Footage of the Russian homemade robotic platform SEM-350. The SEM-350 Veteran ground drone was developed by NPO TsVBP and is a modular platform; its design allows you to change its equipment to suit the type of task being performed in the field. Reportedly, the Russian military has already received five copies of SEM-350 robots for testing, they have already been used, but there is no video yet. The robotic complex has a good load capacity, it reaches 400 kg. The SEM-350 robot can evacuate the wounded, transport ammunition and be used as a manipulator and ground-based kamikaze drone. The robotic complex is also equipped with weapons; it is possible to install machine guns and grenade launchers. The maximum speed of the platform is up to 20 km/h, autonomy up to 4 hours, range up to 2 kilometers, may vary depending on the communication module. Platform weight: 160 kg
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The Tetrahedron electronic warfare system, designed to combat all types of modern kamikaze FPV drones, was tested by Russian military personnel. Testing on the Gadfly FPV drone will be shown. The Tetrahedron electronic warfare complex, unlike many new electronic warfare systems, uses frequencies of 400-500 MHz, at which some drones are now controlled, to suppress drones. In general, the complex operates at frequencies from 400 to 5900 MHz; this is the maximum configuration of the complex, equipped with several electronic warfare domes.
According to the developers, the complex suppresses drone control channels with wide-range interference, and also uses a frequency shift of the interference. The Tetrahedron electronic warfare system, depending on the configuration, has a power from 100 Watts to 450 Watts and suppresses drones at a range of 40 to 500 meters. The weight of the complex is from 10 to 40 kg. Power supply from 12v to 24v. The price of electronic warfare equipment "Tetrahedron" is from 230,000 to 515,000 rubles, or from 2,500 to 5,500 $.
According to the developers, the complex suppresses drone control channels with wide-range interference, and also uses a frequency shift of the interference. The Tetrahedron electronic warfare system, depending on the configuration, has a power from 100 Watts to 450 Watts and suppresses drones at a range of 40 to 500 meters. The weight of the complex is from 10 to 40 kg. Power supply from 12v to 24v. The price of electronic warfare equipment "Tetrahedron" is from 230,000 to 515,000 rubles, or from 2,500 to 5,500 $.
Russian mechanics inspected the homemade Ukrainian BMPT "Azovets", which is an analogue of the Russian BMPT "Terminator". The Azovets BMPT was developed in 2015 on the basis of a bulldozer, which was previously made from a demilitarized T-64 tank. On the BMPT, they planned to install two combat modules with 23-mm twin GSh-23 cannons, or 30-mm GSh-30 cannons, and the developers also planned to install an ATGM and two 7.62 mm machine guns. The project to create the Azovets BMPT was closed due to financial scandals, and the combat vehicle itself was buried; the production cost of the Azovets BMPT was $5 million. Details in the video.
Russian troops received Su-34 front-line bombers and BMP-3 infantry fighting vehicles produced in 2024. BMP-3 were transferred to Kurganmashzavod, which has been increasing production volumes of military equipment for two years. The BMP-3 has a powerful weapon system and is equipped with an automated fire control system. The armored personnel carrier is equipped with a 100 mm 2A70 cannon and a 30 mm 2A72 gun, technical information is available on the channel. Su-34 aircraft were produced by the Novosibirsk Aviation Plant named after V.P. Chkalova. The Su-34 is now actively used by Russian aviation; FAB-500 air bombs are most often used. The plant is awaiting a new stage of modernization and technical re-equipment of production. The enterprise is provided with stable workload both for state defense orders and for promising projects. In this regard, it is planned to attract new employees. The number of aircraft and combat vehicles produced is not reported.
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Hello, I stumbled on this video of a Russian anti-drone turret to be set up on AFVs. I'm no expert, but while the thing does not look cumbersome, the rate of fire and the strong recoil make me doubt its accuracy. Deferring the question to military educated people, thanks in advance. 
https://t.me/intelslava/57125
https://t.me/intelslava/57125
A prototype of a turret for protecting armored vehicles from FPV drones was shown by the Russian company Lobaev Arms. According to the manufacturer, a prototype of this system is currently being tested. The decision to create an anti-drone gun stems from the need to find an asymmetric and at the same time cost-effective answer to the threat of FPV drones to armored vehicles. The anti-drone gun will be a compact robotic turret - at this stage, the selection of weapon caliber is underway. Now the choice is between a cartridge for 12-gauge smoothbore shotguns, probably with buckshot, and also a standard intermediate cartridge for the Russian army, 7.62x39 mm caliber. Among the advantages of the complex are its compactness and speed of deployment, which takes only three minutes.
