IEEE 1210-1996

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IEEE Standard Tests for Determining Compatibility of Cable-Pulling Lubricants With Wire and Cable

Published By	Publication Date	Number of Pages
IEEE	1996

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Description

New IEEE Standard – Superseded. Superseded by 1210-2004 Criteria and test methods for determining the compatibility of cable-pulling lubricants (compounds) with cable jacket or other exterior cable covering are described in this standard. Cable-pulling lubricants are used to lower the tension on cable as it is pulled into conduit, duct, or directionally bored holes. Compatibility is important because lubricants should not negatively interact with the cables they lubricate. Compatibility of lubricants with a variety of common cable coverings is considered.

PDF Catalog

PDF Pages	PDF Title
1	Title Page
3	Introduction Participants
6	CONTENTS
7	1. Overview 1.1 Scope 1.2 Purpose
8	2. References 3. Physical property effects 3.1 General 3.2 Lubricant on polyvinyl chloride (PVC) jacket
9	3.3 Lubricant on black polyethylene (PE) jacket 3.4 Lubricant on thermoplastic chlorinated polyethylene (CPE) jacket 3.5 Lubricant on natural rubber jacket
10	3.6 Lubricant on styrene butadiene rubber (SBR) jacket 3.7 Lubricant on thermoset polychloroprene jacket 3.8 Lubricant on acrylonitrile/butadiene and polyvinyl chloride (PVC) jacket
11	3.9 Lubricant on a thermoset chlorosulfonated polyethylene (CSPE) jacket 3.10 Lubricant on thermoset chlorinated polyethylene (CPE) jacket
12	4. Electrical property effects 4.1 General 4.2 Lubricant on semiconducting jackets or exposed semiconducting shields 4.3 Determining stability of lubricant on semiconducting materials (IEEE Std 1026- 1995 [B13])
13	4.4 Final high-temperature volume resistivity test (AEIC CS5-94 [B1], AEIC CS6-96 [B2], AEIC CS7-… 4.5 Lubricant on exposed thermoplastic primary insulation
14	4.6 Lubricant on exposed thermoset primary insulation
15	5. Testing and test methods 5.1 General 5.2 Jacket test specimens for the immersion/physical property tests 5.3 Tensile strength and elongation test
16	5.4 Heated lubricant immersion method 5.5 Heated water/air immersion method 5.6 Environmental stress cracking test
17	5.7 Specimens for volume resistivity tests (stability and final high temperature) 5.8 Specimens and test for semiconducting jacket and self-supporting lubricants 5.9 Specimens and tests for semiconducting insulation shield with self-supporting lubricants
18	5.10 Volume resistivity test procedure for self-supporting lubricants on semicon�ducting jackets/…
19	5.11 Specimens and tests for semiconducting jackets/shields when lubricants are not self-supporti… 5.12 Preparation of samples for the dielectric voltage withstand test in water 5.13 Dielectric voltage withstand test in water
20	Annex A—Bibliography