Standard Specification for Rubber Insulating Covers

ABSTRACT
This specification covers acceptance testing of rubber insulating covers for use as portable protective devices for protection of workers from accidental contact with live electrical conductors, apparatus, or circuits. It includes insulator hoods, dead-end protectors, line hose connectors, cable end covers, and miscellaneous covers. The electrical, physical, and chemical requirements of this specification shall apply also to any new or modified styles of covers that may be developed for specific purposes. The covers shall be of three types: Type I —  non-resistant to ozone, made from a high-grade cis-1,4-polyisoprene rubber compound of natural or synthetic origin, properly vulcanized; Type II - ozone resistant, made of any elastomer or combination of elastomeric compounds; and Type III - ozone-resistant, made of any combination of elastomer and thermoplastic polymer, elastic in nature. Electrical proof, ozone resistance, chemical, and physical tests shall be conducted on each of the covers to determine its acceptability. The cover material shall conform to the tensile strength requirements, the accelerated aging, and for Type I covers, the determination of rubber polymer. Each cover shall withstand the specified ac proof-test voltage (rms value) or the dc proof-test voltage (average value).
SCOPE
1.1 This specification covers acceptance testing of rubber insulating covers for use as portable protective devices for protection of workers from accidental contact with live electrical conductors, apparatus, or circuits. It includes insulator hoods, dead-end protectors, line hose connectors, cable end covers, and miscellaneous covers. The electrical, physical, and chemical requirements of this specification shall apply also to any new or modified styles of covers that may be developed for specific purposes.
1.2 Three types of covers, differing in chemical and physical characteristics, are provided, and are designated as Type I, non-resistant to ozone, and Type II and Type III, resistant to ozone.
1.3 Five classes of covers, differing in electrical characteristics, are provided, and are designated as Class 0, Class 1, Class 2, Class 3, and Class 4.
1.4 Five styles of covers, differing in design characteristics, are provided, and are designated as Style A, Style B, Style C, Style D, and Style E.
Note 1—Because of the use requirements some covers are semi-rigid and others flexible. The flexible devices should remain suitably flexible for application and removal through normal temperatures of − 29 to 54.5°C (−20 to 130°F).  
1.5 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. See 18.2.

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ASTM D1049-98(2010) - Standard Specification for Rubber Insulating Covers
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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:D1049 −98 (Reapproved2010)
Standard Specification for
Rubber Insulating Covers
This standard is issued under the fixed designation D1049; 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.
This standard has been approved for use by agencies of the Department of Defense.
1. Scope 2. Referenced Documents
2.1 ASTM Standards:
1.1 This specification covers acceptance testing of rubber
D297Test Methods for Rubber Products—ChemicalAnaly-
insulating covers for use as portable protective devices for
sis
protection of workers from accidental contact with live elec-
D412TestMethodsforVulcanizedRubberandThermoplas-
trical conductors, apparatus, or circuits. It includes insulator
tic Elastomers—Tension
hoods, dead-end protectors, line hose connectors, cable end
D573Test Method for Rubber—Deterioration in an Air
covers, and miscellaneous covers.The electrical, physical, and
Oven
chemical requirements of this specification shall apply also to
anynewormodifiedstylesofcoversthatmaybedevelopedfor
3. Terminology
specific purposes.
3.1 Definitions of Terms Specific to This Standard:
1.2 Threetypesofcovers,differinginchemicalandphysical
3.1.1 breakdown—the electrical discharge or arc occurring
characteristics, are provided, and are designated as Type I,
betweentheelectrodesandthroughtheequipmentbeingtested.
non-resistant to ozone, and Type II and Type III, resistant to
3.1.2 flashover—the electrical discharge or arc occurring
ozone.
between electrodes and over or around, but not through, the
1.3 Five classes of covers, differing in electrical
equipment being tested.
characteristics, are provided, and are designated as Class 0,
3.1.3 ozone—a very active form of oxygen that may be
Class 1, Class 2, Class 3, and Class 4.
produced by corona, arcing, or ultraviolet rays.
