A heat-shrinkable termination system for high-voltage cables
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Cited by 5 publications
References 2 publications
The article contains sections titled: 1. Allyl Chloride 1.1. Physical Properties 1.2. Chemical Properties 1.3. Production 1.3.1. Chlorination of Propene 1.3.2. Other Production Processes 1.4. Handling, Environmental Protection, Storage, and Transportation 1.5. Quality and Analysis 1.6. Uses 1.7. Economic Aspects 2. Allyl Alcohol 2.1. Physical Properties 2.2. Chemical Properties 2.3. Production 2.3.1. Hydrolysis of Allyl Chloride 2.3.2. Isomerization of Propene Oxide 2.3.3. Hydrolysis of Allyl Acetate 2.3.4. Hydrogenation of Acrolein 2.4. Quality and Analysis 2.5. Uses 2.6. Methallyl Alcohol 3. Allyl Esters 3.1. Properties 3.2. Production 3.2.1. Oxidation of Olefins 3.2.2. Esterification 3.2.3. Transesterification 3.2.4. Other Production Methods 3.3. Uses 3.3.1. Polymer Production 3.3.2. Other Uses 4. Allyl Ethers 4.1. Properties and Uses 4.2. Production 5. Allylamines 5.1. Properties and Uses 5.2. Production 6. Toxicology and Occupational Health
The article contains sections titled: 1. Allyl Chloride 1.1. Physical Properties 1.2. Chemical Properties 1.3. Production 1.3.1. Chlorination of Propene 1.3.2. Other Production Processes 1.4. Handling, Environmental Protection, Storage, and Transportation 1.5. Quality and Analysis 1.6. Uses 1.7. Economic Aspects 2. Allyl Alcohol 2.1. Physical Properties 2.2. Chemical Properties 2.3. Production 2.3.1. Hydrolysis of Allyl Chloride 2.3.2. Isomerization of Propene Oxide 2.3.3. Hydrolysis of Allyl Acetate 2.3.4. Hydrogenation of Acrolein 2.4. Quality and Analysis 2.5. Uses 2.6. Methallyl Alcohol 3. Allyl Esters 3.1. Properties 3.2. Production 3.2.1. Oxidation of Olefins 3.2.2. Esterification 3.2.3. Transesterification 3.2.4. Other Production Methods 3.3. Uses 3.3.1. Polymer Production 3.3.2. Other Uses 4. Allyl Ethers 4.1. Properties and Uses 4.2. Production 5. Allylamines 5.1. Properties and Uses 5.2. Production 6. Toxicology and Occupational Health
Both accelerated and natural weathering data, previously unpublished, illustrate t h e excellent outdoor performance of "modified silicone" non-tracking materials supplied by Raychem. Performance outdoors in excess of 30 years is predicted. Also, d a t a from the thermal aging in air of this material indicates a high degree of resistance to thermal oxidation. The use of less expensive non-silicone materials, such as ethylene based polymers is discussed and data is presented suggesting that these materials may be acceptable for use outdoors as high voltage non-tracking insulation, if correctly formulated.
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