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domain-b.com : Agni-II user trial anytime between 3-8 November

Agni-II user trial anytime between 3-8 November news

23 October 2009


Balasore, Orissa: Indian defence scientists and Indian Army officials are working towards conducting a user trial of the country's medium range ballistic missile, the Agni-II, sometime between 3-8 November this year. The Agni-II, a nuclear capable missile, can hit targets beyond 2,000 km and up to a distance of 3,500 km with varying payloads.
''The missile is scheduled to be fired from the Wheelers Island based test range facilities any time between November 3 and 8,'' defence sources said.

According to scientists, the 700-km range Agni-I along with the 2000+ km range Agni-II and the 3000+ km range Agni-III form the triad of the country's nuclear deterrence.

The Agni-II missile, whose first operational variant was test-fired in April 1999, is 20-meter long and 1.3 meter in diameter. Weighing 16 tonnes it is designed to carry a nuclear payload of about 1,000 kg to a distance in excess of 2500 km.
The previous user trial conducted on 19 May this year was not a success.

The missile has already been inducted into the Indian Army's 555 missile group.

Agni-II is a ready-to-fire missile with a launch time of about 15 minutes.

The missile is unique in that its second stage has a flex nozzle which enables small changes in the thrust vector direction in flight allowing far superior manoeuvrability and thrust control than any comparable missiles in its class, including western ones.
The flex nozzle can be exploited with the help of an on-board closed-loop guidance and control system. Till now, the flex nozzle has been used only in the third-stage motor of the PSLV.

The missile's re-entry vehicle uses its manoeuvring fins to porpoise the warhead, to avoid missile defences while manoeuvring to its target, employing terminal guidance radar operating in the C- and S-bands.

The Agni-II is designed to be launched from a rail-mobile launcher; one that can move on a standard broad-gauge rail system. It is also road-mobile and the services can choose which system they want. A rail- and/or road-based missile system reduces vulnerability and allows for greater operational flexibility.

While India's is mostly covered with road and rail infrastructure in most parts of the country except the north-east which has more rail and less road infrastructure, the missile's rail mobility means that in strategic terms its deployment in this part of the country is a serious possibility.

Deployment here will allow the missile to hit deeper into China, though without reaching important city and industrial centres such as Beijing, which are 3000+ km away.

While earlier test versions of the missile had a CEP of ±100 metres, the latest versions will have a CEP of around 30 metres.

Indian scientists such as BrahMos Aerospace chief Dr A Sivathanu Pillai have said that the missile would have a unique on-board energy management system and an on-flight guidance process using navigational sensor technology.
 
fullstory

Air-launched BrahMos to be test-fired in Dec 2010

New Delhi, Oct 25 (PTI) India and Russia are planning to test-fire the air-launched version of their jointly-developed BrahMos supersonic cruise missile from a Sukhoi-30 fighter aircraft in December next year.

Work on the air-launched version of the missile is in the final stages and BrahMos scientists are now waiting for the Su-30MKI aircraft from India to act as a platform for test launch of the missile, Defence Ministry sources told PTI here.

The air-launched version, they said, will be lighter and smaller than the land-based version of the missile so that it can be fitted to the aircraft.

One of the two speed boosters in the missile has been removed for the air version of the weapon system as after being launched from an aircraft moving at a speed of more than 1.5 mach, the missile will automatically gain its momentum and maintain its speed of 2.
 
Why nobody talks about the shaurya missile? Brahmos is highly publicized supersonic missile, but shaurya is double its speed and range. It is indigenous as well (I suppose!!).
What are its pros and cons against brahmos, and is it modified sagarika or not?
 
Why nobody talks about the shaurya missile? Brahmos is highly publicized supersonic missile, but shaurya is double its speed and range. It is indigenous as well (I suppose!!).
What are its pros and cons against brahmos, and is it modified sagarika or not?


Hey buddy welcome to the forum..If not them please go ahead and introduce yourself in members introduction thread...

Great point :)... may be its because the missile is still under development(If i am not wrong we have to wait for 2-3 years before it become fully operational) and most of the members here don't have lot of respect for DRDO especially when it comes to indegenious programmes...Reading through wikipedia i found out that missile was first test fired on November 12, 2008 and so far that is the only test...If you have more information about it please share it here...This thread is dedicated to talk about Indian misiles

Also lot of times people have discussed pros and cons of Babur vs Brahmos but not sure if the same discussion have happened for babur vs shaurya..Lets c what others(techies) have to say about it...
 
