Note to paragraph (a): Rubber insulating equipment meeting the following national consensus standards is deemed to be in compliance with the performance requirements of paragraph (a) of this section:
American Society for Testing and Materials (ASTM) D120-09, Standard Specification for Rubber Insulating Gloves.
ASTM D178-01 (2010), Standard Specification for Rubber Insulating Matting.
ASTM D1048-12, Standard Specification for Rubber Insulating Blankets.
ASTM D1049-98 (2010), Standard Specification for Rubber Insulating Covers.
ASTM D1050-05 (2011), Standard Specification for Rubber Insulating Line Hose.
ASTM D1051-08, Standard Specification for Rubber Insulating Sleeves.
The preceding standards also contain specifications for conducting the various tests required in paragraph (a) of this section. For example, the ac and dc proof tests, the breakdown test, the water-soak procedure, and the ozone test mentioned in this paragraph are described in detail in these ASTM standards.
ASTM F1236-96 (2012), Standard Guide for Visual Inspection of Electrical Protective Rubber Products, presents methods and techniques for the visual inspection of electrical protective equipment made of rubber. This guide also contains descriptions and photographs of irregularities that can be found in this equipment.
ASTM F819-10, Standard Terminology Relating to Electrical Protective Equipment for Workers, includes definitions of terms relating to the electrical protective equipment covered under this section.
Note to paragraph (b)(1): These voltages include transient overvoltages, such as switching surges, as well as nominal line voltage. See appendix B to subpart V of this part for a discussion of transient overvoltages on electric power transmission and distribution systems. See IEEE Std 516-2009, IEEE Guide for Maintenance Methods on Energized Power Lines, for methods of determining the magnitude of transient overvoltages on an electrical system and for a discussion comparing the ability of insulation equipment to withstand a transient overvoltage based on its ability to withstand ac voltage testing.
Note 1 to paragraph (b)(2): This paragraph applies to equipment that provides primary insulation of employees from energized parts. It does not apply to equipment used for secondary insulation or equipment used for brush contact only.
Note 2 to paragraph (b)(2): For ac excitation, this current consists of three components: Capacitive current because of the dielectric properties of the insulating material itself, conduction current through the volume of the insulating equipment, and leakage current along the surface of the tool or equipment. The conduction current is normally negligible. For clean, dry insulating equipment, the leakage current is small, and the capacitive current predominates.
Note to paragraph (b): Plastic guard equipment is deemed to conform to the performance requirements of paragraph (b) of this section if it meets, and is used in accordance with, ASTM F712-06 (2011), Standard Test Methods and Specifications for Electrically Insulating Plastic Guard Equipment for Protection of Workers.
Note to paragraph (c)(2)(ii): ASTM F1236-96 (2012), Standard Guide for Visual Inspection of Electrical Protective Rubber Products, presents methods and techniques for the visual inspection of electrical protective equipment made of rubber. This guide also contains descriptions and photographs of irregularities that can be found in this equipment.
Note to paragraph (c)(2)(vii)(A): Persons inspecting rubber insulating gloves used under these conditions need to take extra care in visually examining them. Employees using rubber insulating gloves under these conditions need to take extra care to avoid handling sharp objects.
Note to paragraph (c)(2)(vii)(B): Persons inspecting rubber insulating gloves used under these conditions need to take extra care in visually examining them. Employees using rubber insulating gloves under these conditions need to take extra care to avoid handling sharp objects.
Note to paragraph (c)(2)(ix): Standard electrical test methods considered as meeting this paragraph are given in the following national consensus standards:
ASTM D120-09, Standard Specification for Rubber Insulating Gloves.
ASTM D178-01 (2010), Standard Specification for Rubber Insulating Matting.
ASTM D1048-12, Standard Specification for Rubber Insulating Blankets.
ASTM D1049-98 (2010), Standard Specification for Rubber Insulating Covers.
ASTM D1050-05 (2011), Standard Specification for Rubber Insulating Line Hose.
ASTM D1051-08, Standard Specification for Rubber Insulating Sleeves.
ASTM F478-09, Standard Specification for In-Service Care of Insulating Line Hose and Covers.
ASTM F479-06 (2011), Standard Specification for In-Service Care of Insulating Blankets.
