and Type II—
Internally Excited)
4.2 Pressure Ratings—Valves shall have nominal inlet pres-
MIL-STD-248 Welding and Brazing Procedure and Perfor-
sure ratings of 150 or 250 psig (1034 or 1724 kPa), or as
mance Qualification
specified (see 6.1.21).
MIL-STD-278 Welding and Casting Standard
MIL-STD-798 Non-destructive Testing, Welding, Quality
5. Ordering Information
Control,MaterialControlandIdentification,andHi-shock
5.1 Ordering documentation for valves in accordance with
Test Requirements for Piping System Components for
this specification shall include the following information, as
Naval Shipboard Use
required, to describe the equipment adequately.
2.6 Other Publications:
5.1.1 ASTM designation and year of issue,
Naval Sea Systems Command (NAVSEA)
5.1.2 Valve specification code (see 6.1.21),
2.7 Drawings:
5.1.3 Quantity of valves,
803-1385946 Union Bronze, Silver Brazing WOG for UT
5.1.4 Set pressure required,
Inspection
5.1.5 Set pressure limits, if not listed in 7.1.4,
803-1385947 Flanges, Bronze, 700 PSI WOG for UT
5.1.6 Face-to-face dimensions for valves, if not listed in
Inspection
Table 1,
5.1.7 Regulation accuracy required, if other than as given in
3. Terminology
7.1.5,
5.1.8 When a choke feature is required (see 6.1.2),
3.1 Definitions of Terms Specific to This Standard:
3.1.1 accuracy of regulation—the amount by which the 5.1.9 When tailpieces and nuts are required (see 6.1.15),
downstream pressure may vary when the valve is set at any 5.1.10 Capacity requirement of valves, if not listed in Table
pressure within the required set pressure limit and is subjected 2 (see 7.1.6), and
F1370−92 (2011)
TABLE 1 Face-to-Face Dimensions, in. (mm), ± ⁄16 (1.59)
Flanged End Union End Flanged End Union End
150 and 250 psig
Size, in. (mm)
150 psig 250 psig 400 psig 700 psig 400 psig 700 psig
(1034 and 1724
(1034 kPa) (1724 kPa) (2758 kPa) (4826 kPa) (2758 kPa) (4826 kPa)
kPa)
1 7 7 7 7
0.25 (6.35) 7 ⁄4 7 ⁄8 7 ⁄32 7 ⁄8 7 ⁄32
1 7 9 9 9
0.37 (9.40) 7 ⁄4 (184) 7 ⁄8 (200) 7 ⁄32 (185) 7 ⁄32 (185) 7 ⁄32 (185)
1 7 9 1 1 9 9
0.50 (12.7) 7 ⁄4 (184) 7 ⁄8 (200) 7 ⁄32 (185) 6 ⁄2 (165) 6 ⁄2 (165) 7 ⁄32 (185) 7 ⁄32 (185)
3 7 1 1 1
0.75 (19.05) 7 ⁄8 (187) 7 ⁄8 (200) 7 ⁄2 (191) 7 ⁄2 (191) 7 ⁄2 (191) 8 (203) 8 (203)
3 1 1 1 3 3
1.00 (25.4) 7 ⁄8 (187) 8 (203) 7 ⁄2 (191) 8 ⁄2 (216) 8 ⁄2 (216) 8 ⁄4 (222) 8 ⁄4 (222)
15 11 5 1 1
1.25 (31.75) 7 ⁄16 (202) 8 ⁄16 (221) 8 ⁄32 (207) 9 (229) 9 (229) 9 ⁄2 (241) 9 ⁄2 (241)
3 1 31 1 1
1.50 (38.1) 8 ⁄4 (222) 9 ⁄2 (241) 8 ⁄32 (228) 9 ⁄2 (241) 9 ⁄2 (241) 10 (254) 10 (254)
3 7 1 1 7 7
2.00 (50.8) 10 (254) 10 ⁄4 (273) 10 ⁄32 (260) 11 ⁄2 (292) 11 ⁄2 (292) 11 ⁄8 (302) 11 ⁄8 (302)
7 3
2.50 (63.5) 10 ⁄8 (276) 11 ⁄4 (298) 13 (330) 13 (330)
5 1
3.00 (76.2) 11 ⁄8 (295) 12 ⁄2 (318) 14 (356) 14 (356)
5 5
3.50 (88.9) 11 ⁄8 (295) 12 ⁄8 (321)
1 1
4.00 (101.6) 13 ⁄2 (343) 14 ⁄2 (368) 16 (406) 17 (432)
TABLE 2 Minimum Required Valve C for Types I and II, 150 and 250 psig (1034 and 1724 kPa) Rated Valves with 5 to 30 psig (34 to 207
v
kPa), 25 to 60 psig (172 to 414 kPa), and 50 to 100 psig (345 to 689 kPa) Set Pressure Adjustable Ranges
5 to 30 psig (34 to 207 kPa) 25 to 60 (172 to 414 kPa) psig 50 to 100 psig (345 to 689 kPa)
Set Pressure Adjustable Range Set Pressure Adjustable Range Set Pressure Adjustable Range
Size, in. (mm)
Set Pressure, psig (kPa)
10 (69) 20 (138) 30 (207) 30 (207) 45 (310) 60 (414) 60 (414) 80 (552) 100 (689)
