Borsuk (infantry fighting vehicle)

Last updated
Borsuk
BWP Borsuk - 221114-Z-YU201-1007.jpg
Borsuk during the 2022 state trials
Type Infantry fighting vehicle
Place of originFlag of Poland.svg  Poland
Production history
DesignerConsortium led by HSW
Manufacturer HSW
No. built5 (prototypes)
Specifications
Mass28 tonnes (30.9 short tons)
Length7.6 m (24 ft 11 in)
Width3.4 m (11 ft 2 in)
Height
  • Overall: 3.34 m (10 ft 11.5 in)
  • Turret ceiling: 2.95 m (9 ft 8 in)
Crew
  • 3 (commander, gunner, driver)
  • 6 troopers

Main
armament
Secondary
armament
Engine MTU 8V199 TE20 turbo diesel
720 hp (530 kW)
Power/weight25.7 hp/t (18.9 kW/t)
Transmission
  • Perkins X300 (prototypes)
  • Allison 3040 MX (production)
Suspension hydropneumatic
Operational
range
550 km (340 mi)
Maximum speed
  • Road: 65 km/h (40.4 mph)
  • Water: 8 km/h (5 mph)

Borsuk (Polish for Badger) is an amphibious infantry fighting vehicle produced by Huta Stalowa Wola, a part of PGZ (Polish Armaments Group). It is designed to replace the BWP-1 IFV that has been in service with the Polish Armed Forces since 1973 but is now obsolete.

Contents

Although often referred to as BWP Borsuk, BWP is not an official part of the name but rather an abbreviation of Bojowy Wóz Piechoty, the Polish term for infantry fighting vehicles.

Development

History

First demonstrator of the Borsuk,MSPO 2017 Borsuk demonstrator MSPO17b.jpg
First demonstrator of the Borsuk,MSPO 2017

The Borsuk IFV emerged from NBPWP Borsuk (Nowy Bojowy, Pływający Wóz Piechoty Borsuk - "New Infantry Amphibious Fighting Vehicle Borsuk") development program initiated in October 2014, when a contract was signed between the NCBR and a consortium consisting of Huta Stalowa Wola S.A. (leader), Ośrodek Badawczo-Rozwojowy Urządzeń Mechanicznych OBRUM Sp. z o.o., Rosomak S.A., Wojskowe Zakłady Elektroniczne S.A., Wojskowe Zakłady Inżynieryjne S.A. (currently HSW), Wojskowe Zakłady Motoryzacyjne S.A., National Defense University (currently War Studies University), Military University of Technology, Wojskowy Instytut Techniki Pancernej i Samochodowej and Warsaw University of Technology aiming at the development of a new IFV. The value of the contract was 75 million PLN (22.6 USD). 62 million PLN (18.68 million USD) was a grant from the NCBR. [1]

The vehicle is equipped with the ZSSW-30 unmanned turret developed under its own program by a consortium of HSW and WB Group. [2]

The first technology demonstrator of the new Borsuk IFV was unveiled at the MSPO 2017 exhibition with a more refined version being shown a year later. The 2018 variant differed from the original demonstrator by having side skirts, appliqué armor on the sides and composite rubber tracks (CRT) instead of steel link ones. [3] [4]

In 2018 the prototype underwent its first set of factory trials which resulted in introduction of additional upgrades. The new version presented in 2019 at MSPO exhibition had redesigned trim vane (it now rises from the top of the hull instead of the front as before), new headlights, different add-on armor and mounting points for mobile multispectral camouflage. [5]

In September 2020 the prototype successfully completed a series of extensive military hands-on trials conducted at Drawsko Training Ground (including a set of firing tests). [6] Preparation of the technical documentation of the vehicle for future production begun at the same time.

Construction of four additional prototypes was commissioned by NCBR in April 2022, which raised the development cost to 262.06 million PLN, of which 242.2 million PLN (58.7 and 54.3 million USD respectively at the exchange rate at that time) was financed by NCBR. [7] [1]

In November 2022 presentation and familiarization tests of Borsuk took place at the Orzysz Training Ground. They were witnessed by Polish Minister of National Defense Mariusz Błaszczak, HSW officials and the media. During the presentation it was announced that the qualification trials are expected to be completed by mid-2023 and that the 16th Mechanised Division will be the first recipient of the new vehicle. The same announcement also suggested that other types of ATGMs will be integrated with the ZSSW-30 turret and that the Borsuk's chassis will become a base for additional specialized vehicles. [8]

On February 28, 2023, the Armaments Agency (the procurement agency of the Polish MoD) signed a framework agreement with Huta Stalowa Wola for the delivery of 1,000 Borsuk IFVs and 400 auxiliary variants based the same chassis. Among those variants are combat reconnnaissance vehicle, command vehicle, armored recovery vehicle, MEDEVAC vehicle, and NBC reconnnaissance vehicle. [9] In this manner Borsuk will become a new fighting platform for the Polish Armed Forces and thus, in the Polish sources, is now often referred to as UMPG (Uniwersalna Modułowa Platforma Gąsienicowa - Universal Modular Tracked Platform, not to be confused with the Anders platform also referred to as UMPG). [9]