ASTM F496-08, Standard Specification for In-Service Care of Insulating Gloves and Sleeves.
Note to paragraph (c)(2)(xii): Marking equipment with, and entering onto logs, the results of the tests and the dates of testing are two acceptable means of meeting the certification requirement.
Table E-1-AC Proof-Test Requirements
Class of equipment | Proof-test voltage rms V | Maximum proof-test current, mA (gloves only) | |||
280-mm (11-in) glove | 360-mm (14-in) glove | 410-mm (16-in) glove | 460-mm (18-in) glove | ||
00 | 2,500 | 8 | 12 | ||
0 | 5,000 | 8 | 12 | 14 | 16 |
1 | 10,000 | 14 | 16 | 18 | |
2 | 20,000 | 16 | 18 | 20 | |
3 | 30,000 | 18 | 20 | 22 | |
4 | 40,000 | 22 | 24 |
Table E-2-DC Proof-Test Requirements
Class of equipment | Proof-test voltage |
00 | 10,000 |
0 | 20,000 |
1 | 40,000 |
2 | 50,000 |
3 | 60,000 |
4 | 70,000 |
Note: The dc voltages listed in this table are not appropriate for proof testing rubber insulating line hose or covers. For this equipment, dc proof tests shall use a voltage high enough to indicate that the equipment can be safely used at the voltages listed in Table E-4. See ASTM D1050-05 (2011) and ASTM D1049-98 (2010) for further information on proof tests for rubber insulating line hose and covers, respectively.
Table E-3-Glove Tests-Water Level12
Class of glove | AC proof test | DC proof test | ||
mm | in | mm | in | |
00 | 38 | 1.5 | 38 | 1.5 |
0 | 38 | 1.5 | 38 | 1.5 |
1 | 38 | 1.5 | 51 | 2.0 |
2 | 64 | 2.5 | 76 | 3.0 |
3 | 89 | 3.5 | 102 | 4.0 |
4 | 127 | 5.0 | 153 | 6.0 |
1 The water level is given as the clearance from the reinforced edge of the glove to the water line, with a tolerance of ±13 mm. (±0.5 in.).
2 If atmospheric conditions make the specified clearances impractical, the clearances may be increased by a maximum of 25 mm. (1 in.).
Table E-4-Rubber Insulating Equipment, Voltage Requirements
Class of equipment | Maximum use voltage1 AC rms | Retest voltage2 AC rms | Retest voltage2 DC avg |
00 | 500 | 2,500 | 10,000 |
0 | 1,000 | 5,000 | 20,000 |
1 | 7,500 | 10,000 | 40,000 |
2 | 17,000 | 20,000 | 50,000 |
3 | 26,500 | 30,000 | 60,000 |
4 | 36,000 | 40,000 | 70,000 |
1 The maximum use voltage is the ac voltage (rms) classification of the protective equipment that designates the maximum nominal design voltage of the energized system that may be safely worked. The nominal design voltage is equal to the phase-to-phase voltage on multiphase circuits. However, the phase-to-ground potential is considered to be the nominal design voltage if:
(1) There is no multiphase exposure in a system area and the voltage exposure is limited to the phase-to-ground potential, or
(2) The electric equipment and devices are insulated or isolated or both so that the multiphase exposure on a grounded wye circuit is removed.
2 The proof-test voltage shall be applied continuously for at least 1 minute, but no more than 3 minutes.
Table E-5-Rubber Insulating Equipment, Test Intervals
Type of equipment | When to test |
Rubber insulating line hose | Upon indication that insulating value is suspect and after repair. |
Rubber insulating covers | Upon indication that insulating value is suspect and after repair. |
Rubber insulating blankets | Before first issue and every 12 months thereafter;1 upon indication that insulating value is suspect; and after repair. |
Rubber insulating gloves | Before first issue and every 6 months thereafter;1 upon indication that insulating value is suspect; after repair; and after use without protectors. |
Rubber insulating sleeves | Before first issue and every 12 months thereafter;1 upon indication that insulating value is suspect; and after repair. |
1 If the insulating equipment has been electrically tested but not issued for service, the insulating equipment may not be placed into service unless it has been electrically tested within the previous 12 months.
29 C.F.R. §1926.97