0.25 (6.35) 0.7 0.9 1.0 0.6 0.7 0.9 0.5 0.6 0.7
0.37 (9.40) 1.4 1.8 2.0 1.2 1.4 1.8 1.0 1.2 1.4
0.50 (12.70) 2.5 3 3.5 2 2.5 3 1.5 2.0 2.5
0.75 (19.05) 3 3.5 4 2.5 3 3.5 2.0 2.5 3.0
1.00(25.40) 456345 2.6 3.3 4.0
1.25 (31.75) 5.5 7.5 9 5 7 8.5 3.5 4.5 5.5
1.50 (38.10) 7 10 12 6.5 9.5 11.5 5.0 6.0 7.0
2.00 (50.80) 15 20 25 12 17 22 11 13 15
2.50 (63.50) 30 35 40 25 30 35 24 27 30
3.00 (76.20) 45 50 55 40 45 50 35 40 45
3.50 (88.90) 55 60 65 50 55 60 45 50 55
4.00 (101.60) 70 75 80 65 70 75 60 65 70
5.1.11 Supplementary requirements, if any (see S1 through structural failure and shall limit external leakage to a small
S4). seepage (in drip form) past the adjusting screw threads and
spring chamber joint. Type I valves shall also incorporate a
6. Valve Construction and Coding
choke feature on the poppet to limit capacity in the event of a
diaphragm failure, where specified (see Section 5). Type II
6.1 Valves shall incorporate the design features specified in
valves shall be valves in which the spring chamber does not
6.1.1 through 6.1.21.
form part of the pressure-containing envelope.
6.1.1 Materials of Construction—Materials shall be as
6.1.3 Pressure Envelope Rating—The nominal inlet (see
specified in Table 3. All materials shall be selected to prevent
3.1.5), design (see 3.1.2), and hydrostatic proof test (see 3.1.3)
corrosion, galling, seizing, excessive wear, or erosion where
pressures for the pressure-containing envelope (body, spring
applicable. Cadmium plating is prohibited.
housing, and bottom cap) shall be as specified in Table 4. The
6.1.2 General Requirements—Valves shall be self-
design temperature (see 3.1.2) is also given in Table 4.
contained, spring-loaded, direct-operated, pressure-reducing
6.1.4 Body Passages—Body passages shall produce gradual
valves incorporating a balanced valve element. Reduced pres-
sure (not to exceed 200 psig (1379 kPa)) shall be sensed by a changes in flow direction so as to reduce any effects of
concentrated impingement and 90° turns. In portions of the
diaphragm and compared with a reference spring load. Any
force imbalance shall be transmitted directly to and positively valve subject to velocity increases and flow direction changes,
such as immediately downstream of the seat, the 90° impinge-
reposition a single-seated valve element to limit the set point
error within the limits specified in 7.1.5. Type I valves shall be ment against the walls at close range shall be avoided. The
body cavity downstream of the seat shall present a high angle
valves in which the spring chamber in combination with the
body and bottom cap forms a pressure-containing envelope (70 to 90°) of incidence to the issuing jet. At points at which
direct impingement at close range does occur and cannot be
capable of withstanding the full hydrostatic proof test. These
valves shall be specified for special applications in which it is eliminated, the section thickness shall be increased substan-
tially to provide adequate material to withstand the additional
necessarytocontainthelinemediaintheeventofafailurethat
subjects the spring chamber to full inlet pressure. The spring erosive effect.
chamber assembly need not be leakproof; however, it shall 6.1.5 Diaphragm Construction—The main diaphragm shall
contain line media at hydrostatic proof test pressure without be
...