1.4 Five styles of covers, differing in design characteristics,
3.1.4 ozone cutting and checking—the cutting action pro-
are provided, and are designated as Style A, Style B, Style C,
ducedbyozoneonrubberundermechanicalstressintoaseries
Style D, and Style E.
of interlacing cracks.
NOTE 1—Because of the use requirements some covers are semi-rigid 3.1.5 rubber—a generic term that includes elastomers and
andothersflexible.Theflexibledevicesshouldremainsuitablyflexiblefor
elastomeric compounds, regardless of origin.
application and removal through normal temperatures of−29 to 54.5°C
3.1.6 user—asusedin4.3.1,theentityemployingtheactual
(−20 to 130°F).
worker(s) using the equipment; if no separate employer, then
1.5 This standard does not purport to address all of the
the individual.
safety concerns, if any, associated with its use. It is the
3.1.7 voltage, maximum use—the ac voltage (rms) rating of
responsibility of the user of this standard to establish appro-
theprotectiveequipmentthatdesignatesthemaximumnominal
priate safety and health practices and determine the applica-
design voltage of the energized system that may be safely
bility of regulatory limitations prior to use. See 18.2.
worked. The nominal design voltage is equal to the phase to
phase voltage on multiphase circuits.
3.1.7.1 Discussion—If there is no multiphase exposure in a
This specification is under the jurisdiction of ASTM Committee F18 on
system area and the voltage exposure is limited to phase
Electrical Protective Equipment for Workers and is the direct responsibility of
Subcommittee F18.25 on Insulating Cover-Up Equipment. This standard replaces
ANSI Standard J6.2, which is no longer available. For referenced ASTM standards, visit the ASTM website, www.astm.org, or
Current edition approved Oct. 1, 2010. Published November 2010. Originally contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
published in 1949 as D1049–49T. Last previous edition approved in 2002 as Standards volume information, refer to the standard’s Document Summary page on
´1
D1049–98(2002) . DOI: 10.1520/D1049-98R10. the ASTM website.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
D1049−98 (Reapproved2010)
(polarityondcsystems)togroundpotential,thephase(polarity 4.3.1 Itiscommonpracticeandtheresponsibilityoftheuser
ondcsystems)togroundpotentialshallbeconsideredtobethe of this type of protective equipment to prepare complete
nominaldesignvoltage.Ifelectricalequipmentanddevicesare instructions and regulations to govern the correct and safe use
insulated, or isolated, or both, such that the multiphase expo- of such equipment.
sure on a grounded wye circuit is removed, then the nominal
5. Classification
design voltage may be considered as the phase-to-ground
5.1 Covers included under this specification shall be desig-
voltage on that circuit.
nated as Type I, Type II, or Type III; Class 0, Class 1, Class 2,
3.1.8 voltage, nominal design—a nominal value consistent
Class 3, or Class 4; StyleA, Style B, Style C, Style D, or Style
with the latest revision onANSI C84.1, assigned to the circuit
E.
or system for the purpose of conveniently designating its
5.1.1 Type I,non-resistanttoozone,madefromahigh-grade
voltage class.
cis-1,4-polyisoprene rubber compound of natural or synthetic
origin, properly vulcanized.
4. Significance and Use
5.1.2 Type II, ozone resistant, made of any elastomer or
combination of elastomeric compounds.
4.1 This specification covers the minimum electrical,
5.1.3 Type III, ozone-resistant, made of any combination of
chemical, and physical properties guaranteed by the manufac-
elastomer and thermoplastic polymer, elastic in nature.
turer and the detailed procedures by which such properties are
5.1.4 Class—The class designation shall be based on the
to be determined. The purchaser may at his option perform or
electrical properties and design characteristics as shown in
have performed any of these tests in order to verify the
Table 2 or Table 3.
guarantee. Claims for failure to meet the specification are
5.1.5 Style—The style designation shall describe the item,
subject to verification by the manufacturer.
size, and device or apparatus covered, protected, or connected.