Astra air-to-air missile to make its first flight

To add punch to IAF’s fleet of Sukhoi, Mig-29, Mirage-2000, Tejas.

Veteran fighter pilots lament the end of the dogfight, the evocative name for a twisty, sky-ripping, adrenaline-packed aerial duel, in which the winner gets behind his opponent and shoots him down with a burst of cannon fire.

Today, it is less about flying skill, cold nerve and highly-responsive aircraft; the modern-day dogfighting ace is an airborne video-game expert who uses radar to detect his foe at long ranges, and launch a beyond visual range (BVR) missile even before his victim realises that the engagement has begun.

Just days from now, a Sukhoi-30MKI fighter will take off from an Indian Air Force (IAF) base, an Astra missile fitted on its wing. This will be the first-ever flight of this indigenously developed BVR missile, which the IAF hopes will add punch to its fleet of Sukhoi-30MKI, Mig-29, Mirage-2000 and Tejas Light Combat Aircraft (LCA) fighters.

The Astra, built by the Defence R&D Laboratory (DRDL), Hyderabad, will allow IAF pilots to hit enemy aircraft up to 44 km away, at altitudes up to 20,000 metres. Improving on that will be the Astra Mk II, with a longer range of 80 km.

The Astra incorporates many cutting-edge technologies. Here is how an Astra would take on an enemy fighter: an IAF fighter’s radar picks up the target; the pilot launches an Astra missile. A high-energy propellant quickly boosts the missile to several times the speed of sound. At ranges beyond 15 km, the Astra cannot “see” its target, so the IAF fighter guides the missile, relaying the target’s continually changing position over a secure radio link. Once it is 15 km from the target, the Astra’s onboard seeker picks up the target; after that the Astra homes in on its own.

At this point, the target would start turning and diving to throw off the missile. But the Astra manoeuvres better, and moves much faster, than even the most agile fighters. A radio proximity fuse measures the distance to the target. When the target is within 5 metres, the Astra’s radio proximity fuse detonates its warhead, sending a volley of shrapnel ripping through the enemy fighter.

Most of these technologies have already been proven. The propulsion system, the data link between the aircraft and the Astra, the radio proximity fuse, the onboard computer, the inertial navigation system and other key technologies were developed at the DRDO’s missile complex in Hyderabad.

The Astra’s seeker is still imported from Russia, but the DRDO hopes to develop one.

The forthcoming test with a Sukhoi-30MKI is called a “captive flight trial”; it will evaluate whether the Astra can withstand the physical stresses of supersonic flying and high-speed manoeuvring. Early in 2010, a “captive-II flight trial” will check whether the Astra’s avionics are properly matched with those of the Sukhoi-30MKI. The fighter should receive the missile’s signals; and the Astra should receive the aircraft’s commands.

“Matching an Indian missile with a Russian fighter’s avionics has turned out to be a complex task”, explains Mukesh Chand, one of the Astra’s key developers, “But the Astra will be much better integrated with the Indian Tejas LCA.”

Only in October 2010, after all the Astra’s systems are certified airworthy, will a live Astra be fired from a fighter. But the project scientists are confident; in a September 2008 test in Balasore, Orissa, a ground-launched Astra shot down an electronic target, validating many of the most complex technologies.

A drawback in the Astra remains its high weight; even a heavy fighter like the Sukhoi-30MKI cannot carry the missile on its wingtip stations. In comparison with the Astra’s estimated 150 kg, other BVR missiles like the Israeli Derby weigh around 100 kg only.

Nevertheless, the IAF believes the Astra will usefully supplement India’s inventory of BVR missiles. The Russian R-77 Adder, which arms India’s Russian aircraft fleet, faces worrying questions about its reliability. And the R530D missile, carried by the Mirage-2000, is nearing obsolescence.

http://www.business-standard.com/in...-air-missile-to-make-its-first-flight/373650/
 
Astra air-to-air missile to make its first flight

To add punch to IAF’s fleet of Sukhoi, Mig-29, Mirage-2000, Tejas.

Veteran fighter pilots lament the end of the dogfight, the evocative name for a twisty, sky-ripping, adrenaline-packed aerial duel, in which the winner gets behind his opponent and shoots him down with a burst of cannon fire.

