Learjet 40
The Learjet 40 is a light business jet developed and manufactured by Bombardier Aerospace as a compact derivative of the Learjet 45, featuring a shortened fuselage by approximately 60 cm and reduced fuel capacity to optimize for shorter-range operations while maintaining high performance.[1][2] Introduced with its first prototype flight on August 31, 2002, and receiving FAA certification in July 2003, the aircraft entered service in 2004 and remained in production until 2009, with over 130 units built during its run.[1][3] Powered by two Honeywell TFE731-20AR turbofan engines each producing 3,500 pounds of thrust, the Learjet 40 accommodates a typical crew of two pilots and up to seven passengers in a club-four seating configuration, including an optional belted lavatory seat, with a spacious cabin volume of 368 cubic feet and amenities such as fold-out tables, a large lavatory with sink, and 63.6 cubic feet of baggage space.[1][3][2] Key performance metrics include a maximum cruise speed of 465 knots, a normal cruise speed of 436 knots, and a maximum range of 1,707 nautical miles with NBAA IFR reserves, enabling nonstop flights such as New York to Miami or London to Ibiza.[1][3] The aircraft's dimensions comprise a length of 55 feet 5 inches, a wingspan of 47 feet 9 inches, and a height of 14 feet 2 inches, with a maximum takeoff weight of 20,350 pounds, and it complies with FAA Part 25 transport category safety standards as well as FAR-36 noise regulations at 74.4 EPNdB during takeoff.[1][2][3] Equipped with the Honeywell Primus 1000 avionics suite and Universal UNS-1E GPS for enhanced navigation, the Learjet 40 emphasizes efficiency and reliability in the light jet segment, with takeoff and landing distances of 4,330 feet and 4,033 feet respectively under standard conditions.[1][3] A notable variant, the Learjet 40XR introduced in October 2004, incorporates upgraded TFE731-20BR engines for improved climb rates, higher takeoff weights, and faster cruise speeds up to 457 knots true airspeed at Mach 0.81, extending production of the line until 2012.[2] This model solidified the Learjet 40's reputation for balancing speed, range, and passenger comfort in private and corporate aviation.[3]Development
Background
The Learjet 40 was developed as a shortened derivative of the Learjet 45, with the fuselage reduced by 24.5 inches (62 cm) to position it as a more efficient light business jet while preserving the parent model's aerodynamic and structural advantages.[4] This modification allowed for a lighter airframe tailored to the light-jet market niche, addressing the need for a compact aircraft that could accommodate up to seven passengers in a configuration optimized for short-haul business travel.[5] The design goals centered on enhancing the capabilities of the earlier Learjet 31A by integrating performance and comfort improvements from the Learjet 45, such as a larger cabin volume and better pressurization, without the added size and cost of the midsize model.[6] Priced approximately $2 million less than the Learjet 45, the 40 was engineered to offer superior speed and efficiency for executive operations, filling a gap between legacy light jets and larger contemporaries.[5] Bombardier Aerospace, through its Learjet division, publicly announced the Learjet 40 at the 2002 Farnborough Air Show, establishing it as a direct successor to the Learjet 31A in the competitive light business jet segment.[7] The aircraft was marketed with an emphasis on high-speed performance, achieving a maximum cruise speed of Mach 0.81, and a practical range of around 1,800 nautical miles, making it well-suited for regional business missions in the early 2000s market.[8]Testing and certification
The Learjet 40 prototype was assembled at the Learjet facility in Wichita, Kansas, as a modified and shortened version of the existing Learjet 45 airframe. Ground testing, including systems integration and structural evaluations, commenced in early 2002 following the initial rollout of the prototype aircraft. These preliminary tests validated basic functionality prior to flight operations.[9] The first flight of the prototype (serial number 45-001) occurred on August 31, 2002, departing from Wichita Mid-Continent Airport under clear conditions. Piloted by test pilots Pete Reynolds and Doug May, the 2-hour, 19-minute sortie reached an altitude of 47,000 feet at 270 knots, confirming initial aerodynamics, stability, and control characteristics. Just five days later, on September 5, 2002, the first production-standard prototype (serial number 2001) completed its maiden flight from the same airport, lasting 2 hours and 56 minutes and ascending to 51,000 feet while performing early systems checks. As a derivative of the Learjet 45, the Learjet 40 leveraged prior design data to streamline this phase.[9][10] The comprehensive flight test program utilized both prototypes, accumulating hours across phases that included high-speed evaluations, stall testing, performance assessments, and full systems integration. Conducted primarily at Wichita, the effort proceeded smoothly without major anomalies, enabling rapid progression. In total, the testing campaign spanned less than 11 months from the initial flight.[11][12] The Learjet 40 achieved FAA type certification under FAR Part 25 on July 11, 2003, demonstrating compliance with airworthiness standards for transport-category aircraft. European JAA validation followed in January 2004. Initial customer deliveries began shortly thereafter in early 2004, marking entry into service.[11][12]Design
