TR Missile & Smart Munition Programs

Philip the Arab

Contributor
Think Tank Analyst
Messages
1,344
Reactions
4 2,247
Nation of residence
United States of America
Nation of origin
Jordan
There's a reason these are all concepts. There are even simpler guerrilla solutions such as double Rpg carrying Decoy, but on the field, slippered friends clash with pick up. You really don't need that much product.
Against real opponents though it would be useful, I'm surprised the Iranians haven't gone with a Kornet based concept for Hezb, and Hamas.

RPG decoy doesn't work for future modifications, but a missile with the RCS of a .50 bmg is very promising.
 

TheInsider

Experienced member
Professional
Messages
4,067
Solutions
1
Reactions
34 14,485
Nation of residence
Turkey
Nation of origin
Turkey
@TheInsider @Cabatli_53 @RadarGudumluMuhimmat
Would this concept work against APS if UMTAS could be redesigned?

View attachment 21907
It depends on the APS system. APS systems use different kinds of radars/RF sensors which means different RCS values. This missile has to be optimized for the RF band of the APS system. For example, F-35 is stealth against X band but not VHF band. I expect all subsystems on the tanks like APS, acoustic fire locater, laser warning system, electro-optic targeting system, and 360-degree surveillance systems to be integrated together in the future as an integrated tank defense system, so it might be a little tricky to fool it if that happens.
 

Anmdt

Experienced member
Naval Specialist
Professional
Messages
5,504
Solutions
2
Reactions
118 24,907
Nation of residence
Turkey
Nation of origin
Turkey
@TheInsider @Cabatli_53 @RadarGudumluMuhimmat
Would this concept work against APS if UMTAS could be redesigned?

View attachment 21907
6 KM range sounds a bit odd too, what is point of launching a short-range stealth munition (which i doubt the claim of small as a bullet) from an awkwardly non-stealth platform with a huge; radar, IR and acoustic signature?
Moreover claim for RCS looks a bit "odd" with those wings. This question comes to my mind:
-at which band, (X, Ka- Ku -MMW)
-at which angle-azimuth,
-at which kind of sensor (just radar or with irst)
-at which condition (wings on and off, or without wings),

However it looks great for UAV integration with those wings and streamlined profile, or with a propeller/ TJ attached rear as a loitering munition hard to be detected. At worst i would attach a booster to raise it high as possible and then let it glide down and hunt targets.
I would rather use this to penetrate well protected air defenses of units on the move, instead of trying to penetrate APS of individual tanks; once AAs are out, then let simple cheap munitions bombard them from above.
 

Test7

Experienced member
Staff member
Administrator
Messages
4,785
Reactions
19 19,937
Nation of residence
United States of America
Nation of origin
Turkey
@ANIL ŞAHİN

132. fleet prepares for SOM-J

1.jpg
 

dustdevil

Committed member
Think Tank Analyst
Messages
271
Reactions
669
Nation of residence
Turkey
Nation of origin
Turkey
I think you misunderstood me, I was describing methods to find targets if a certain type of method fails. If weather is bad we can use low flying missiles or spotter drones for target detection. TB2 type UAV, by altitude and SAL method is more vulnerable to weather. And weather is important.


Not trying to say “I was right”, but an example of bad weather affecting the operations. Don’t know if it’s just for extra safety or the weather is really bad.

CBs, the thunderstorm clouds are usually formed by sun energy input and usually effective in summer or they can be formed by weather fronts. The low deck of clouds or low visibility is another potential problem that may affect EO sensors on UAVs and may happen on different days.
 

Cabatli_TR

Experienced member
Staff member
Administrator
Messages
5,360
Reactions
81 45,455
Nation of residence
Turkey
Nation of origin
Turkey

Bogeyman 

Experienced member
Professional
Messages
9,192
Reactions
67 31,256
Website
twitter.com
Nation of residence
Turkey
Nation of origin
Turkey
TUBITAK SAGE announced the start of mass production for the SARB-83 (1000 lb class), a sequential penetrating aircraft bomb. For the Sert-82(500 lb class bunker drill), the R & D process continues.

As part of the Kuzgun modular munitions family, anti-personnel, bunker-piercing versions will be produced. The future of the Anti-radiation version has not been finalized. The project is expected to mature in 2022.

The TOGAN 81 mm smart mortar ammunition, which is also expected to be used in Songar SIHA, is about to enter mass production.
 
Last edited:

Fuzuli NL

Experienced member
Germany Correspondent
Messages
3,042
Reactions
26 8,687
Nation of residence
Germany
Nation of origin
Turkey
As part of the Raven modular munitions family, anti-personnel, bunker-piercing versions will be produced. The future of the Anti-radiation version has not been finalized. The project is expected to mature in 2022.
Raven = Kuzgun
 

Test7

Experienced member
Staff member
Administrator
Messages
4,785
Reactions
19 19,937
Nation of residence
United States of America
Nation of origin
Turkey
How big is the defense aficionado community, yet to be found out.

Curiosity is increasing day by day..This is more than a passion,some kind of disease:rolleyes:. Sept. 28,2009. We are still watching its flight with the same love in the 2021..

