The IAR 99 ÃÂoim (Hawk) is an advanced trainer and light attack aircraft designed and produced by the Romanian aircraft manufacturer Avioane Craiova. It is capable of performing front line roles, including those of close air support and aerial reconnaissance.
Development of the IAR 99 begun in 1975, and the prototype conducted its maiden flight on 21 December 1985. Serial production commenced two years later. The aircraft is of semi-monocoque design, with tapered wings and a swept-back tail unit. A large blade-type antenna installed beneath the nose on the port side of the fuselage gives the IAR 99 a distinctive appearance. Introduced by the Romanian Air Force during the late 1980s, the IAR 99 gradually displaced both the Aero L-29 Delfin and Aero L-39 Albatros as the primary jet trainer of the service.
Since its introduction, various modifications and variants of the IAR 99 have been implemented or proposed. Various small changes made during the 1990s were centred around boosting safety and lowering maintenance demands, as well as to adapt it for use as the lead-in trainer for Romania's MiG-21 Lancer fleet. A more extensive upgrade involving American-sourced avionics was worked on, including the adaption of three IAR 99s as flying testbeds and aerial demonstrators, but was ultimately not rolled out to production aircraft. During the early 2020s, the existing IAR 99 airframes were modernised for continued service with the Romanian Air Force. Despite marketing and development efforts, no export sales have been secured for the type to date.
In 1975, design work on what would become the IAR 99 commenced, the project would produce the first jet trainer to be both fully designed and built in Romania. Four years later, funding was approved for the construction of the first aircraft by I.Av. Craiova; at the time, the firm was also engaged in the manufacture of the IAR 93 attack aircraft. In 1983, the existence of the IAR 99 was publicly revealed at the Paris Airshow; at the event, it was claimed that the aircraft was already being test flown. On 21 December 1985, the prototype (S-001) performed its maiden flight with Lt. Col. Vagner ÃÂtefÃÂnel at the controls. S-002 served for static (ground) testing, S-003 being the second flying prototype (later re-serialled 7003).
The aircraft entered series production in 1987, with 17 aircraft delivered to the Romanian Air Force by 1989.. Early refinements and post-delivery modifications were focused around increasing operational safety as well as ease of maintenance.
In 1990, the fall of the Eastern Bloc created new export opportunities for the aircraft. Despite the aircraft possessing excellent aerodynamic and handling qualities, it was left behind in several competitors largely on account of its obsolete avionics. Accordingly, upgrades became a commercial priority.
The first upgrade attempt was made in 1990 by I.Av.Craiova together with the Texas-based Jaffe Aircraft Corporation. Aircraft 708 and 709 were modified by installing Honeywell avionics, while the canopy was changed to a two-piece design instead of the original one piece; this change would be retained for all subsequent aircraft. 708 took its first flight on 8 August 1990, followed by 709 weeks later. The aircraft were displayed at the 1990 Farnborough Airshow, being proposed for the Joint Primary Aircraft Training System program for the United States of America, although this work resulted in no orders. In 1991, aircraft number 712 was outfitted with Collins avionics and took part in a show in Ankara, Turkey. Subsequently, aircraft 708, 709 and 712 were reconfigured to Standard and delivered to the Romanian Air Force.
In 1996, the upgrade program of the IAR 99 was revived with the need for a lead-in trainer for the newly upgraded MiG-21 Lancer. The Israeli company Elbit was chosen as an integrator. The avionics package selected was stated to be compatible with fifth generation fighter systems and it was inspired by the MiG-21 Lancer upgrade, but adapted to the requirements for the IAR 99. The first upgraded IAR 99 was the 18th production aircraft (number 718), which performed its first flight on 22 May 1997. The upgraded IAR 99 was displayed at Paris in 1997 and Farnborough in 1998.
On 6 August 1998, the Romanian Government approved the introduction into series production of the upgrade program for 24 IAR-99 ÃÂoim, out of which four were originally scheduled to be delivered by 2001. On 20 April 2000, the Romanian Ministry of National Defence signed a contract covering all 24 aircraft; however, the scope was reduced to only 12 aircraft on 14 December 2000. Of these, seven IAR 99s were to be new-builds (numbers 719âÂÂ725) while five were upgraded from existing airframes (numbers 709, 711, 712, 713, 717). The upgraded aircraft were delivered between 2003 and 2008, gradually replacing the L-39 Albatros' in service with the Romanian Air Force's training school. Thus, the Romanian Air Force will have 12 IAR 99 C ÃÂoim (upgraded) and 11 IAR 99 Standard, with 7003 remaining with Avioane Craiova SA as demonstrator aircraft.