Airframe
The Learjet 40 airframe employs a conventional low-wing monoplane layout with a swept-wing design and T-tail assembly, optimized for high subsonic flight speeds. The overall structure is a pressurized semi-monocoque construction primarily utilizing aluminum alloys, providing a balance of strength, lightness, and durability while meeting FAA Part 25 airworthiness standards.[13] The aircraft measures 55 feet 6 inches (16.92 m) in length, with a wingspan of 47 feet 9 inches (14.56 m) and a height of 14 feet 3 inches (4.34 m), enabling efficient operation in the light business jet category.[14] The fuselage is an aluminum semi-monocoque structure, shortened by 24.5 inches compared to the Learjet 45 to accommodate 6 to 7 passengers in a more compact configuration while maintaining pressurization up to 51,000 feet.[4] It features stressed aluminum skins, transverse frames, and longerons spaced approximately 5 inches apart, with clad alloys such as 2024-T3 and 7475-T7351 to resist corrosion and contain cabin pressure.[13] The cabin measures 17.7 feet in length, 5.1 feet in width, and 4.9 feet in height, offering 363 cubic feet of volume for enhanced passenger comfort relative to earlier Learjet models.[15] The wings adopt a supercritical airfoil section swept at 13.4 degrees at the leading edge, with a straight trailing edge and an aspect ratio of approximately 7.3 to support efficient cruise at Mach 0.81 while minimizing drag.[4] Winglets are incorporated as standard for improved aerodynamic efficiency and reduced fuel consumption, constructed with composite materials integrated into the primarily aluminum wing structure that includes three main spars and machined skins.[14] Dihedral is set at 3 degrees to enhance stability during high-speed operations.[16] The landing gear is a retractable tricycle arrangement with dual wheels on the main gear and a single wheel on the nose, housed in fuselage bays with composite fairings for drag reduction and weight savings.[1] The maximum takeoff weight is 20,350 pounds (9,231 kg), supported by the robust aluminum and selective titanium alloy framework in critical load-bearing areas.[1] Composite elements are also used in non-structural fairings and access panels to further optimize weight without compromising the airframe's integrity.[17]Powerplant and systems
The Learjet 40 is powered by two rear-mounted Honeywell TFE731-20AR low-bypass turbofan engines, each rated at 3,500 lbf (15.6 kN) of thrust.[18][19] These engines integrate with the aircraft's systems through engine-driven accessories, including fuel, hydraulic, and electrical pumps, enabling efficient high-speed cruise performance while minimizing noise and fuel consumption.[19] The fuel system features integral tanks in the wings and fuselage, providing a usable capacity of 5,375 lb (2,438 kg).[18][16] Fuel is supplied to each engine via independent wing tanks, with crossfeed capability and a gravity-transfer fuselage tank; single-point pressure refueling is standard, and engine bleed air supports anti-icing for the nacelles and airframe leading edges.[18][16] Avionics are centered on the Honeywell Primus 1000 integrated suite, which includes a four-tube electronic flight instrument system (EFIS) with 8 x 7-inch displays for primary flight, navigation, and engine indications.[18] The system incorporates traffic collision avoidance (TCAS 2000), enhanced ground proximity warning (EGPWS), Primus 660 weather radar, and a Universal UNS-1E flight management system (FMS) with embedded GPS, all powered by the 28 VDC essential bus for reliable situational awareness and automation.[18][16] The electrical system operates on 28 VDC, supplied by two 300-amp engine-driven starter/generators, with backup from two 24-volt nickel-cadmium batteries and an emergency battery for 30-60 minutes of essential power.[18][16] Dual 200 VAC alternators support windshield heating, and the system distributes power across main, essential, and emergency buses to avionics, lighting, and environmental controls.[18][16] Environmental control relies on engine bleed air for pressurization and conditioning, achieving a 9.4 psi differential that maintains an 8,000 ft cabin altitude at the aircraft's 51,000 ft service ceiling.[18][4] A two-zone air cycle machine provides cooling and heating, regulated by an electronic control unit, while electric anti-icing protects probes and windshields.[18][16] Hydraulic power is delivered by a 3,000 psi system with two engine-driven pumps and one electrically driven auxiliary pump, actuating the landing gear, flaps, spoilers, brakes, and thrust reversers.[18][16] The system includes a brake accumulator for emergency operations and integrates with flight controls for precise handling.[18][16]Variants