 

dustdevil

Committed member
Think Tank Analyst
Messages
271
Reactions
669
Nation of residence
Turkey
Nation of origin
Turkey

What is LGMF? (Edit: Turkish letters for LGMM, laser guided miniature missile)

Was it there before? Sorry if it is known....(edit: Yatağan, thought it was something else for a moment....)

 
Last edited:

Spook

Contributor
Messages
607
Reactions
2,106
Nation of residence
Albania
Nation of origin
Turkey
First controlled flight tests of Atmaca happened in 2016. In parallel with designing of the missile and its maturity as an product, guided tests increased and with unarmed prototypes missile tests carried in order.

In 19 September 2019 and 3 November 2019, different features and attacks concepts/profiles were tested. While first tests were land-based, first sea test of Atmaca was completed 3 November 2019.
For target, orange object with radar reflector was used.

In 1 July 2020, 25 September 2020 and 18 December 2020 total 3 tests happened. Atmaca succeeding in all tests, passed the first qualification tests.

In 1 July 2020 tests, Atmaca hit its target from 220km with sea skimming flight mode and pop-up maneuver. In an another test Atmaca switched to a new target using datalink during flight. (No info if KEMENT was used)

1622791687808.png


1622791376208.jpg


1622791392855.jpg


In 29 August 2020, Atmaca was tests were planned between 30 August and 5 September. TCG Işın was planned to be used as target. Tests were delayed.

In September 25 tests, Atmaca was successfully tested under EW attack. Atmaca's GPS was turned off and with limited navigation systems it successfully hit its target using its own INS.

During ITU Savtek 2021, SSB said that engine family between 3kN-5kN will be developed using KTJ-3200 as a foundation.

KTJ-3200 can't directly replace TR40. Atmaca and SOM needs some modifications to use it. 80 SOM is planned in the first phase, with a total of 415 SOM missiles. First delivery of KTJ-3200 is planned 2021.

Atmaca said to resist 12+G
Atmaca's cost is less than $500,000

Atmaca Phase 2 (Block 2) will earn 533mm torpido launch capability. It said that along with Ku-Band Active RF Seeker, IIR Seeker will be added. Cooled MWIR sensor is rumored.

1622795173734.png


1622795723344.png


More at (I can't translate all)

 
Last edited:

Tornadoss

Contributor
Messages
1,377
Reactions
4 2,627
Nation of residence
Czechia
Nation of origin
Turkey
First controlled flight tests of Atmaca happened in 2016. In parallel with designing of the missile and its maturity as an product, guided tests increased and with unarmed prototypes missile tests carried in order.

In 19 September 2019 and 3 November 2019, different features and attacks concepts/profiles were tested. While first tests were land-based, first sea test of Atmaca was completed 3 November 2019.
For target, orange object with radar reflector was used.

In 1 July 2020, 25 September 2020 and 18 December 2020 total 3 tests happened. Atmaca succeeding in all tests, passed the first qualification tests.

In 1 July 2020 tests, Atmaca hit its target from 220km with sea skimming flight mode and pop-up maneuver. In an another test Atmaca switched to a new target using datalink during flight. (No info if KEMENT was used)

View attachment 23141

View attachment 23142

View attachment 23143

In 29 August 2020, Atmaca was tests were planned between 30 August and 5 September. TCG Işın was planned to be used as target. Tests were delayed.

In September 25 tests, Atmaca was successfully tested under EW attack. Atmaca's GPS was turned off and with limited navigation systems it successfully hit its target using its own INS.

During ITU Savtek 2021, SSB said that engine family between 3kN-5kN will be developed using KTJ-3200 as a foundation.

KTJ-3200 can't directly replace TR40. Atmaca and SOM needs some modifications to use it. 80 SOM is planned in the first phase, with a total of 415 SOM missiles. First delivery of KTJ-3200 is planned 2021.

Atmaca said to resist 12+G
Atmaca's cost is less than $500,000

Atmaca Phase 2 (Block 2) will earn 533mm torpido launch capability. It said that along with Ku-Band Active RF Seeker, IIR Seeker will be added. Cooled MWIR sensor is rumored.

View attachment 23144

View attachment 23145

More at (I can't translate all)

So for ktj-3200 does that mean we don't have yet a local engine to for serial production of SOM and Atmaca?
 

Yasar_TR

Experienced member
Staff member
Administrator
Messages
3,254
Reactions
142 16,328
Nation of residence
United Kingdom
Nation of origin
Turkey
According to this, Atmaca will have taken 11 years to join the inventory.
The ktj3200 engine program first started in 2011. So that will have taken 10years.
These high tech machinery pieces take time to develop and become part of the defence forces’ equipment. Today hundreds of high tech pieces are being developed for the Turkish armed forces. Most of them are in development stage. When a piece of high tech equipment takes this long, it has to be accepted as normal as they have to go through certain steps before they can be accepted; Such as development, classification, acceptance tests etc. It is only normal that sometimes the technology applied, has to be changed in line with updates it requires, during the life of the development stage. This too adds to the delay.
I only hope that MDAS system and the engines for TFX and Hurjet are realised quicker than the two above examples!
 

Follow us on social media

Top Bottom