In 2015, a consortium composed of Avioane Craiova, and announced that an enhanced version of the IAR 99 called IAR 99 TD is under development. A single airframe will be built with a new avionics suite, an engine and radar. The Leonardo Vixen 500E radar was chosen and requires lengthening the nose by 900mm. A new powerplant which supports computer control is required to replace the Rolls-Royce Viper engine, which had been designed during the 1950s; this in turn will necessitate a twice as big air intake. A prototype is expected to be completed by 2022.
In December 2020, Elbit Systems announced they had been awarded the contract to upgrade the remaining 10 IAR 99 Standard airframes in service with the Romanian Air Force. The upgrade, performed by Avioane Craiova, was to be finished by 2024. However, due to several delays, the first aircraft was modernized in December 2023. One factor in these delays has been the Russo-Ukrainian war as suppliers were requested to put other projects on hold to prioritise aid to Ukraine.
The fuselage of the IAR 99 is of conventional semi-monocoque construction, being all-metal and possessing an oval cross-section. It is equipped with retractable tricycle landing gear, each unit being equipped with a single wheel and an oleo-pneumatic shock absorber; when retracted, the landing gear is full enclosed. The IAR 99 is powered by a non-afterburning model of the Rolls-Royce Viper turbojet engine, which also powered the IAR 93 attack aircraft. Installed within the rear fuselage, air is supplied to the engine via a pair of lateral intakes set on either side of the fuselage in line with the rear of the cockpit. No air brake is present.
The IAR 99 features a low-mounted cantilever monoplane wing with unswept leading and trailing edges along with a three-degree dihedral. It is equipped with ailerons and trim tabs. The wing employs a conventional structure, comprising a pair of spars, webs and flanges. Furthermore, the wing is equipped with a total of four underwing hardpoints that permit the platform to perform weapons training and light attack missions. The tail unit features a rear-swept fin and a balanced rudder; the tailplane is unswept, lacks any dihedral, and features balanced elevators. Trim tabs are present in each elevator and the rudder.
The aircraft has a tandem-stepped dual-control cockpit, which is equipped with Martin-Baker Mk 10 zero-zero ejection seats. The instructor's seat at the rear position is raised by 35 cm to provide better visibility. The canopy was made as a single piece (prototypes and planes 701âÂÂ707), later changed to a two-piece canopy, both opening to the starboard side. The cockpit is equipped with Liquid Crystal Displays (LCDs) and HOTAS flight controls. Both the pilot and the instructor are equipped with a DASH Display and Sight Helmet identical to those used on Romanian MiG-21 Lancer fighters; this helmet guides the onboard weapons systems to the pilot's line of sight and (via the visor's display) confirms when target acquisition has been achieved. The visor also displays the data from the HUD (Head-Up Display) while flight and navigation data are displayed on HUD, on the helmet DASH and MFDC (color multifunction displays).
Elbit is supplying the aircraft's advanced avionics suite installed on a MIL-STD-1553B data bus. The advanced avionics suite, including communications, navigation, identification systems and the cockpit configuration, are similar to those of the MiG 21 LanceR and F-16 fighter aircraft. The IAR 99 is also equipped with video and debriefing systems.
The communication systems include VHF and UHF communications, voice-activated intercom and an IFF transponder. The flight systems include a VOR/ILS, linked VHF omnidirectional antenna radio ranger linked to the instrument landing system. Other navigation tools include distance measuring equipment (DME), an automatic direction finder (ADF), a Northrop Grumman inertial navigation system and a Trimble GPS system. One of the best features of the aircraft's avionics is a virtual training system that allows, based on a data link system, inflight simulations of firing and air combat capabilities using two or more aircraft.
The electronic warfare suite of the IAR 99 is based on the Elisra Electronic Systems radar warning receiver and electronic countermeasures pod plus a chaff and flare decoy dispenser. The systems are integrated through the 1553 data bus. The radar warning receiver detects pulse-Doppler, pulse and continuous wave radar threats and provides threat identification by comparing signal characteristics against a threat database.