4.2 Insulating covers are used for personal protection;
5.1.5.1 Style A designates insulator hoods.
therefore, when authorizing their use, a margin of safety shall
5.1.5.2 Style B designates dead end protectors.
be provided between the maximum voltage at which they are
5.1.5.3 Style C designates line hose connectors.
used and the proof-test voltage at which they are tested. The
5.1.5.4 Style D designates cable end covers.
relationship between proof-test voltage and the maximum
5.1.5.5 Style E designates miscellaneous covers.
voltage at which insulating covers shall be used is shown in
6. Ordering Information
Table 1.
6.1 Ordersforcoversunderthisspecificationshouldinclude
4.3 Work practices vary from user to user, depending upon
the following information:
many factors. These may include, but are not limited to,
6.1.1 Type,
operating system voltages, construction design, work proce-
6.1.2 Class, and
dures and techniques, weather conditions, and so forth. There-
6.1.3 Either the style and item number or the size, inside
fore, except for the restrictions set forth in this specification
diameter, outside diameter, and length of the covers.
because of design limitations, the use and maintenance of this
6.2 The listing of types, classes, styles, and item numbers is
equipment is beyond the scope of this specification.
notintendedtomeanthatallshallnecessarilybeavailablefrom
manufacturers; it signifies only that, if made, they shall
conform to the details of this specification.
TABLE 1 Proof-Test/Use Voltage Relationship
7. Manufacture and Marking
NOTE 1—The ac voltage (rms) classification of the protective equip-
7.1 Each cover shall be marked clearly and permanently
ment designates the maximum nominal design voltage of the energized
with the name of the manufacturer or supplier, ANSI/ASTM
systemthatmaybesafelyworked.Thenominaldesignvoltageisequalto:
D1049, type, and class.
1. The phase to phase on multiphase circuits or
7.1.1 Covers may be marked by either molding the infor-
2. The phase to ground voltage on single phase grounded circuits.
mation directly into the cover or by use of a label; either
Nominal Maximum
Class of AC Proof- DC Proof-
A
Use Voltage, method is equally acceptable. The method shall be at the
Insulating Test Voltage, Test Voltage,
Phase-Phase
Covers rms V avg, V discretionofthemanufacturer.Ifalabelisused,thecolorshall
ac, rms
0 1 000 5 000 20 000 be that specified for each voltage class: Class 0—red, Class
1 7 500 10 000 40 000
1—white, Class 2—yellow, Class 3—green, and Class
2 17 000 20 000 50 000
4—orange.
3 26 500 30 000 60 000
4 36 000 40 000 70 000
8. Chemical and Physical Requirements
A
Except for Class O equipment, the maximum use voltage is based on the
following formula: 8.1 The cover material shall conform to the tensile strength
Maximum use voltage (maximum nominal design voltage)
requirements in Table 2 or Table 1, the accelerated aging in
0.95 ac
5.1.3 and, for Type I covers, the determination of rubber
proof-test voltage − 2000
polymer in accordance with 19.1.1.
