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Prahaar-new short-range tactical missile

can be moved only by rail.REGARDS....

Really? I for always thought BEML produces the Launchers which have high mobility on roads... I still dont get the reason why its transported via train if you are correct!!!
 
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would you prefer 'shaurya small class'. well not expert tosay but prithvi keep thrust till last second without stopping engine oncrease range. advantages of liqied fuel is more as disadvantages too. well its bulky but not bilky monster.

No buddy,angel was indeed right.Liquid fuel missile's disadvantages are overwhelming than the advantages they give.
Like you can't move them fueled.You have to first deploy them in position and then have to fuel them.This takes about 10 damn hours for our Prithvi missiles.Moreover due to their shorter range they have to be deployed near the border and then refueled making it very easy for enemy to detect and destroy it on the ground.That's why countries replaced their liquid fueled ballistic missiles with solid fueled ones and not the vise versa.So for strategic purposes Prithvi is useless at best. And don't compare the obsolet Prithvi with the Shaurya.Shaurya is not even a ballistic missile.It is an insult for Shaurya to be even named with Prithvi.
REGARDS....
 
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Then what is Prithvi's CEP? Can you shed some light on it?

Prithvi CEP was around 0.2 % of range i.e 300 meters at 150 km range and 500 meters at 250 km range.

Btw, Prithvi-III is supposed to be a mix of solid [ first stage ] and liquid [ second stage ] fuel.
 
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India all set to test new short-range tactical missile

Prahaar' (to strike), a totally new quick-reaction, short-range tactical missile, which will fill the gap for such a battlefield weapon system in India's missile arsenal, is all set to be flight-tested on July 17.

This was stated here on Saturday by Scientific Adviser to the Defence Minister and Director General, Defence Research and Development Organisation, V.K. Saraswat after inaugurating a new facility of Analogic Controls India Ltd. (ACIL) that manufactures electronic systems for mission critical defence and space applications.

Talking to journalists, Dr. Saraswat said the 150 km-range missile would replace unguided rockets and “is going to be an excellent weapon.” It would bridge the gap between Pinaka, a 40-km range multi-barrel rocket system, and the 350-km Prithvi-II, which had been converted into a strategic missile. Unguided rockets of 90-km range had also been imported from Russia.

Dr. Saraswat said that at present the services did not have a weapon such as Prahaar. The missile would be equipped with omni-directional warheads and could be used for hitting both tactical and strategic targets. The road-mobile system could be pulled out for quick deployment with each launcher carrying six missiles. “With different types of warheads, you can have different types of missiles from the same launcher,” he added.

Stating that the DRDO-developed missile was cost-effective, Dr. Saraswat said that only a few would be required to cause devastation equivalent to that produced by several unguided rockets. Initially, the missile would be given to the Army and later to other services.

Replying to a question, he said India's longest range, surface-to-surface Agni-V missile would be flight-tested by the year-end as scheduled earlier.

Avinash Chander, Chief Controller, (Missile & Strategic Systems), DRDO, said the most “critical milestone' — the testing of three propulsion motors for the first, second and third stages of the missile — was completed.

Electronic systems

Earlier, inaugurating the state-of-the-art manufacturing facility of ACIL, Dr. Saraswat called for forging public-private partnerships for producing electronic systems, which were being imported. The new Electronics Development Policy would aim to bridge the technological gap and seek large participation of the private sector.

He said a low cost laptop being produced by the DRDO in partnership with IIT, Jodhpur, was expected to be unveiled by December.

T.V. Prasad, Chairman, ACIL, said the company was developing more than 50 components for various projects and intended to move towards high-end products.

The bold part explains that dependency upon foreign vendors(such as Israel, France, and UK) for electronics systems will reduce and in future our High end electronics products will be home grown:tup:
 
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Well it was somewhere around 100-300 m in the early 90's...

Nope.It was the prototypes with mechanical gyros.Army rejected it and the missiles had to be drastically improved and the mechanica gyro was changed with a ring laser gyro which reduced the cep about 8-10 times from earlier 300 meter.
REGARDS....
 
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Nope.It was the prototypes with mechanical gyros.Army rejected it and the missiles had to be drastically improved and the mechanica gyro was changed with a ring laser gyro which reduced the cep about 8-10 times from earlier 300 meter.
REGARDS....

Even though you are here for so long but your post are even worse than amateur .You talking B.S my friend nothing less ,nothing more ......:angry::angry:

India on Thursday successfully test-fired the Prithvi-II, the short range nuclear capable missile from the Integrated Test Range at Chandipur, Balasore district, off the Bay of Bengal with the missile hitting the target with “very high accuracy”.