Today, it is less about flying skill, cold nerve and highly-responsive aircraft; the modern-day dogfighting ace is an airborne video-game expert who uses radar to detect his foe at long ranges, and launch a beyond visual range (BVR) missile even before his victim realises that the engagement has begun.

Just days from now, a Sukhoi-30MKI fighter will take off from an Indian Air Force (IAF) base, an Astra missile fitted on its wing. This will be the first-ever flight of this indigenously developed BVR missile, which the IAF hopes will add punch to its fleet of Sukhoi-30MKI, Mig-29, Mirage-2000 and Tejas Light Combat Aircraft (LCA) fighters.

The Astra, built by the Defence R&D Laboratory (DRDL), Hyderabad, will allow IAF pilots to hit enemy aircraft up to 44 km away, at altitudes up to 20,000 metres. Improving on that will be the Astra Mk II, with a longer range of 80 km.

The Astra incorporates many cutting-edge technologies. Here is how an Astra would take on an enemy fighter: an IAF fighter’s radar picks up the target; the pilot launches an Astra missile. A high-energy propellant quickly boosts the missile to several times the speed of sound. At ranges beyond 15 km, the Astra cannot “see” its target, so the IAF fighter guides the missile, relaying the target’s continually changing position over a secure radio link. Once it is 15 km from the target, the Astra’s onboard seeker picks up the target; after that the Astra homes in on its own.

At this point, the target would start turning and diving to throw off the missile. But the Astra manoeuvres better, and moves much faster, than even the most agile fighters. A radio proximity fuse measures the distance to the target. When the target is within 5 metres, the Astra’s radio proximity fuse detonates its warhead, sending a volley of shrapnel ripping through the enemy fighter.

Most of these technologies have already been proven. The propulsion system, the data link between the aircraft and the Astra, the radio proximity fuse, the onboard computer, the inertial navigation system and other key technologies were developed at the DRDO’s missile complex in Hyderabad.

The Astra’s seeker is still imported from Russia, but the DRDO hopes to develop one.

The forthcoming test with a Sukhoi-30MKI is called a “captive flight trial”; it will evaluate whether the Astra can withstand the physical stresses of supersonic flying and high-speed manoeuvring. Early in 2010, a “captive-II flight trial” will check whether the Astra’s avionics are properly matched with those of the Sukhoi-30MKI. The fighter should receive the missile’s signals; and the Astra should receive the aircraft’s commands.

“Matching an Indian missile with a Russian fighter’s avionics has turned out to be a complex task”, explains Mukesh Chand, one of the Astra’s key developers, “But the Astra will be much better integrated with the Indian Tejas LCA.”

Only in October 2010, after all the Astra’s systems are certified airworthy, will a live Astra be fired from a fighter. But the project scientists are confident; in a September 2008 test in Balasore, Orissa, a ground-launched Astra shot down an electronic target, validating many of the most complex technologies.

A drawback in the Astra remains its high weight; even a heavy fighter like the Sukhoi-30MKI cannot carry the missile on its wingtip stations. In comparison with the Astra’s estimated 150 kg, other BVR missiles like the Israeli Derby weigh around 100 kg only.

Nevertheless, the IAF believes the Astra will usefully supplement India’s inventory of BVR missiles. The Russian R-77 Adder, which arms India’s Russian aircraft fleet, faces worrying questions about its reliability. And the R530D missile, carried by the Mirage-2000, is nearing obsolescence.

Astra air-to-air missile to make its first flight

already posted old news
 
Why nobody talks about the shaurya missile? Brahmos is highly publicized supersonic missile, but shaurya is double its speed and range. It is indigenous as well (I suppose!!).
What are its pros and cons against brahmos, and is it modified sagarika or not?
its not worth a comparison as the brahmos is a cruise missile and the 700km approx range shourya is a ballistic missile,my dear friend!!
 
its not worth a comparison as the brahmos is a cruise missile and the 700km approx range shourya is a ballistic missile,my dear friend!!

Oops!!
I took a short reading over wiki, didnt go through full details! :oops:
I also ignored the fact that its under development. My bad.
 
The shourya,has already been tested successfully and it has also many advantages over our 'feather in the hat' agni series of ballistic missiles.....all in all the shourya can be termed as one of the best in the world in its category(srbm)!.......please read on,u may find interesting facts bout shourya in pdf itself.......all you need is to dig out the shourya thread and spend some time reading it....regards
 
Captive flight trials of Astra missile carried out
Ravi Sharma Share
India’s missile programme took a crucial step forward on Saturday with Indian Air Force test pilots carrying out the captive flight trials of the indigenously designed and developed Astra beyond visual range air-to-air missile (BVRAAM).