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Note 1: For information on the significance of the terminology and test methods used in this specification, see Appendix X1.
Note 2: A more detailed description of the grades of fuel oils is given in X1.3.  
1.2 This specification is for the use of purchasing agencies in formulating specifications to be included in contracts for purchases of fuel oils and for the guidance of consumers of fuel oils in the selection of the grades most suitable for their needs.  
1.3 Nothing in this specification shall preclude observance of federal, state, or local regulations which can be more restrictive.  
1.4 The values stated in SI units are to be regarded as standard.  
1.4.1 Non-SI units are provided in Table 1 and Table 2 and in 7.1.2.1/7.1.2.2 because these are common units used in the industry.
Note 3: The generation and dissipation of static electricity can create problems in the handling of distillate burner fuel oils. For more information on the subject, see Guide D4865.  
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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ASTM
ASTM D8165-24(Test Method)
Standard Test Method for Evaluation of Load-Carrying Capacity of Lubricants Used in Hypoid Final-Drive Axles Operated under Low-Speed and High-Torque Conditions

SIGNIFICANCE AND USE
5.1 This test method measures a lubricant's ability to protect hypoid final drive axles from abrasive wear, adhesive wear, plastic deformation, and surface fatigue when subjected to low-speed, high-torque conditions. Lack of protection can lead to premature gear or bearing failure, or both.  
5.2 This test method is used, or referred to, in specifications and classifications of rear-axle gear lubricants such as:  
5.2.1 Specification D7450.  
5.2.2 American Petroleum Institute (API) Publication 1560.  
5.2.3 SAE J308.  
5.2.4 SAE J2360.
SCOPE
1.1 This test method, commonly referred to as the L-37-1 test, describes a test procedure for evaluating the load-carrying capacity, wear performance, and extreme pressure properties of a gear lubricant in a hypoid axle under conditions of low-speed, high-torque operation.3  
1.2 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.  
1.2.1 Exceptions—Where there is no direct SI equivalent such as National Pipe threads/diameters, tubing size, or where there is a sole source supply equipment specification.
1.2.1.1 The drawing in Annex A6 is in inch-pound units.  
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. Specific warning statements are provided in 7.2 and 10.1.  
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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ASTM
ASTM D6416/D6416M-16(2024)(Test Method)
Standard Test Method for Two-Dimensional Flexural Properties of Simply Supported Sandwich Composite Plates Subjected to a Distributed Load

SIGNIFICANCE AND USE
5.1 This test method simulates the hydrostatic loading conditions which are often present in actual sandwich structures, such as marine hulls. This test method can be used to compare the two-dimensional flexural stiffness of a sandwich composite made with different combinations of materials or with different fabrication processes. Since it is based on distributed loading rather than concentrated loading, it may also provide more realistic information on the failure mechanisms of sandwich structures loaded in a similar manner. Test data should be useful for design and engineering, material specification, quality assurance, and process development. In addition, data from this test method would be useful in refining predictive mathematical models or computer code for use as structural design tools. Properties that may be obtained from this test method include:  
5.1.1 Panel surface deflection at load,  
5.1.2 Panel face-sheet strain at load,  
5.1.3 Panel bending stiffness,  
5.1.4 Panel shear stiffness,  
5.1.5 Panel strength, and  
5.1.6 Panel failure modes.
SCOPE
1.1 This test method determines the two-dimensional flexural properties of sandwich composite plates subjected to a distributed load. The test fixture uses a relatively large square panel sample which is simply supported all around and has the distributed load provided by a water-filled bladder. This type of loading differs from the procedure of Test Method C393, where concentrated loads induce one-dimensional, simple bending in beam specimens.  
1.2 This test method is applicable to composite structures of the sandwich type which involve a relatively thick layer of core material bonded on both faces with an adhesive to thin-face sheets composed of a denser, higher-modulus material, typically, a polymer matrix reinforced with high-modulus fibers.  