Nuclear-capable, surface-to-surface Prithvi-II missile was successfully test-fired for its full range of 350 km on Thursday by the personnel of Strategic Force Command as part of a regular user training exercise.

The missile with a range of 350 km and with a capability to deceive any anti-ballistic missile was fired at 9.05 am as part of the regular training exercise of the armed forces, DRDO sources said.

The missile reached the predefined target with a very high accuracy of better than 10 metres. The missile randomly taken from routine production lot achieved single digit accuracy reaching close to zero circular error probability. Several state-of-the- art radars, electro-optical telemetry stations and a ship located near the target point tracked the entire event.
Prithvi-II successfully test-fired - Indian Express

P.S-Stop putting regards below your post,you ain't a big shot here mate....:coffee::coffee:
 
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@Omega here's another link for your tall claims that Prithvi series needs rail to transport

India on Friday successfully test-fired its indigenously developed, nuclear-capable, ballistic missile Prithvi-II from the Integrated Test Range (ITR) at Chandipur, about 15 km from Balasore off the Orissa coast.

The missile mounted on a mobile launcher was blasted off from the launch complex-3 in the ITR at around 6:50 am, defence sources said.

"The trial of Prithvi-II, conducted by the Army, has gone through nicely," ITR Director S P Dash said.

With a maximum striking range of 350 km, Prithvi-II is capable of carrying a pay-load of 500 kg.

The test firing of the surface-to-surface missile, which has already been inducted into Indian armed forces, was a users trial by the Army's specialised group "strategic force command" (SFC), the sources said.

Prithvi, the first ballistic missile developed under the country's prestigious Integrated Guided Missile Development Programme (IGMDP), is propelled by liquid propulsion twin engine.

With a length of nine metre and one metre diameter, Prithvi-II uses an advanced inertial guidance system with manoeuvring trajectory. the Indian Army.

The entire trajectory of the trial was tracked by a battery of sophisticated radars and electro-optic telemetry stations positioned in different locations for the post-launch analysis, the sources said.

The trial was conducted in the presence of Army officials and scientists as part of an exercise to well acquaint the personnel with various aspects of the sophisticated missile, they said.

The last trial of the Prithvi-II missile was successfully conducted from the same site on March 27, 2010.

Nuke-capable Prithvi-II test fired successfully

With new technology infused in liquid propellant missiles ,now it's possible to refuel in less than 2hours and also can be stored for longer period..
 
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Even though you are here for so long but your post are even worse than amateur .You talking B.S my friend nothing less ,nothing more ......:angry::angry:



P.S-Stop putting regards below your post,you ain't a big shot here mate....:coffee::coffee:

hahahaha...

PRITHVI is one of the best system DRDO has ever produced...
 
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Solid vs Liquid Propellant

http://www.defence.pk/forums/wmd-missiles/25467-solid-vs-liquid-propellant.html

Liquid propellant,which was easier to operate, since it makes it possible to stop and re-start the engine. This is an advantage, according to experts, for the higher stages of launchers or missiles. Solid propulsion is more advantageous in lower stages, which require a stronger thrust. Slower combustion and more effective protection of engines internal walls. The situation shifted toward better control of solid propellant combustion, using combustion-inhibiting coating, preventing it from propagating on certain charge surfaces. Similarly, the development of new production techniques associated with adapted charge profiles made it possible to develop important dimension blocks, capable of burning for a long time as well as optimising the thrust.
Hence,in a liquid propelled engine,two propellants are stored separately and injected in the combustion chamber. For a solid propellant, the components are, on the contrary, directly stored in the combustion chamber, already mixed, called the charge. Overall, the advantage of one propellant over the other is not clear-cut. However, the advantage of solid propellant lies in its security, thus it is much better adapted for missiles operated aboard submarines.
From an economical point of view, due to the complexity of their design and production, liquid systems are generally considered expensive, especially when it comes to having a long-range, for which some components are difficult to produce (turbo-pump, injector, combustion chamber…).
Three Technical Points

* Air-independent propulsion Since it requires no atmospheric oxygen to work, this type of propulsion is the preferred method for platforms whose trajectory extends beyond the earth!s atmosphere (space launchers, ballistic missiles)
* Solid propellant In an air-independent engine, the thrust is obtained thanks to a propellant stored inside the engine. This propellant is composed of two basic elements (combustible, often ammonium perchlorate), which, when put together, burn and provide the thrust.
* Know-how Aside from chemistry, at the heart of the design and production of solid propellants is a combination of know-how, from mechanics to multiphase “aerothermochemistry,” which makes their realisation possible. The development and production of a propellant charge are crucial steps as they require many tests.