D1049−98 (Reapproved2010)
TABLE 2 Covers—Type I Specifications
Insulator Hoods—Style A
Insulator Length, Tensile, ac Proof- dc Proof- Suggested
Item Type Hose Size, Height, mm
Diameter, mm (in.), MPa (psi), Class Test Volt- Test Volt- Electrode
A
Number Insulator in. (in.), min
B
in. min min age, V age, V Group
1 pin 4 1 375 (14.75) 159 (6.25) 11.0 (1600) 2 20 000 30 000 2
2 pin 6 1 406 (16.0) 159 (6.25) 11.0 (1600) 2 20 000 30 000 2
1 1
3pin 7 1 ⁄4,1 ⁄2 406 (16.0) 162 (6.375) 11.0 (1600) 2 and 3 30 000 40 000 2
Dead End Protectors—Style B
Insulator Sleeve ac Proof- dc Proof- Suggested
Item Type Hose Size, Inside Diame- Tensile,
Diameter, Length, Class Test Volt- Test Volt- Electrode
A
Number Insulator in. ter, mm (in.) MPa (psi), min
B
in. mm (in.) age, V age, V Group
1 disk or dead 4 ⁄4 any size 121 (4.75) 254 (10) 11.0 (1600) 2 20 000 30 000 2
end (adapters)
2 2 disk or 2 dead 4 ⁄4 any size 121 (4.75) 457 (18) 11.0 (1600) 2 20 000 30 000 2
end (adapters)
3 disk or dead 6 1 165 (6.5) 457 (18) 11.0 (1600) 2 20 000 30 000 2
end
Line Hose Connectors—Style C
Item Hose Size, Length, Tensile, ac Proof-Test dc Proof-Test Suggested Elec-
Class
A B
Number in. mm (in.) MPa (psi), min Voltage, V Voltage, V trode Group
1 1 305 (12.0) 11.0 (1600) 2 20 000 30 000 2
21 ⁄4 305 (12.0) 11.0 (1600) 2 20 000 30 000 2
31 ⁄2 305 (12.0) 11.0 (1600) 3 30 000 40 000 2
A
Item numbers are provided for convenient referencing.
B
Suggested electrode groups for ac tests only.
9. Electrical Requirements 2 or Table 3. The proof test shall be performed in accordance
with Section 18 and shall be applied continuously for 3 min.
9.1 Each cover, when selected in accordance with Section
13 shall withstand the 60-Hz ac proof-test voltage (rms value) 9.2 TypeIIandTypeIIIcoversshallshownovisibleeffects
or the dc proof-test voltage (average value) specified in Table from corona or ozone when tested in accordance with 18.5.
TABLE 3 Covers—Type II and Type III Specifications
Insulator Hoods—Style A
Insulator Length, Height, Tensile, ac Proof- dc Proof- Suggested
Item Type In- Insulator Hose Size,
Diameter, mm mm (in.), MPa (psi), Class Test Volt- Test Volt- Electrode
A
Number sulator Height, in. in.
in. (in.), min min min age, V age, V Group
1 pin 4 4 1 375 (14.75) 159 (6.25) 4.82 (700) 2 20 000 30 000 2–3
2 pin 6 5 1 406 (16.0) 159 (6.25) 4.82 (700) 2 20 000 30 000 2–3
1 1
3 pin 7 6 1 ⁄4 –1 ⁄2 406 (16.0 (wide)) 162 (6.375) 4.82 (700) 2 and 3 30 000 40 000 2–3
4 pin 10 12 2 ⁄2 483 (19.0) 406 (16.0) 6.89 (1000) 4 40 000 60 000 2–3
5pin 11 6 1 ⁄2 267 (10.5 (ID)) 165 (6.5) 4.82 (700) 3 30 000 40 000 2–3
3 3 1 1
6 pin 8 ⁄4 5 ⁄4 1 ⁄2 –2 ⁄2 381 (15.0) 216 (8.5) 6.89 (1000) 4 40 000 60 000 2–3