Learjet 40
The Learjet 40 is the baseline model of a light business jet family produced by Bombardier Aerospace, receiving FAA certification in July 2003 and entering service with initial customer deliveries in January 2004. A total of 133 units were built across the Learjet 40 and its variants, with approximately 40 base Learjet 40 models produced.[20][5][20][3] Derived from the Learjet 45 with a shared airframe design including the same wing, engines, and cockpit layout, the Learjet 40 features a shorter fuselage to optimize it for efficiency in shorter missions.[5][20][3] Equipped with two Honeywell TFE731-20AR turbofan engines each providing 3,500 pounds of thrust, the Learjet 40 delivers a maximum cruise speed of 465 knots and a maximum range of 1,707 nautical miles with NBAA IFR reserves and four passengers. These specifications highlight its emphasis on high-speed performance and short-field capabilities, enabling rapid point-to-point travel while accommodating up to 65 cubic feet of baggage (50 external + 15 internal). The aircraft's design prioritizes a spacious cabin for its class, with a volume of 368 cubic feet supporting configurations for productivity during flight.[3][1][21] Intended as a light business jet for 4 to 6 executives, the Learjet 40 focuses on speed and operational flexibility rather than extended range, making it suitable for regional business travel with quick access to smaller airports. Its initial production run targeted core market entry by offering a cost-effective alternative to larger jets without compromising on performance essentials like a steep climb rate and reliable short-field operations.[1][5] In contrast to the later Learjet 40XR, the baseline Learjet 40 lacks upgraded engine enhancements and performance modifications, such as increased thrust reserves for improved hot-and-high operations and climb rates, positioning it as the standard entry-level model in the lineup.[22]Learjet 40XR
The Learjet 40XR is an enhanced variant of the Learjet 40 light business jet, launched in October 2004 at the National Business Aviation Association convention in Las Vegas. Developed by Bombardier Aerospace as an upgrade to address performance limitations in demanding environments, it incorporates Honeywell TFE731-20BR turbofan engines, which maintain the same 3,500 lbf thrust rating as the base model's TFE731-20AR but feature improved flat-rating to ISA+25°C (40°C/104°F), compared to ISA+16°C (31°C/88°F) for the earlier variant. This upgrade enhances overall operational flexibility without altering the core airframe design.[23][24][5] Key performance enhancements in the 40XR include a higher maximum takeoff weight of 21,000 lb (9,525 kg), up from 20,350 lb in the base Learjet 40, enabling greater payload capacity or extended range. The variant achieves faster climb rates and improved cruise capabilities, with a maximum cruise speed of 465 ktas and a long-range cruise speed of 436 ktas, supporting nonstop missions up to 1,778 nautical miles with four passengers. These improvements stem directly from the engine upgrades and a modest increase in fuel capacity, allowing the aircraft to operate more efficiently at high altitudes.[25][26][22] The 40XR offers superior hot-and-high performance, facilitating takeoffs from short runways at elevations like those in Aspen, Colorado, or Jackson Hole, Wyoming, where the base model might require derating. It also provides better fuel efficiency in high-temperature operations due to the engines' optimized thermodynamics, alongside optional corporate interior configurations such as modular seating and enhanced cabin amenities for up to eight passengers. Following its introduction, the 40XR became the dominant production model, accounting for the majority of the Learjet 40 series output, with 93 units delivered until production ceased in 2012. The overall Learjet 40 series totaled 133 aircraft.[23][27][14][17][20][26]Operational history
Production and operators
The Learjet 40 series was manufactured by Bombardier Aerospace at its Learjet facility in Wichita, Kansas, beginning with the prototype's first flight in 2002.[3] Production of the base Learjet 40 ran from 2002 to 2009, while the enhanced 40XR variant continued until 2012.[3] A total of 133 aircraft were built across both variants, with approximately 40 base models and 93 40XRs.[26][20] The first customer delivery occurred in January 2004, shortly after FAA certification in July 2003.[5] Deliveries peaked in the mid-2000s, with Bombardier achieving annual rates of 10 to 15 units for the Learjet lineup during that period, driven by strong demand in the light business jet segment.[28] By 2010, more than 100 Learjet 40 series aircraft had been delivered, primarily targeting the North American business aviation market. Production ceased in 2012 for the 40XR due to Bombardier's strategic shift toward larger models, such as the Learjet 70 and 75 introduced in 2013.