A Su-30MKI combat aircraft especially tasked for the trials took off from Air Force Station Lohegaon (Pune) for a 90-minute sortie with the Astra missile. Till Thursday, four sorties, including flying the missile to super sonic speeds and to 7Gs, had been accomplished. Captive trials are mandatory to actual firing of the missile from the aircraft.

The active, radar homing Astra -- India’s first air-to-air missile -- which, at its design altitude of 15 km, will enable fighter pilots to lock-on, evade radar and shoot down enemy aircraft about 80 km away, is part of India’s Integrated Guided Missile Development Programme and has been under development at a number of defence laboratories led by the Hyderabad-based Defence Research and Development Laboratory.

Astra can be compared to the U.S.’ AIM-120 Advanced Medium-Range Air-to-Air Missile, or AMRAAM, France’s MICA (Missile d’interception et de combat aérien, “Interception and Aerial Combat Missile”) and Russia’s R77 (RVV-AE) missile.

The ground launch of Astra was successfully conducted at Chandipur-on-Sea, off the Orissa coast in September 2008.

Captive flight trials involve the Su-30MKI carrying under its wings at one of its six hard points (stations designated for the carrying of stores) an inert missile (with no explosives but simulating the real missile) which has not been electrically or electronically ‘connected’ to the aircraft’s on-board systems.

Captive or aero mechanical integrity tests allows a verification of aspects such as the mechanical, structural and electrical compatibility between the missile and the aircraft, and whether vibrations, strain, stress, etc. are within design levels.

Only after the missile is proven in captive flight trials can it be fired from an aircraft.

Disclosing news of Phase 1 of the captive flight trails which have come after about four years of planning and certification, senior officials said the trials would cover the entire flight envelope of the Su-30MKI, including attaining the fighter’s altitude ceiling of 18 km and a speed of 1.8 Mach, and undertaking the various complicated manoeuvres that the aircraft is designed for. The trials are likely to involve around 15 sorties.

Russian launcher

Though the missile has been indigenously developed, Astra currently depends on a Russian launcher and seeker head. The seeker is yet to be integrated with the missile’s radar, algorithms, etc.

Officials said Astra has been designed to pull a latax (lateral acceleration) of 40g. (40 times the acceleration due to gravity).

The second phase of the trials -- avionics integrity tests -- are expected early next year and will involve the integration of the missile’s avionics with that of the aircraft, and a dialoguing between the cockpit and the missile. Officials also disclosed that “some guided flights with a seeker to check for guidance will take place early next year.” The actual firing of Astra from the Su-30MKI is expected in July-August 2010.

Astra is to be initially fitted on the Su-30MKI and the Mirage 2000, with the Tejas Light Combat Aircraft and the MiG-29 scheduled to be equipped with it later.


The Hindu : Sci-Tech / Technology : Captive flight trials of Astra missile carried out
 
The Hindu : Sci-Tech / Technology : Captive flight trials of Astra missile carried out

Captive flight trials of Astra missile carried out

India’s missile programme took a crucial step forward on Saturday with Indian Air Force test pilots carrying out the captive flight trials of the indigenously designed and developed Astra beyond visual range air-to-air missile (BVRAAM).

A Su-30MKI combat aircraft especially tasked for the trials took off from Air Force Station Lohegaon (Pune) for a 90-minute sortie with the Astra missile. Till Thursday, four sorties, including flying the missile to super sonic speeds and to 7Gs, had been accomplished. Captive trials are mandatory to actual firing of the missile from the aircraft.

The active, radar homing Astra -- India’s first air-to-air missile -- which, at its design altitude of 15 km, will enable fighter pilots to lock-on, evade radar and shoot down enemy aircraft about 80 km away, is part of India’s Integrated Guided Missile Development Programme and has been under development at a number of defence laboratories led by the Hyderabad-based Defence Research and Development Laboratory.

Astra can be compared to the U.S.’ AIM-120 Advanced Medium-Range Air-to-Air Missile, or AMRAAM, France’s MICA (Missile d’interception et de combat aérien, “Interception and Aerial Combat Missile”) and Russia’s R77 (RVV-AE) missile.(Probably with the earlier version of this missiles)

The ground launch of Astra was successfully conducted at Chandipur-on-Sea, off the Orissa coast in September 2008.

