Military, aerospace, and nuclear technologies

  1. Carbon fibre making project for aerospace applications(from coke resin), using plasma pyrolysis technology.
  2. Level 4 bullet-proof jackets for soldiers and Level 5 bullet-proof jackets for VIPs.
  3. Laser-supported ‘machine eye’ for day and night vision images up to 6 km (third generation technology, after night vision binoculars and thermal imagers).
  4. Continuous basalt thread making/basalt fibre making technology, with downstream products like basalt mats and boards, sandwich panels, Basalt woven cloth (for rain-proof tents, for fire-fighting, and for high-altitude weather-proof military clothing), and making composites for bullet-proof jackets.
  5. Centrifugal test stands with air cushion bearing technology (without the need for heavy foundations) to test objects weighing up to 2,000 kgs at 100 G force (or up to 100 kgs at 600 G force), exceeding global standards. This technology can be used for making the parts for civil aviation, missiles, rockets, and spaceship applications (which are subject to high frictional loads while escaping from / entering into Earth’s gravitational fields).
  6. Electron beam molecular level vacuum welding technology for all metals (up to 160 mm thick sheets) for military, aircraft, turbines, nuclear and space equipment, and rocket body/engines. It can also be used for programmed welding of several components at a time (for example, 200 automobile components of 1 ft. height and 6” dia can be welded simultaneously in one hour).
  7. Aluminium, copper, and brass scrap-melting and centrifugal casting of cylinders at 300 G force (up to 5-meter dia., and 1-meter height), to produce metals with improved microstructure (for example – aluminium with 40% higher strength / 40% lower weight) for cryogenic rocket engines and long-distance missile bodies.
  8. Supersonic plasma for spraying and hard-coating of strategic materials such as tungsten carbide/diamond powder (for example, coating inside the plates of bullet-proof jackets).
  9. Electroslag re-melting, to make products with double hardness(using the same metallurgy, but by changing the speed of crystallization), to make strong dies for forging, and for other strategic applications.
  10. Growing of flat, super-hard, and transparent sapphire crystals for military applications, including face shields for soldiers.
  11. Plasma-assisted skull melting crucible furnace to make super-thin basalt fibres.
  12. High-temperature graphene sheet pressing technology from expanded graphite, for strategic applications (including aero planes invisible for radar detection).

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