Self-propelled mortar variant with the M69 turret M69 Rak MSPO 2024.jpg
Self-propelled mortar variant with the M69 turret

According to the information provided by Col. Piotr Paluch during the meeting of the Standing Subcommittee for the Polish Defense Industry and Technical Modernization of the Polish Armed Forces (Podkomisja Stała do Spraw Polskiego Przemysłu Obronnego oraz Modernizacji Technicznej Sił Zbrojnych Rzeczypospolitej Polskiej, or OBN05S in short) which took place on July 6, 2023, the price of the Borsuk prototype with the ZSSW-30 turret was estimated at 36 million PLN (around 9.2 million USD at the time) as of 2020. [10] The first IFVs are expected to be delivered in 2024, auxiliary vehicles in 2026 and the whole program is to be completed by 2035. [10] There are also plans to acquire an engine from another supplier for the Borsuk. [10]

Two vehicles based on the Borsuk chassis were presented at MSPO 2024 - the base IFV variant as well as the first specialized vehicle, a self-propelled mortar fitted with a technology demonstrator of the new M69 Rak turret. The mortar variant retains the amphibious capability of the base chassis. [11]

Future

Currently the only existing variant of the Borsuk is the IFV variant with the ZSSW-30 turret, though the chassis (or its components) is intended to be the base for a whole family of vehicles. [10] The planned variants include:

3-view drawing of the Borsuk BWP Borsuk 3-view.svg
3-view drawing of the Borsuk

Description

Mobility

Borsuk prototypes are fitted with a powerpack consisting of a 720 hp (530 kW) MTU 8V199 TE20 turbo diesel engine which drives a Perkins X300 automatic transmission. [12] This allows the vehicle to reach speeds of up to 65 km/h on the road and 8 km/h in the water. The production vehicles will feature the same engine and a newer 3040 MX transmission from Allison. [13] Both transmissions have four forward and two reverse gears.

Ponar WHP35 suspension unit Ponar WHP35.jpg
Ponar WHP35 suspension unit

The running gear consists of six dual rubber-lined road wheels, with two return rollers on each side. The suspension is hydropneumatic, with the first prototypes equipped with the Horstman InArm units while the newer ones are fitted with WHP35 units designed by Ponar Wadowice, which are also meant to be used in production vehicles. [14] [15] The maximum weight of the Borsuk fitted with InArm suspension is 33 tonnes, while with the WHP35 it's 35 tonnes. Borsuk is able to use either steel or Soucy Defense's composite rubber tracks (CRT), with CRTs being preferred by the military. [3]

The vehicle is fully amphibious without any special preparations - crossing a body of water only requires raising the trim vane (which can be done from the driver seat without the necessity of leaving the vehicle). In the water Borsuk is propelled by two water jets with rotating nozzles that provide steering capability. [3] [16]

Armament

ZSSW-30

Borsuk is fitted with the ZSSW-30 remote control turret armed with the 30 mm Mk44S Bushmaster II chain gun and a coaxial 7.62 mm UKM-2000C machine gun. The turret also features two Spike-LR anti-tank guided missiles in a launch container mounted on its right side. The ZSSW-30 provides around 300 autocannon rounds, including over 200 ABM rounds, and 250 machine gun rounds in ready to use mode. This is one of the biggest first stage ammunition racks when compared to other similar systems. [2]

Use of a separate ATGM launch container, as opposed to other systems where launcher extends directly from an internal compartment of the turret, has some advantages. Among those are separation of the missiles from the rest of the turret (and thus greater safety of the crew and the turret itself) and ability to quickly replace damaged or destroyed container while in the field. [2] Both the autocannon and the machine gun can be reloaded and operated from the inside of the turret. The ATGMs can be reloaded from a hatch in the rear of the vehicle without the necessity for the crew to leave the vehicle (in the same manner as it is being done in the Bradley IFV. [2]

The autocannon fires at a rate of 200 RPM for standard ammunition, and 120 RPM for ABM. It has elevation angles extending from -9° to +60°. [2] The ATGMs can hit armour at ranges from 200 meters to 4 kilometers when guided manually, and up to 4.5 kilometers when in the fire and forget mode. [2]

Protection

Borsuk with rubber tracks and a frontal applique armor plate, NATO Days 2023 Polish Army BWP Borsuk right side NATO Days Ostrava-2023.jpg
Borsuk with rubber tracks and a frontal appliqué armor plate, NATO Days 2023

Chassis

Borsuk's chassis is made out of welded Armox 500T steel plates of varying thickness [15] arranged in such a way that they can function as spaced armor. This, according to official sources, gives the chassis STANAG 4569 level IV protection from the front and level III protection from the sides and the rear against ballistic threats, [16] as well as level lIla and IIlb against mine blasts. [1] Unofficial sources claim that Borsuk could be even better armored, with its chassis being able to stop Russian 30mm 3UBR6 and 3U8R8 rounds from the frontal arc (±30° from the centerline) and 12.7mm and 14.5mm from the sides, even though the latter type may cause some damage to the engine block. [15] The chassis can be up-armored as it's fitted with mounting points on the front and sides. While the side panels are fitted on since 2018, a front armor plate was first shown in the spring of 2023. [17]