Captive flight trials involve the Su-30MKI carrying under its wings at one of its six hard points (stations designated for the carrying of stores) an inert missile (with no explosives but simulating the real missile) which has not been electrically or electronically ‘connected’ to the aircraft’s on-board systems.

Captive or aero mechanical integrity tests allows a verification of aspects such as the mechanical, structural and electrical compatibility between the missile and the aircraft, and whether vibrations, strain, stress, etc. are within design levels.

Only after the missile is proven in captive flight trials can it be fired from an aircraft.

Disclosing news of Phase 1 of the captive flight trails which have come after about four years of planning and certification, senior officials said the trials would cover the entire flight envelope of the Su-30MKI, including attaining the fighter’s altitude ceiling of 18 km and a speed of 1.8 Mach, and undertaking the various complicated manoeuvres that the aircraft is designed for. The trials are likely to involve around 15 sorties.

Russian launcher

Though the missile has been indigenously developed, Astra currently depends on a Russian launcher and seeker head. The seeker is yet to be integrated with the missile’s radar, algorithms, etc.

Officials said Astra has been designed to pull a latax (lateral acceleration) of 40g. :woot::azn:(40 times the acceleration due to gravity).

The second phase of the trials -- avionics integrity tests -- are expected early next year and will involve the integration of the missile’s avionics with that of the aircraft, and a dialoguing between the cockpit and the missile. Officials also disclosed that “some guided flights with a seeker to check for guidance will take place early next year.” The actual firing of Astra from the Su-30MKI is expected in July-August 2010.

Astra is to be initially fitted on the Su-30MKI and the Mirage 2000, with the Tejas Light Combat Aircraft and the MiG-29 scheduled to be equipped with it later.
 
an important data about range of Astra:

one cruising at an altitude of 15 km with 90 to 110 km range, another at an altitude up to 30,000 ft(~9 km), having a range of 44 km and the third at sea level altitude with a range of 30 km.

so it range varies from 30-to-100 km(including tail chase)
 

BANGALORE, November 1, 2009

India’s missile programme took a crucial step forward on Saturday with Indian Air Force test pilots carrying out the captive flight trials of the indigenously designed and developed Astra beyond visual range air-to-air missile (BVRAAM).

A Su-30MKI combat aircraft especially tasked for the trials took off from Air Force Station Lohegaon (Pune) for a 90-minute sortie with the Astra missile. Till Thursday, four sorties, including flying the missile to super sonic speeds and to 7Gs, had been accomplished. Captive trials are mandatory to actual firing of the missile from the aircraft.

The active, radar homing Astra -- India’s first air-to-air missile -- which, at its design altitude of 15 km, will enable fighter pilots to lock-on, evade radar and shoot down enemy aircraft about 80 km away, is part of India’s Integrated Guided Missile Development Programme and has been under development at a number of defence laboratories led by the Hyderabad-based Defence Research and Development Laboratory.

Astra can be compared to the U.S.’ AIM-120 Advanced Medium-Range Air-to-Air Missile, or AMRAAM, France’s MICA (Missile d’interception et de combat aérien, “Interception and Aerial Combat Missile”) and Russia’s R77 (RVV-AE) missile.

The ground launch of Astra was successfully conducted at Chandipur-on-Sea, off the Orissa coast in September 2008.

Captive flight trials involve the Su-30MKI carrying under its wings at one of its six hard points (stations designated for the carrying of stores) an inert missile (with no explosives but simulating the real missile) which has not been electrically or electronically ‘connected’ to the aircraft’s on-board systems.

Captive or aero mechanical integrity tests allows a verification of aspects such as the mechanical, structural and electrical compatibility between the missile and the aircraft, and whether vibrations, strain, stress, etc. are within design levels.

Only after the missile is proven in captive flight trials can it be fired from an aircraft.

Disclosing news of Phase 1 of the captive flight trails which have come after about four years of planning and certification, senior officials said the trials would cover the entire flight envelope of the Su-30MKI, including attaining the fighter’s altitude ceiling of 18 km and a speed of 1.8 Mach, and undertaking the various complicated manoeuvres that the aircraft is designed for. The trials are likely to involve around 15 sorties.

Russian launcher

Though the missile has been indigenously developed, Astra currently depends on a Russian launcher and seeker head. The seeker is yet to be integrated with the missile’s radar, algorithms, etc.

