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K-4 or Kalam-4 is a nuclear capable intermediate-range submarine-launched ballistic missile developed by the Defence Research and Development Organisation of India to arm its Arihant-class submarines.[1] The missile has a maximum range of about 4000 km which offers greater operational flexibility compared to its predecessor K-15 having a limited shore-bounding range.[2][3] On deployment, the missile will be the first to operationalise India's sea-based nuclear triad and can accommodate the demand of credible second-strike capability of its nuclear doctrine.[4]
| K-4 | |
|---|---|
| Type | Intermediate-range SLBM |
| Place of origin | India |
| Service history | |
| In service | 2020s[5] |
| Used by |  Indian Navy |
| Production history | |
| Designer | Defence Research and Development Organisation |
| Manufacturer | Bharat Dynamics Limited |
| Specifications | |
| Mass | 17 t (19 short tons)[6] |
| Length | 12 m (39 ft)[6] |
| Diameter | 1.3 m (4.3 ft)[6] |
| Warhead | Strategic nuclear weapon |
| Warhead weight | 2,500 kg (5,500 lb)[7] |
| Engine | Two stage solid rocket motor[8] |
| Propellant | Solid rocket propellant[8] |
Operational range | 4,000 km (2,500 mi)[9][10] |
Guidance system | Mid-course: Inertial navigation system with GPS/NavIC satellite guidance, Terminal: Terrain contour matching[11] |
Launch platform | Arihant class submarines |
The INS Arihant and INS Arighaat have four vertical launching system for the missile while last two slightly larger vessels of the class has double this number.[12] The missile has completed developmental launch trials and has reportedly entered serial production after a final two consecutive launch trials in January 2020 within a gap of six days.[13][14] In September 2024, ANI reported the deployment of the missile onboard the Arighaat, several days past her commissioning.[15][16]
The importance of submarine launched nuclear weapon capability has been recognised early due to its inherent flexibility, survivability and secrecy which aligned well with India's no first use and credible minimum deterrence policy. The first indigenous SSBN was launched in 2009 and was commissioned seven years later as INS Arihant. Concerns related to the limited range of K-15 ballistic missile operationalised by the submarine was addressed gradually with the development of a higher range version.[17]
In January 2010, the K-4 was secretly tested off Vishakhapatnam. The 10 metre long and 1.3 metre wide 'black and white' missile emerged from a pontoon submerged 50 metre underwater and breached the surface. A second firing was also conducted in Visakhapatnam which has revalidated the critical ability of a 20-tonne projectile to withstand 50 kg of water pressure and eject from a submerged launcher before engaging its rocket booster.[18][19]
Agencies responsible
The High Energy Material Research Laboratory (HEMRL) and the Advanced Centre for Energetic Materials (ACEM) of the DRDO have been involved in developing the three motors responsible for propelling the K-4, the systems responsible for separating the stages of K-4, the low-thrust boosters, the gas generator and other components. The launch system of K-4 has been developed by the Naval Systems Group of the Research and Development Establishment (Engineers).[20]
The K-4 is a submarine-launched ballistic missile which is composed of two stages.[8] The missile is reported to be 12 metres (39 ft) long with a diameter of 1.3 metres (4 ft 3 in) and weighs nearly 17 tonnes (19 tons). It can carry a warhead weighing up to 2 tonnes (2.2 tons) and is powered solid rocket propellant. The DRDO stated that the aim of the missile was to achieve a high accuracy.[6] As a countermeasure against ballistic missile defence systems, the K4 can perform three-dimensional maneuvers.[5]
Specifications
- Range (exact is classified):
Full load: ~3,000 kilometres (1,900 mi)
Reduced load: ~4,000 kilometres (2,500 mi) - Guidance system: Inertial navigation system with GPS/NavIC satellite guidance
- Circular error probable: <10 metres (33 ft). (Alleged)