[29][30] The Learjet 40 series is operated mainly by corporate and private owners, with significant use in fractional ownership programs such as Flexjet and various air charter services.[31][32] Government agencies have also adopted a limited number for non-military roles, but there has been no significant military adoption of the type.[33] As of 2025, the global fleet remains active, with over 90% of produced units still in service and supported through resale and charter operations.[26] Bombardier discontinued the Learjet production line in 2021 to focus on higher-margin Challenger and Global models, but continues to provide full maintenance and support for existing Learjet 40 aircraft.[34] Used Learjet 40s trade on the resale market for approximately $2 million to $3 million, depending on airframe hours and configuration.[35]Incidents and accidents
The Learjet 40 has maintained an exemplary safety record since its introduction in 2002, with only two hull-loss incidents recorded through 2025 and no fatal accidents attributed to the aircraft type. This low incident rate reflects the model's robust design and adherence to stringent FAA certification standards under Part 25, contributing to its reputation for reliability in the light business jet segment.[36] A notable incident occurred on June 18, 2009, at Fort Worth-Meacham International Airport in Texas, involving Learjet 40 N998AL during a ground engine run-up test. The No. 1 Honeywell TFE731-20AR engine failed to retard from high power, leading to loss of directional control while taxiing; the aircraft veered right, struck a hangar with its wingtip, and came to rest after the nose gear collapsed, resulting in substantial damage but no injuries to the two mechanics aboard.[37] The National Transportation Safety Board (NTSB) investigation identified the engine throttle linkage malfunction as the primary cause, with no design flaws in the aircraft implicated.[37] The second major event took place on April 4, 2018, at Houston William P. Hobby Airport, where Learjet 40XR N626FX was destroyed on the ground due to a hangar collapse triggered by a severe thunderstorm microburst. With no occupants aboard, the incident caused extensive structural damage, including a breach in the left wing fuel cell and impact to the tail section, but resulted in zero casualties.[38] Weather was determined as the sole factor, unrelated to aircraft systems or operations.[38] Analysis of these incidents reveals no recurring patterns tied to inherent design deficiencies in the Learjet 40, with causes limited to isolated mechanical failure in one case and external environmental forces in the other. Landing gear and weather-related excursions, while noted in broader Learjet family operations, have not been factors in Learjet 40 events. In response, the FAA has issued multiple airworthiness directives (ADs) for the Learjet 45 series (encompassing the Model 40), addressing potential issues such as fuel control screw failures in the TFE731 engines and fuselage corrosion to enhance maintenance protocols.[39][36] These measures, including mandatory inspections and revisions to service bulletins, have supported ongoing improvements in engine and structural integrity without evidence of systemic problems.[39] As of 2025, no additional major incidents involving the Learjet 40 have been reported since 2018, with regulatory emphasis shifting to enhanced inspections for aging fleets to maintain high operational standards.Specifications
General characteristics
The Learjet 40 is certified for operation by a crew of two pilots and has a maximum passenger capacity of seven in an executive configuration, though it is typically arranged for six passengers to include space for an enclosed lavatory.[1] The aircraft's airframe features an overall length of 55 ft 5 in (16.87 m), a wingspan of 47 ft 9 in (14.55 m), a height of 14 ft 2 in (4.32 m), and a wing area of 311.7 sq ft (28.95 m²).[1][40] It has a basic operating empty weight of 13,718 lb (6,223 kg), a maximum takeoff weight of 20,350 lb (9,231 kg), and a maximum landing weight of 19,200 lb (8,709 kg).[1][40] The usable fuel capacity totals 5,375 lb (2,438 kg), which supports a payload with full fuel of 1,507 lb (683 kg).[1] The pressurized cabin provides 368 cu ft (10.4 m³) of volume, complemented by a baggage capacity of 65 cu ft (1.8 m³) across internal and external storage areas.[1]| Characteristic | Value (Imperial) | Value (Metric) |
|---|---|---|
| Crew | 2 | 2 |
| Passengers (max/typical) | 7 / 6 | 7 / 6 |
| Length | 55 ft 5 in | 16.87 m |
| Wingspan | 47 ft 9 in | 14.55 m |
| Height | 14 ft 2 in | 4.32 m |
| Wing area | 311.7 sq ft | 28.95 m² |
| Basic operating empty weight | 13,718 lb | 6,223 kg |
| Max takeoff weight | 20,350 lb | 9,231 kg |
| Max landing weight | 19,200 lb | 8,709 kg |
| Usable fuel | 5,375 lb | 2,438 kg |
| Payload w/ full fuel | 1,507 lb | 683 kg |
| Cabin volume | 368 cu ft | 10.4 m³ |
| Baggage capacity | 65 cu ft | 1.8 m³ |