Turret

The armor protection of the ZSSW-30 turret is not disclosed by the manufacturer, but according to unofficial sources, the armour consists of a thin layer of polyethylene fabric sandwiched between two steel plates and an additional piece of ceramic composite armour (two steel plates with alumina tiles in between) on the ATGM container. [15] This provides level III protection for both the main structure and the missile container as well as level II protection for external parts like the commander sight. [2] [15] ZSSW-30 also has mounting points for add-on armor plates or camouflage nets.

Active protection

In addition to armor, Borsuk is protected by the Obra-3 soft kill active protection system. This system consists of four laser detector sets (each one consisting of three detectors), a control unit and eight smoke grenade dischargers. The detectors work in 360° azimuth and in an elevation ranging from -6° to +30° and can detect light in the wavelength spectrum ranging from 0.6 to 11 μm [2] as well as distinguish between different laser sources, such as laser rangefinders or laser designators. [18] Obra-3 can work in different modes: manual, semi-automatic and automatic. [18] In the automatic mode the grenades are launched automatically into the specific path an incoming laser beam (immediately after the turret is rotated in this direction, which is also done automatically). The system uses GAk-81 phosphorus multispectral smoke grenades. [2] [19]

Situational awareness

Sensors

The driver of the Borsuk has access to three periscopes mounted in the hatch: a bigger one mounted centrally and two smaller ones mounted to the sides. When the trim vane is extended, it obstructs the view from the driver's periscopes, so a camera is mounted on a trim vane to provide vision for the driver when crossing water obstacles.

GOC-1 Nike gunner sight PCO GOC-1 NIKE on IFV Borsuk at NATO Days Ostrava-2023.jpg
GOC-1 Nike gunner sight

The vehicle is also equipped with the SOD (System Obserwacji Dookrężnej) omnidirectional observation system designed by WZE which consists of three camera modules (each with three daytime and three night vision cameras), image processing module, control computer and displays for the dismount compartment. It is integrated with the turret's FCS and allows both the crew and the dismounts to see the vehicle's surroundings. In the future the SOD system can be integrated with AR goggles for the crew and AI algorithms for faster classification of surrounding objects. [20]

The ZSSW-30 turret is equipped with the GOD-1 Iris sight for the commander and GOC-1 Nike sight for the gunner, both of which are integrated into the turret's fire control system and consist of a laser rangefinder as well as daytime and thermal optical channels. The commander's sight is mounted on top of the turret in an armored cover and provides 360° field of view with elevation angles from -20° to 60°, and the gunners sight provides elevation angles from -10° to 60° and is mounted on the left side of the turret and can be covered by an armored door. Both are equipped with an eye-safe laser rangefinder and two optical channels: daytime, with a light intensity sensor and thermal. [2] [21]

The turret is also fitted with an auxiliary optical sight which is not integrated with the FCS and is meant to be used in emergency situations from inside of the turret. It is located to the right of the gunner's primary sight behind an armored cover.

Fire control system

The ZSSW-30 fire control system made by WB Group provides full hunter-killer and killer-killer capabilities as well as superb accuracy when firing at moving targets from both moving and standing position. [2] The fire control system allows for shooting in every position of the turret relative to the hull in all three axis (which is not a common feature for other comparable systems). [2] The entire firing process is highly automated as both the gunner and the commander have an auto-tracker integrated into the FCS. The ZSSW-30 FCS is net-centric as it can transfer and coordinate information between different turrets as well as communicate with various types of UAVs. Both of those features greatly increase situational awareness and combat effectiveness of each and every vehicle. [2]

Operators

Future operators

Flag of Poland.svg  Poland
Up to 1400 vehicles are planned either in combat configuration armed with ZSSW-30 turret or in specialised combat variants. [22]
Negotiations for an initial contract of 159 vehicles are ongoing. [23]

Potential operators

Flag of Brazil.svg  Brazil
As part of its VBC Fuz programme the Brazilian army is looking at procuring 78 tracked infantry fighting vehicles. Among the potential vehicles are the BWP Borsuk, the CV90 and others. [24] [25] [26]
Flag of Romania.svg  Romania
Romania has a budget of $3.3 billion for 298 infantry fighting vehicles. According to local observers and public information, the potential candidates include the ASCOD 2, the Hanwha K-21 Redback, and the Rheinmetall KF-41 Lynx. The award procedure is ongoing, a winner will be selected in 2024, and the contract should also be signed in 2024. [27] BAE Systems is offering the AMPV equipped with a turret and the CV90. [28]
In September 2024, the PGZ discussed with the Romanian Army about the BWP Borsuk in its IFV variant. [29]

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