: Glands must remain secure under standard naval vibration ranges, often defined as 5-33 Hz per JSS 55555 .
: Equipment must operate in ambient temperatures from 0°C to 55°C and withstand relative humidity up to 100% .
In the context of the , "DGS/EED/VI/1535/R6" is used as a mandatory eligibility criterion in Bill of Quantity (BOQ) tenders. Bidders must prove their products meet this revision (R6) to be considered technically qualified for naval contracts. hindustan shipyard limited dgs eed vi 1535 r6
: To survive saline air, all fastening hardware (bolts, nuts, washers) is typically required to be cadmium-plated or made from corrosion-resistant materials. Significance in Naval Procurement
This standard ensures that electrical entries into enclosures remain robust under the extreme environmental conditions typical of marine and naval operations, such as high salinity, vibration, and mechanical stress. Core Purpose and Application : Glands must remain secure under standard naval
Suppliers working with major Indian shipbuilders like or Mazagon Dock Shipbuilders must adhere to the following when referencing this standard:
The primary function of the DGS/EED/VI/1535/R6 standard is to define requirements for and gas-tight cable glands. These components are essential for maintaining the integrity of electrical systems in a variety of naval environments: Bidders must prove their products meet this revision
: It works in conjunction with standards like IS-12063 to ensure equipment meets specific Ingress Protection (IP) ratings, such as IP56 for exposed deck equipment.
: It is frequently cited alongside other naval standards like NES 514 (British Naval Engineering Standard) and NES 501 (General Requirement for Electro-technical Equipment). Technical Compliance Requirements
: Components used on-board frigate-class ships typically require Directorate of Quality Assurance (Naval) type approval.