Officials said Astra has been designed to pull a latax (lateral acceleration) of 40g. (40 times the acceleration due to gravity).

The second phase of the trials -- avionics integrity tests -- are expected early next year and will involve the integration of the missile’s avionics with that of the aircraft, and a dialoguing between the cockpit and the missile. Officials also disclosed that “some guided flights with a seeker to check for guidance will take place early next year.” The actual firing of Astra from the Su-30MKI is expected in July-August 2010.

Astra is to be initially fitted on the Su-30MKI and the Mirage 2000, with the Tejas Light Combat Aircraft and the MiG-29 scheduled to be equipped with it later.

The Hindu : Sci-Tech / Technology : Captive flight trials of Astra missile carried out
 
1 Nov 2009, 1212 hrs IST, Peerzada Abrar, ET Bureau

BANGALORE: Scientists at the Indian Institute of Science
(IISc) along with Indian defence agencies are developing technology to build recoverable
hypersonic missiles which will be half the size of the current missiles. This missile will have the potential of hitting a target over 5,000 km away at more than five times the speed of sound (Mach5) and can also be used to launch satellites
at low cost, a top scientist working on the project told ET. No time frame has been announced as yet on when the missile work will be completed. This is of special significance as institutions like the Nasa is experimenting on unmanned projects where they will use hypersonic flights to conduct space exploration.

Missiles which fly at Mach 3-4 (three to four times the speed of sound) belong to the high supersonic class, while hypersonic missiles can fly at more than Mach 5. India’s longest-range missile, Agni III, is capable of hitting targets 3,500 km away and the forthcoming Agni V which has a range of about 5,000-6,000 km is expected to be test-fired in 2010.

“The missile will be much smaller than the current ones. It will be more like an aircraft which can come back to its base after dropping the weapon and need not be huge like the Chinese Dongfeng intercontinental ballistic missile,” a scientist who did not wish to be quoted said. “This technology is not yet available in any other country and it will help better access to space, reconnaissance-strike and global reach.”

The Defence Research and Development Organisation (DRDO) on Friday admitted that they were developing this technology, but work was still at its preliminary stage. IISc is working on some parts of this intercontinental ballistic missile which will be made of materials like composites and Titanium. This will prevent it from being detected by enemy radars and observation systems. It is this innovation which has attracted the interest of several US aviation sector majors.

Since it is important to keep the missile cool, it will work on the scram-jet technology where combustion of fuel takes place in a chamber in the missile under Mach 5 flight conditions, which is different from the current system of collecting the air from the atmosphere during the flight to burn the rocket fuel inside the combustion chamber.

Pratt & Whitney Rocketdyne, a United Technologies Corp company is also working on flight testing hypersonic hydrocarbon-fuelled and cooled scramjet engine working on Mach 5 flight conditions. (A scramjet consists of a constricted tube through which air is compressed and it has a nozzle through which the exhaust jet leaves at higher speed than the inlet air).

The scientist said that they will also use a technology developed by IISc on this missile that has the potential to increase the range of missiles and satellite launch vehicles by at least 40%. The enhanced range is made possible by adding a special-purpose coating of chromium metal to the blunt nose cone of missiles and launch vehicles.

As reported by ET earlier, objects such as missiles fly at hypersonic velocities which are more than five times the speed of sound and encounter atmospheric drag because of friction. The chromium coating works by building temporary heat and pushing the stagnating gas away to create an easier path.

The scientist also said that various Indian defence agencies and the US Airforce have shown interest in this special coating technology which evaporates once the object has re-entered the atmosphere and additional energy is not required to reduce drag.
 
First it was AVATAR and HSTDV,now this by IISc...

one thing is sure whatever we go from these research ....

Would be able to not only launch satellite but also with the small modification it can be used as a UCAV to deliver weapons,definitely it will take atleast a decade to get operational as time is laso not given..

Imagine a hypesonic UCAV cum reusable missile delivering weapon over 5k KM away .... and there will be no SAM able to shoot it down.

Apart from these, another imp thimg is:

IISc is working on some parts of this intercontinental ballistic missile which will be made of materials like composites and Titanium.This will prevent it from being detected by enemy radars and observation systems. It is this innovation which has attracted the interest of several US aviation sector majors

after chromium coating to increase the range of missile ,this will be another magnum opus by IISc.:cheers:
 

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