The K-4 uses a powerful nose mounted motor which has two diametrically opposite mounted nozzles which fires underwater and enable the transition of missile through water, break the surface and continue the ascend into the atmosphere for the first few seconds. The gases ejected from this system is expected to create a gas bubble encapsulation around the missile which will reduce the drag during underwater transition. During the ascent into atmosphere, the four control surfaces at the base of the missile provide the necessary aerodynamic control to the missile.[21][22]
After the burnout of the nose mounted motor, the base shrout at the bottom of the missile housing the control surfaces and control actuation system is ejected. The first stage will ignite to coincide with the burnout and ejection of nose mounted motor to prevent zero thrust condition. The flex nozzle control of the first stage will provide necessary steering during boost phase.[21][22] The airflow pattern over the nose cone of the missile is reminiscent of the one seen of blunt nose cones or nose cones with an aerospike which will reduce drag and heat load significantly.[23]
| Flight No. | Launch date and site | Platform and Depth | Range | Function | Outcome |
|---|---|---|---|---|---|
| 1 | 15 January 2010
Visakhapatnam Coast |
Underwater Pontoon 50 m (160 ft) |
Developmental launch | Success | |
| The test validated the ability of a 20-tonne projectile to withstand 50 kg of water pressure and eject from a submerged launcher before engaging its rocket booster.[19][18] | |||||
| 2 | 24 March 2014
Visakhapatnam Coast |
Underwater Pontoon 30 m (98 ft) |
3,000 km (1,900 mi) | First test launch | Success |
| After a powerful gas generator ejected it from the submerged pontoon, the K-4 missile rose into the air, took a turn towards the designated target, sped across 3,000 km in the sky and dropped into the Indian Ocean.[24] | |||||
| 3 | 07 March 2016
Visakhapatnam Coast |
Underwater Pontoon |
Second test launch
Depressed trajectory |
Success | |
| The K-4 missile was fired at a depressed trajectory. Starting from successfully clearing the launch tube and breaking the water surface to stage separation and maintaining the ballistic trajectory, the missile achieved all parameters before zeroing in on the pre-designated target with high accuracy.[25] | |||||
| 4 | 31 March 2016
Visakhapatnam Coast |
INS Arihant 20 m (66 ft) |
700 km (430 mi) | Third test launch
Submarine trial of K-4 |
Success |
| The missile was successfully tested from INS Arihant, 45 nautical miles away from Vishakhapatnam coast. The missile with a dummy payload was launched from the submarine in full operational configuration. The trial was carried out with the support of the personnel of Strategic Forces Command (SFC) and the DRDO provided all the logistics.[26][27][28][29] | |||||
| 5 | 17 December 2017
Visakhapatnam Coast |
Underwater Pontoon |
Fourth test launch | Failure | |
| K-4 missile did not activate during the test, with its battery getting drained after the launch command was given. It is believed that DRDO scientists were even unable to retrieve the missile from the test pontoon following the failure.[30][31] | |||||
| 6 | 19 January 2020
Visakhapatnam Coast |
Underwater Pontoon |
3,500 km (2,200 mi) | Fifth test launch | Success |
| The trial was carried in association with Strategic Forces Command (SFC) while the DRDO provided all logistic supports. The missile zeroed on the target with high accuracy reaching close to zero circular error probability. The missile travelled nearly 21 minutes and covered its full range of over 3,500 km.[32][33] | |||||
| 7 | 24 January 2020
Visakhapatnam Coast |
Underwater Pontoon 50 m (160 ft) |
Sixth test launch
Depressed trajectory |
Success | |
| Last developmental trial of K-4 making the weapon ready for its series of production and induction in the armed forces. The missile was tested for a reduced range to validate new technologies incorporated in the system. The weapon was tested in its deliverable configuration with the active participation of Navy personnel.[34][35] | |||||
- The Indian Navy is the only operator of K-4. As of September 2024, the deployment capacity stands at 8 missiles on Arihant-class ballistic missile submarines:[36]
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