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Skyroot Aerospace introduces the functions of the vikram I rocket -friendly nozzle. The mechanism is similar to a ball joint connection in a car suspension. With this nozzle, the skyout can tilt the nozzle while maintaining the direction of the rocket.
VIKRAM I ROCKET maneuverable nozzle. (Image credit: Skyroot Aerospace).
New Delhi: Domestic Space Startup Skyroot Aerospace introduces how the rockets run through the space using a nozzle that can be manipulated for flaps and ladder used in aircraft. The rocket motor provides thrust and can control the direction of thrust using flexible nozzles. Skyroot Aerospace uses a pair of electric machine actuators to control the nozzle and instruct the rocket movement. With a flexible nozzle, Skyroot Aerospace can quickly respond to the dynamic situation that appears in the universe, and provides a more accurate operation function of the launch vehicle.
How do you change the direction of the rocket during the flight? If you are a HotayCraper aircraft, use a flap and ladder. However, the rocket works in the atmosphere and space. So it needs something special! Swipe to explore technology that is useful to control Vikram-1 via Bikram-1.
Skyroot Aerospace has developed Vikram I, the first rocket of the tracked vehicle fleet, aimed at responding to rapid growth demand for the development of microsatellite and nanocatellite. Skyroot Aerospace has developed seven rocket engines. All of these are produced using additives manufacturing. Vikram I is a three -stage stage with rockets on track, and Skyroot Aerospace test and modify a variety of components, and provide access to rocket test facilities through handheld and guidance by ISRO. Recently, Skyroot Aerospace has signed a contract to establish the second rocket integrated facility in Telangana. HQ is a Heidela Bard MAX-Q complex and is the largest private rocket manufacturing facility in Japan.
Vikram I development i
In July 2023, Skyroot Aerospace tested the Raman II engine used in the upper stage of Vikram I. Following this, the KALAM-250 engine test was driven in the second stage in March 2024. The first stage of the rocket is. It is called the KALAM-1200 stage tested at the ISRO facility in November 2024. Apart from Flexnozzle, Skyroot Aerospace can also adjust the Vikram trajectory using a qualified reaction control system thruster in October 2024. Use a retro motor for the last month’s test and verified smooth step separation. Vikram I’s first flight is expected in 2025, and then at least one orbit launch is expected every quarter.
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