The Soviet 68-ton super tank IS-7 will be restored in Russia. After restoration, the tank will return to the 1st pavilion “Heavy tanks and self-propelled guns of the USSR” of the Patriot Park Tank Museum. The IS-7, also called Object 260, is considered one of the most powerful domestic tanks; a total of 6 of them were built. Development of the tank began in the summer of 1945. The tank was armed with a 130 mm S-70 rifled gun. There were also two KPVT machine guns and six 7.62 mm RP-46 machine guns. The IS-7 was equipped with an electrically driven automatic loader. This brought its rate of fire to a fantastic 6-7 rounds per minute for the 1940s. The tank had 150 mm frontal armor, which was not penetrated not only by the 128 mm gun of the German Maus tank, but also by its own 130 mm S-70 gun. The IS-7 is equipped with an automatic fire extinguishing system designed to turn on three times in the event of a tank fire. It was installed in the engine and transmission compartment of the car. In February 1949, the USSR decided to stop all work on tanks weighing more than 50 tons, and this is where the history of the IS-7 ended. Engine power - tank 1050 hp. Maximum speed on the highway is up to 60 km/h. Fuel range is 300 km. Crew - five people.
Hello. This is a prototype, it is unknown whether they will make it. When installed on armored vehicles it will stand rigidlyHello, I stumbled on this video of a Russian anti-drone turret to be set up on AFVs. I'm no expert, but while the thing does not look cumbersome, the rate of fire and the strong recoil make me doubt its accuracy. Deferring the question to military educated people, thanks in advance.
https://t.me/intelslava/57125
Servicemen from the repair units of the Russian army spoke about their work. The work of these people is little publicized, but they play an important role in the units of the Russian army. On average, it takes specialists about two days to repair one combat vehicle. The video shows the repair of a Russian diesel engine UTD-20, developed in 1965.
Russian military personnel of repair and restoration units showed a homemade remote-controlled transporter. The transporter has no name, it has four motor wheels and is capable of speeds of up to 20 kilometers per hour. In the future they plan to install small arms on it, perhaps then they will also install cameras on it. Technical details in the video.
The Russian army has begun testing the prototype of the Stalker heavy robotic demining complex. The remote-controlled robot sapper "Stalker" was developed by the DST-Ural plant; earlier we showed another robot sapper MT-2 from this company. The robot is designed to clear the area from explosive objects and carries out mine clearance at a depth of up to 30 centimeters, in all types of minefields. The sapper robot is controlled remotely and operates at a distance of up to one kilometer in the presence of interference, without interference, the communication range is up to 3 kilometers, and the image from its four video cameras can also be broadcast to the command post.
The developers note that the price of the robot is lower than that of foreign analogues, but they do not say what it is. The mass of the machine with the working element is a rotating striker trawl, 27 tons. The robot is equipped with an EMZ engine with a power of 540 horsepower and is equipped with a hydrostatic transmission. The maximum speed is up to 10 km/h, and when trawling - from 1 to 5 km/h.
The developers note that the price of the robot is lower than that of foreign analogues, but they do not say what it is. The mass of the machine with the working element is a rotating striker trawl, 27 tons. The robot is equipped with an EMZ engine with a power of 540 horsepower and is equipped with a hydrostatic transmission. The maximum speed is up to 10 km/h, and when trawling - from 1 to 5 km/h.
Russian sappers received new shoes to protect them from mines. Shoes do not provide one hundred percent protection, but they minimize the consequences of damage from anti-personnel mines. Several shoe options are currently being tested. Mine resistant shoes SZS 10P - designed for squad commanders, for everyday wear. Provides protection for the upper part of the foot from shrapnel and the lower part of the shoe, protects against an explosion on the PFM-1 "Lepestok" mine containing 37 grams of explosive. The shoes weigh about 2.5 kilograms and have a 35mm sole. The second model, SZS 35 boots, have a higher protection class; these shoes are worn directly by sappers. SZS 35 boots protect against Lepestok and PMN-4 mines containing up to 50 grams of explosives. And the third boots, called “Spider,” protect against the explosion of PMN-2 mines; these mines contain up to 100 grams of explosives. The peculiarity of the design of this shoe is that the place where the mine is detonated by contact does not occur under the foot; the shoes have blades placed forward and backward, and the mine is detonated under them.
Despite all the efforts of the military industry, simple effective protection of tanks from FPV drones has not yet been invented. Therefore, the crews of Russian tanks install homemade protection against drones on their tanks. Sometimes the defense looks ridiculous, but these solutions work. The apotheosis of homemade defense was this design: the crew of the Russian T-72 tank simply covered the tank on all sides with shields. The design protects the tank from drones, but turret rotation and visibility are now limited.
The Russian unit of Espanyol received a robotic turret with a Kalashnikov machine gun for testing. It is not known who produces the turret; it will probably become known after testing. Externally, the turret does not look like a handicraft product. Details in the video.
Rostec demonstrated footage of factory tests of the Terminator BMPT at the test site; each combat vehicle undergoes them before being sent to a military unit. The Terminator BMPT is based on the T-90 tank chassis and is produced on a limited basis at Uralvagonzavod. The combat vehicle is armed with two 30-mm 2A42 cannons, four 9M120-1 Ataka-type anti-tank guided missiles with a laser guidance system and a 7.62-mm modernized Kalashnikov tank machine gun. In addition, the BMPT is equipped with two AGS-17 grenade launchers. The crew of the Terminator combat vehicle is five people.
