By Ajai Shukla
Business Standard, 29th Jan 13
Business Standard, 29th Jan 13
Even
in the visually spectacular field of missile testing, the sight of a
submarine-launched missile breaking through the surface is a breathtaking one.
On Sunday, Defence R&D Organisation (DRDO) scientists cheered excitedly as
their indigenous, submarine-launched ballistic missile (SLBM) leapt out of the
water, its rocket motor fired soon after clearing the surface, and it soared off
in a while plume to accurately strike a target 700 kilometres away.
To
nobody’s surprise, the underwater launch went exactly according to plan. This
missile, called in turn the K-15, the Shaurya, and now the B-05, had already
been launched 10 times from under water and thrice from land. This exacting
test schedule is designed for assurance, since this is a missile that cannot
afford to fail. Until a better one is developed, this will be the backbone of
India’s underwater nuclear deterrence.
That means that it will arm the INS Arihant, India’s first and only nuclear-armed ballistic missile submarine, or SSBN. Tipped with nuclear warheads, the K-15 will be launched from the Arihant only after a nuclear attack on India. New Delhi’s “no-first-use” nuclear policy prohibits the pre-emptive use of nuclear weapons.
That
means that India’s land-based and air-based nuclear weaponry, such as the
Agni-series of missiles, might already have been destroyed by a pre-emptive
enemy nuclear attack. The Arihant, and the B-05 missiles that it carries, are
far more difficult to tackle, since they lurk underwater in complete secrecy.
The underwater leg of the nuclear triad (land-launched, air-launched and submarine-launched
weapons) has always been regarded as the most survivable. It is the ultimate
currency of a nuclear exchange.
Going
by what the DRDO said about its own test, the B-05 is well up to the task. “The
Missile, developed by DRDO, was launched from a pontoon and was tested for the
full range. It met all the mission objectives. The parameters of the
vehicle were monitored by radar all through the trajectory and terminal events took
place exactly as envisaged,” said an MoD release on Sunday.
The
B-05 (or K-15, or Shaurya) is no ordinary ballistic missile. Top DRDO
scientists briefed Business Standard that it is not a ballistic missile at all.
It could better be characterised as a hypersonic cruise missile, since it
remains within the earth’s atmosphere.
A
ballistic missile suffers from inherent disadvantages, since it is a relatively
crude device, akin to a stone that is lobbed upwards, propelled by a rocket. After
the rocket burns out, gravity comes into play, pulling the missile warhead down
towards the target. Buffeted by wind and re-entry forces, accuracy is a
problem; and, since the ballistic missile’s path is entirely predictable,
shooting it down is relatively easy.
The
Shaurya has overcome most of these issues. Its solid-fuel, two-stage rocket
accelerates the missile to six times the speed of sound before it reaches an
altitude of 40 kilometers (125,000 feet), after which it levels out and cruises
towards the target, powered by its onboard fuel. In contrast to conventional ballistic
missiles that cannot correct their course midway, the Shaurya is an intelligent
missile. Onboard navigation computers kick in near the target, guiding the
missile to the target and eliminating errors that inevitably creep in during
its turbulent journey.
“I
would say the Shaurya is a hybrid propulsion missile”, says Dr VK Saraswat, the
DRDO chief, talking to Business Standard in 2010. “Like a ballistic missile, it
is powered by solid fuel. And, like a cruise missile, it can guide itself right
up to the target.”
Making
the B-05 even more survivable is its ability to manoeuvre, following a twisting
path to the target that makes it very difficult to shoot it down. In contrast,
a ballistic missile is predictable; its trajectory gives away its target and
its path to it.
The
problem with the B-05 (or K-15, or Shaurya) remains its relatively short range
of just 750 kilometres. While it could reach major cities in most countries if
it were launched from just off the coast, that would necessitate a perilous submarine
journey to the vicinity of the coastline. Therefore, the DRDO is also
developing a longer-range missile, dubbed the K-4, which will have a range of
almost 4000 kilometers. An Indian SSBN that is armed with the K-4 missile would
be able to strike most likely targets from a safe patrol location in the Bay of
Bengal.
some blogs are stating its range as more than 750 kms. are those reliable? as its naval variant of shaurya, it should be 700 km.
ReplyDeleteref ;- http://livefist.blogspot.in/2013/01/india-tests-k-15-slbm-from-bay-of-bengal.html
A very informative article. Thank you Ajai
ReplyDelete@Ajai sir
ReplyDeleteK15 / Sagarika / B05 SLCMs whatever we call it it has certainly given us a leverage to push ahead with operationalizing our nuclear triad.
That the missile is a cruise missile is evident from the fact that i just heard the same pontoon and launch canister will be used to launch the 'Nirbhaya' SLCM. If i am not wrong a canister designed to launch a cruise missile can only launch another cruise missile.
only thing i doubt is that some reports say with K15 / Sagarika / B05 SLCM with much lesser payload can reach 1800 km, which means over double the current range, is it possible?
i believe the 4000 km k4 missile will be true SLBM and can only be launched from the next series of SSBNs after the current Arihant series SSGNs are launched.
whats important is that fact that we must now go for Shakti 3 tests to validate newer warheads designs for single / multiple warhead configuration for tactical / medium / long range missiles as well as put to rest the controversy surrounding the fusion device
thanks
Joydeep Ghosh
Like always, 750 KM range is with max payload. Lighten up the payload and you go longer and farther.