1.3 The values stated in either SI units or inch-pound units are to be regarded separately as standard. Within the text the inch-pound units are shown in brackets. The values stated in each system are not exact equivalents; therefore, each system must be used independently of the other. Combining values from the two systems may result in nonconformance with the 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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ASTM
ASTM D3019/D3019M-17(2024)(Specification)
Standard Specification for Lap Cement Used with Asphalt Roll Roofing, Non-Fibered, and Fibered

ABSTRACT
This specification covers the physical requirements and testing of three types of lap cement for use with asphalt roll roofing. Type I is a brushing consistency lap cement intended for use in the exposed-nailing method of roll roofing application, and contains no mineral or other stabilizers. This type is further divided into two grades, as follows: Grade 1, which is made with an air-blown asphalt; and Grade 2, which is made with a vacuum-reduced or steam-refined asphalt. Both Types II and III, on the other hand, are heavy brushing or light troweling consistency lap cement intended for use in the concealed-nailing method of roll roofing application, only that Type II cement contains a quantity of short-fibered asbestos, while Type III cement contains a quantity of mineral or other stabilizers, or both, but contains no asbestos. The lap cements shall be sampled for testing, and shall adhere to specified values of the following properties: water content; distillation (total distillate at given temperatures); softening point of residue; solubility in trichloroethylene; and strength at indicated age.
SCOPE
1.1 This specification covers lap cement consisting of asphalt dissolved in a volatile petroleum solvent with or without mineral or other stabilizers, or both, for use with roll roofing. The fibered version of these cements excludes the use of asbestos fibers.  
1.2 The values stated in either SI units or inch-pound units 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 nonconformance with the standard.  
1.3 The following precautionary caveat applies only to the test method portion, Section 6, of this specification: 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.  
1.4 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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ASTM
ASTM D4586/D4586M-07(2024)(Specification)
Standard Specification for Asphalt Roof Cement, Asbestos-Free

ABSTRACT
This specification covers the testing and requirements for two types and two classes of asbestos-free asphalt roof cement consisting of an asphalt base, volatile petroleum solvents, and mineral and/or other stabilizers, mixed to a smooth, uniform consistency suitable for trowel application to roofing and flashing. Type I is made from asphalts characterized as self-healing, adhesive, and ductile, while Type II is made from asphalt characterized by high softening point and relatively low ductility. Class I is used for application to essentially dry surfaces, while Class II is used for application to damp, wet, or underwater surfaces. The roof cements shall comply with composition limits for water, nonvolatile matter, mineral and/or other stabilizers, and bitumen (asphalt). They shall also meet physical requirements such as uniformity, workability, and pliability and behavior at given temperatures.
SCOPE
1.1 This specification covers asbestos-free asphalt roof cement suitable for trowel application to roofings and flashings.  
1.2 The values stated in either SI units or inch-pound units 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 nonconformance with the standard.  
1.3 The following precautionary caveat pertains only to the test method portion, Section 8 of this specification: 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.  
1.4 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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ASTM
ASTM C1178/C1178M-24(Specification)
Standard Specification for Coated Glass Mat Water-Resistant Gypsum Backing Panel

ABSTRACT
This specification covers coated glass mat water-resistant gypsum backing panel designed for use on ceilings and walls in bath and shower areas as a base for the application of ceramic or plastic tile. Coated glass mat water-resistant gypsum backing panel shall consist of a noncombustible water-resistant gypsum core, surfaced with glass mat, partially or completely embedded in the core, and with a water-resistant coating on one surface. The specimens shall be tested for flexural strength, humidified deflection, core hardness, end hardness, edge hardness, nail pull resistance, water resistance, and surface water absorption. Coated glass mat water-resistant gypsum backing panel shall have surfaces true and free of imperfections that render the panel unfit for its designed use.
SCOPE
1.1 This specification covers coated glass mat water-resistant gypsum backing panel designed for use on ceilings and walls in bath and shower areas as a base for the application of ceramic or plastic tile.  
1.2 The values stated in either SI units or inch-pound units 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. Within the text, the SI units are shown in brackets.  
1.3 The text of this standard references notes and footnotes that provide explanatory material. These notes and footnotes (excluding those in tables and figures) shall not be considered as requirements of the standard.  
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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