The first batch of Su-35S fighters produced in 2024 was transferred to the Russian Ministry of Defense. The aircraft underwent a series of ground and flight tests and flew from the airfield of the aircraft plant named after. Yu.A. Gagarin in Komsomolsk-on-Amur, to the place of service. The Su-35 has a low effective dispersion area; for example, the American Patriot air defense system sees the fighter only at a distance of about 70 km, instead of the standard 130 km. The Su-35 has an AL-41F-1S thrust vectoring engine, which began production in 2010 and is also installed on the Su-57 fifth generation fighter. The Su-35S made its first flight in 2008, the maximum speed of the aircraft is 2500 km/h, the flight range is up to 4500 km, and the combat radius is up to 1800 km. Combat load – 8 tons, service ceiling – 20 km. The service life of the Su-35 aircraft is 6000 flight hours or 30 years. Su-35S cost: from 80 to 100 million dollars.
Gradually, news about drones and UAVs is beginning to displace traditional types of weapons, and every year there will be more and more of them. Information has appeared about a new Russian homemade remote-controlled robotic platform, which we previously showed, they are already being used by troops. Unlike many drones, this is already a working prototype. The ground drone is called NRTC "Courier", this project is being implemented with the support of military commander Chengis Dambiev and Boris Rozhin. Technical information can be seen on the screen. The “Courier” robot is multifunctional; it can be equipped with an AGS-17 “Plamya” grenade launcher, a “Kord” machine gun, RPG-7 grenade launchers, ATGMs, RPO “Shmel-M” and other weapons. The robot can use an unknown model of electronic warfare power up to 560 W. In addition, the robot installs TM-62 and TM-83 anti-tank mines, working as a mine layer. The robot has a camera mounted on a rod and has armor plates, but their thickness is unknown. The robot control range is up to 10 km, autonomy is up to 72 hours. The robot weighs 250 kg, is equipped with an asynchronous electric motor with a power of 6 kW and can reach speeds of up to 35 km/h.
Episodes of assembly and testing at the test site of the Russian T-90M Proryv tank at the Uralvagonzavod tank plant. The plant currently operates three shifts, seven days a week. The production of T-90M Proryv tanks is growing, they are gradually displacing the modernized T-72B3 tanks from the assembly line, the number of tanks produced is not reported. The video shows episodes of the assembly of the T-90M “Breakthrough” tank, its transmission assembled at the factory, installation of the turret, and the autoloader of the carousel-type tank. The T-90M “Breakthrough” tank is constantly being modernized, it has already been reinforced on the nose bottom shield with additional armor for protection against mines, dynamic protection has been added to the turret, frontal protection has been improved, they say that there is already a new transmission. Improvements are not always officially reported. Each tank is tested at the factory test site, which will be shown at the end of the video. The main armament of the T-90M tank is a 125 mm smoothbore gun. The firing range of the gun with armor-piercing cumulative and sub-caliber ammunition is 4,000 meters, with guided missile ammunition - 5,000 meters, and with high-explosive fragmentation ammunition along a ballistic trajectory - up to 10,000 meters.
Russian engineering units have begun using the new Patrol-IV armored vehicle. Armored vehicles of the "Patrol" family appeared in 2014, they are produced by the company "Astace", there are medical, police, military and special modifications of the vehicles. The Patrol-IV armored vehicle is built on the KAMA3-5350 chassis and has fourth class armor according to OTT 9.1.12. The crew of the armored vehicle is protected from damage by small arms of 5.45 mm and 7.62 mm caliber. Detonations of explosives weighing up to 6 kg, under the wheels of a car, or detonations of explosives up to 10 kg, two meters from the car. High molecular weight polyethylene panels are installed inside the machine to protect against splinters. The vehicle can be equipped with mesh and lattice screens for protection against RPGs. It is possible to install a turret with a machine gun. The vehicle is capable of carrying 11 people with a driver and is equipped with a KAMAZ-740.30 engine with a power of 260 hp. Load capacity 3000 kg.
The Rybinsk Shipyard company and the Kalashnikov concern demonstrated the launching of the Russian hovercraft "Haska-10" of project 03660 onto the ice. The vessel was designed as a civilian transport, but the navy is also showing interest in this project. They plan to use it in the Arctic, Siberia and the Far East. The hovercraft was first shown in 2020 and is currently undergoing sea trials. Flexible skegs – rubber-fabric cylinders of high elongation – are attached to the sides of the vessel’s hull; this is the first time this has been done in Russia on ships of this displacement. The vessel is equipped with 2 1500 hp engines. and reaches a speed of up to 40 knots, has a range of up to 400 miles with an autonomy of up to three days. Total - vessel displacement is 45 tons, payload - 9.3 tons, crew 3 people.
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