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| TERMINALS |
a) Straight
lugs are machined from high conductivity electrolytic copper/brass
bar stock. |
| WIRE CONSTRUCTION | This is made from 0.05 mm2 electrolytic grade copper wire, each bunch or herringbone construction to reduce the rate of wire fracture by providing lateral surface wear areas. The total sectional area shall not be less than the sectional area as per MCM / mm2 rating. |
| WIRE CONNECTION TO TERMINAL |
1. Wire
are terminated in a crimped in soft electrolytic tube and then
soldered to the terminals. |
| FLEXIBLE HOSE COVER | The outer rubber hose is made of heat resistant on its inner surface and abrasion resistant on its outer surface. |
| WATER FLOW | Cooling water is passed at the rate of 3 lit/min at the pressure of 6 kpf/cm2 and the pressure drop does not exceed 0.7 kg/cm2. |
| WATER PRESSURE | The cable is tested at a pressure of 6 kgf/cm2 (KSC), to ensure then there is no leakage or hose damage. |
| OPTIONAL FEATURES : | |
| SINGLE FOR COOLING | Free water passage is ensured by means of a loosely wound hollow spring core progressing the entire length of the cable in “Eddy Current” fashion, thus permitting the cable to operate under conditions of acute bending without obstructing the water flow “Copper Burnout” have been eliminated by utilizing this flow principle. Kay Vybin cables have the lowest water pressure drop per foot of cable. This means a greater volume of water passes through the cable for any given plant pressure, thereby increasing the cable’s current carrying capacity. |
| PROTECTION SLEEVES | In order to eliminate breakage of strands due to the frequent accute bending operations, protection sleeves are provided on the areas of both the terminal joints. |
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