3 1 1
7 post 6.5 8 ⁄4 1 ⁄2 –2 ⁄2 317 (12.5) 298 (11.75) 6.89 (1000) 3 30 000 40 000 2–3
1 1
8 post 6.5 13 1 ⁄2 –2 ⁄2 317 (12.5) 400 (15.75) 6.89 (1000) 4 40 000 60 000 2–3
Dead End Protectors—Style B
Suggested
Item Type Insulator Hose Size, Sleeve Length, Tensile, ac Proof-Test dc Proof-Test
Class Electrode
A
Number Insulator Diameter in. mm in. MPa (psi), min Voltage, V Voltage, V
Group
1 disk or dead 4 ⁄4 any size 254 (10.0) 4.82 (700) 2 and 3 30 000 40 000 2–3
end (adapters)
2 disk or dead 4 ⁄4 any size 457 (18.0) 4.82 (700) 2 and 3 30 000 40 000 2–3
end (adapters)
3 disk or dead 6 1 457 (18.0) 4.82 (700) 2 20 000 30 000 2–3
end
1 1 1
4 disk or dead 4 ⁄4 1 ⁄2 –2 ⁄2 940 (37.0) 4.82 (700) 4 40 000 50 000 2–3
end
1 1
5 disk or dead 71 ⁄2 –2 ⁄2 624 (24.5) 11.0 (1600) 4 40 000 50 000 2–3
end
1 1
6 disk or dead 10 1 ⁄2 –2 ⁄2 624 (24.5) 11.0 (1600) 4 40 000 50 000 2–3
end
Line Hose Connectors—Style C
Tensile, MPa (psi), ac Proof-Test dc Proof-Test Suggested Elec-
A
Item Number Hose Size, in. Length, mm (in.) Class
min Voltage, V Voltage, V trode Group
1 1 305 (12.0) 4.82 (700) 2 20 000 30 000 2–3
21 ⁄4 305 (12.0) 4.82 (700) 2 20 000 30 000 2–3
31 ⁄2 305 (12.0) 4.82 (700) 3 30 000 40 000 2–3
D1049−98 (Reapproved2010)
TABLE3 Continued
Line Hose Connectors—Style C
Tensile, MPa (psi), ac Proof-Test dc Proof-Test Suggested Elec-
A
Item Number Hose Size, in. Length, mm (in.) Class
min Voltage, V Voltage, V trode Group
41 ⁄2 267 (10.5) 4.82 (700) 4 40 000 50 000 2–3
52 ⁄2 267 (10.5) 4.82 (700) 4 40 000 50 000 2–3
Cable End Covers—Style D
Inside Suggested
Item Length, Conductor Tensile, ac Proof-Test dc Proof-Test
Diameter, Class Electrode
A
Number mm (in.) Size MPa (psi), min Voltage, V Voltage, V
mm (in.) Group
Cable end caps size
1 13 (0.5) 152 (6.0) #12 to #6 10.3 (1500) 2 20 000 30 000 1
2 21 (0.81) 152 (6.0) #4 to 4/0 10.3 (1500) 2 20 000 30 000 1
3 19 (0.75) 178 (7.0) #10 to #4 10.3 (1500) 2 20 000 30 000 1
4 35 (1.375) 254 (10.0) #4/0 to 500 MCM 10.3 (1500) 2 20 000 30 000 1
5 57 (2.25) 305 (12.0) 350 MCM to 750 MCM 10.3 (1500) 2 20 000 30 000 1
6 81 (3.19) 406 (16.0) 800 MCM to 1000 10.3 (1500) 2 20 000 30 000 1
MCM
Separator size
7 25 (1.0) 76 (3.0) . 10.3 (1500) 2 20 000 30 000 1
8 38 (1.5) 108 (4.25) . 10.3 (1500) 2 20 000 30 000 1
9 62 (2.44) 114 (4.5) . 10.3 (1500) 2 20 000 30 000 1
10 70 (2.75) 152 (6.0) . 10.3 (1500) 2 20 000 30 000 1
Test caps size
11 16 (0.63) 152 (6.0) . 10.3 (1500) 2 20 000 30 000 1–2–3
12 24 (0.94) 152 (6.0) . 10.3 (1500) 2 20 000 30 000 1–2–3
13 19 (0.75) 178 (7.0) . 10.3 (1500) 2 20 000 30 000 1–2–3
14 35
...

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