ReplyDeleteK-4 to everybody's imagination would be an A-5 SLBM with far greater range than said 4000-5000 Kms!
Ajaiji,
ReplyDeleteDo you think the Sagarika is more similar to the Iskander missile or the DF-21D ?
Wasnt the Shourya supposed to have a 1500km range as a land based missile ?
Is it possible to replace the Prithvis with Shourya entirely ?
As it is , the Prithvis are liquid fuelled and useless in a second strike scenario.
"That means that India’s land-based and air-based nuclear weaponry, such as the Agni-series of missiles, might already have been destroyed by a pre-emptive enemy nuclear attack"
ReplyDeleteThis means the enemy had the capability to destroy many bases held in secrecy of the many scattered land based missile units Also this means that the enemy had the intelligence of the whereabouts of diff and varied and many locations of the bases of land based missiles and had prepared thus had the aptitude to destroy.
Then how come the last resort of the arihant would be safe when the many others were not safe from being penetrated?
Hi Ajay,
ReplyDeleteMany things just dont add up for this missile.
The claimed 'glide altitude' is 50km? Which is inside atmosphere,but
the problem is that i cant see any fins or wings or any lift
generating surface which can induce 'glide' in the Ballistic
trajectory. The fins are too small and look like attached to first
stage which will drop off at apogee.
After that what happens? How the missile glides or follows a leveled
flight path?
The other thing is 'burnout time'.
Even the 85 tonner ICBM with 10 MIRVs the Peace keeper has less than
3000 seconds of burnout time.
This missile is said to have 'all the way powered' flight?
That means a burnout time of 5000+ seconds?
How can a missile of this size store solid rocket fuel for burning for
such a long time?
Last question is heat sheilding and cooling.
The missile accelerates to mac 6 initially and then goes all the way to mach 7+.
Endo atmospheric flight at such high mach numbers for about 6 minutes?
That will generate enoumous amounts if heat?
How the missile's electroncs survive for that long at such high temperatures?
As the claims are that the missile's flight computer keeps working all
the way to impact point...
Thanks in advance.
Laurels to all the concerned.
ReplyDeleteSafriz,
ReplyDeleteThe thing is a rocket, not a plane so it does not NEED wings. It does not GLIDE so it does not NEED wings. I wonder what would happen to wings at Mach 6 though.
The speed of sound is about 330metres per second, or one kilometer every 3 seconds. Something flying at Mach 6 would therefore be doing 2kms per second. Thus a 700km flight would be done in 350 seconds. I wonder how you got 5000+ seconds. By the way, 5,000 seconds translates into about 1hour 25mins.
Cheers
hi,
DeleteSorry for the typo. A zero sneaked up on me.
360 seconds be the flight time. But rocket motors work for only 60 seconds.
We can assume this by watching the video.
The 2meter long first stage falls off at 15 seconds.
The second stage is 6 meter long so its burnout time may be 3 times thar of first stage or 45 seconds?
Total burnout time of both stages be 15+45=60 second?
The rest of the time the missile flies on momentum only?
How then it aceives levelled flight for so long?
Another thing is that many websites say that the missile has 6 rocket motors?
Any explaination of where and how these 6 motors work in the missile?
Thanks
lets watch and see... the real transformation from... submerged pontoon and harbours... and how fast and effectively can drdo and IN transform... to open seas... oceans...
ReplyDelete@Vizagite... dear...
ReplyDeletewould have heard... prahar... even when we had... prithvis and smerch and pinaka... each system is to address... particular strategic as well as tactical... strike as well as defensive... deterrence as well as force projection... doctrines we develop... keeping with times... threats...
@31 January 2013 08:04...
ReplyDeleteadd to that... try and inventing... the silver bullet... that is... one panacea... for all ills... end up developing... something like... jsf f-35... and become... laughing stock... of all...
Yes my bad..its not 5000 seconds.
ReplyDelete350 seconds as you say...
I was asking about how the missile obtains level flight without any lift generating surfaces...
About Burnout time..we see in the video that 15 seconds is the time when first stage falls off..
I can only guess that the burn rate of both stages is the same..
So first stage has a Burn time of 15 seconds? This stage is 2 meter long,and the second stage is 6 meter long..
So by that assumption the second stage will burn for another 45 seconds?
So total Burnout time for the first and second stages is 60 seconds all together.
The rest of 290 seconds the missile will fly an un powered flight path or Ballistic path...
How can the missile sustain a levelled flight for 200+ seconds?? assuming that the last 90 seconds in when the missile follows a vertical path down to the target.
won't find such... detailed specs and performance... on a weapon system... anywhere... even for tomahawk... forget about others... awesome system...
ReplyDelete