FOUR STEPS IN THE PRODUCTION OF PROPELLANT

* Structure coating The first step is to apply a coat of resin on the thermal protection inside the propellant chamber. Resin is the binder that ensures contact between the structure and the solid propellant charge
* Propellant kneading The various elements (oxidising, reducing agent, binder and additive) are mixed to form a paste. The preparation differs according to the size of the charge. The goal is to allow homogenisation and polymerisation of the element.
* Flow and reticulation Propellant, once at the paste state, is poured into the propellant body. Once the polymerisation is obtained, the core, which will provide the shape of the propellant!s internal canal, is withdrawn. This is a particularly delicate process.
* Assembly and engine formation The thrust nozzle that ensures the flow, expansion and ejection of the gas produced by combustion is assembled including the igniting device, with the charge produced for the shape of the propellant engine.




STATES OF INTEREST

* USA From the creation of the first composites to the use of NitralaneTM for Trident-II D5 systems, American laboratories have pursued the development of new components. This is especially true in the field of binding agents, with the use of energetic polymers (glycidyle polyazoture or PAG), and in the field of oxidising charges, with the use of high energy materials (hexa-nitro-hexa- aza-isowurtzitane or CL20). The United States is seeking to improve its strategic vehicles while positioning itself on the space launcher market. Hence, the three stages of the Trident II-D5 use solid propellant mainly based on octogen (HMX).
* Russia The first missile powered by solid propellant, the SS-13, entered operational service at the end of the 1960s. The SS-13 is the result of work by the Moscow Thermal Engineering Institute on a composite propellant based on ammonium perchlorate.Russian researchers are pursuing their efforts, with in the ground sector the development of two missiles (RS-24 and Topol-M) and in the naval segment the SS-NX-30 Bulava, announced with a 8,000 km range.
* Israel, which has acquired considerable autonomy
regarding the solid composite charges, with the Shavit and Jericho systems. Recent tests of the Jericho 3 suggest ongoing
Israeli research, with enhancements to the systems range, thanks to an additional propulsion floor. Moreover, work
carried out on the development of the Arrow-2 interceptor may
favour technology transfers between the U.S. and Israel.
* Others India has also been at the forefront of research in this field over the past 30 years. Its expertise is reported to equal that of the Chinese with the AGNI-III. In Pakistan, solid technology also exists in the Shaheen range of products, but under a strong dependence on the Chinese. Finally, Iran appears to have sufficient knowledge to produce short-range missiles that use solid propellants.

Courtesy to night crawler

For amateurs
Liquid-fuel advantages-1>Variable thrust the amount of fuel and rate of burn can be changed in flight.
2>Liquid-fuel boosters are more easily re-usable

Liquid-fuel disadvantages-1>Fragile, many complex parts.
2>Oxidiser (liquid oxygen) must be kept extremely cold.
:coffee::coffee:
 
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Prahaar new short range tactical missile!
Range 150 km
6 missiles per TEL

wow! I always surprised which missile TEL it is. I thought its Nirbhay. Eagerly waiting for the test!

All the best DRDO!

:tup:


Prithvi is a disaster for Indian armed forces strategically. We should replace them as quickly as possible because they are too huge for a 300km range BM. Its too difficult to transfer them under the radar. Prithvi was our first so everybody understands it but now we need Prithvi NG which should be smaller, light weight and smarter or we should eliminate this missile from our arsenal.

Thats the worst thing I ever heard. Prithvi is famous for lowest cost, highest accuracy, anti-BMD techs and tech demonstrator for other projects.
 
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Prahaar new short range tactical missile!
Range 150 km
6 missiles per TEL

wow! I always surprised which missile TEL it is. I thought its Nirbhay. Eagerly waiting for the test!

All the best DRDO!

:tup:




Thats the worst thing I ever heard. Prithvi is famous for lowest cost, highest accuracy, anti-BMD techs and tech demonstrator for other projects.

It is awesome to have such a missile but the range should be increased to 250-300 km so that need of very long range MBRLs can be fulfilled
 
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Here some more for you buddy .........:cheesy::cheesy:

2mnkro8.jpg


Indian_Nirbhay_Cruise_Missile.JPG
 
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