Boeing 737 MAX 9

1,122 parts applicable to this airframe — narrowbody

Part NumberStatus
02316-0191-0001OEM
119A1590-605OEM
119A1590-606OEM
119A1590-607OEM
119A1590-608OEM
214N2036-27OEM
214N2036-28OEM
214N2036-29OEM
214N2036-30OEM
214N2036-31OEM
2205772-1OEM
2205774-1OEM
2205783-1OEM
2205783-2OEM
2205793-1OEM
2205858-1OEM
2205956-1OEM
2205957-1OEM
2206419-1OEM
2206469-1OEM
2684857OEM
2D3042-1OEM
3575-3169-01OEM
3575-3176-01OEM
383-0271-1OEM
411A3140-153COEM
411N1102-32BCMROEM
411N1102-32CHOEM
53002116-2OEM
533049-1OEM
571242OEM
63000788-1OEM
72510893-1OEM
72510893-2OEM
72510893-3OEM
72510893-4OEM
72510971-1OEM
72510992-1OEM
72510992-2OEM
72511024-1OEM
72511024-2OEM
72511045-1OEM
72511045-3OEM
81004-37602OEM
81004-37702OEM
975945-5OEM
Core AssemblyOEM
Honeywell P/N: 7105560-2OEM
LF483OEM
VA-50124-07OEM

Top Replacement-Prone Parts(3)

From FAA SDR — directional buying signal, not a failure rate

Part #PropensitySDRs
84958999%142
18992991%219
H14686%53

* Structural ATA chapters use FAA K-code change rate. Verb-based propensity is suppressed there because "REPAIRED" in the SDR text usually refers to the airframe being repaired around the part.

Utilization & cargo trend(US carriers, 2015–2025)

737 family rollup — BTS T-100, domestic + international

Cycles per aircraft
1,1902025
2015: 1,061 cycles/aircraft2016: 1,072 cycles/aircraft2017: 1,090 cycles/aircraft2018: 1,131 cycles/aircraft2019: 1,152 cycles/aircraft2020: 719 cycles/aircraft2021: 922 cycles/aircraft2022: 1,075 cycles/aircraft2023: 1,153 cycles/aircraft2024: 1,219 cycles/aircraft2025: 1,190 cycles/aircraft
20152025
2020 trough: 719
Recovered to 106% of 2019 (2024 vs 2019)
Freighter share of departures
1%1%20152025
2015: 0.9% freighter share2016: 1% freighter share2017: 1.1% freighter share2018: 1.2% freighter share2019: 1.2% freighter share2020: 2.4% freighter share2021: 2.2% freighter share2022: 1.6% freighter share2023: 1.4% freighter share2024: 1.5% freighter share2025: 1.4% freighter share
20152025
Est. US-registered fleet
2,7322025
20152025

US carriers only (BTS T-100, domestic + international segments) — foreign-carrier flying is excluded, so global utilization runs higher. Fleet size is reconstructed from the FAA registry (built on or before each year, not yet deregistered) — an approximation. Freighter share counts departures with zero passengers and freight aboard — a proxy for freighter/combi operations, not a tail-by-tail conversion count. Missing years render as gaps.

USM supply — retirements & teardowns(20232026)

737 family — FAA registry deregistrations

Left the US registry
419aircraft
Stayed domestic
246vs 173 exported
Avg age at retirement
21.5years
Still US-registered
2,751aircraft
Where this family's parts catalog concentrates — the systems most exposed to incoming teardown supply

FAA registry data. Domestic deregistration is a teardown proxy — it also captures re-registrations and some unflagged exports, so it is not a confirmed part-out count; exported aircraft left the US fleet intact and are not USM supply. ATA shares reflect where this directory's parts for the family concentrate (parts in parentheses) — a coverage signal, not the aircraft's bill of materials or a teardown-yield forecast.

Engine-program supply pressure(since 2023)

FAA registry — US-registered fleet

Engines account for roughly half of all MRO spend, so engine programs shedding aircraft are where retirement supply carries the most value.

Engine modelActive tailsEngine unitsRetired since ’23ExportedAvg age at dereg
CFM INTL. CFM56 series7091,4261741325.4 yr
CFM INTL CFM56-7B2417134227222.7 yr
CFM INTL CFM56-7B22367215022.6 yr
GE CFM56 series29585326.4 yr
P & W JT8D-9 series9244253.8 yr
CFM INTL CFM56-7B24/31132263016 yr
P & W JT8D-18213033 yr
CFM INTL CFM56-7B20243022.5 yr

FAA registry data, US-registered aircraft only. Counts reflect the engine model as registered — generic “series” rows coexist with thrust-variant rows, so per-variant figures are partial. Retired = domestic deregistrations (a teardown proxy, not a confirmed part-out); exported aircraft left the US fleet intact. Active tails span every family the engine flies on, not just this one.

Maintenance economics(US carriers, through 2026)

737 family — BTS Form 41 filings

Direct maintenance per block hour
$242fleet avg
Airframe / engine split
$164/$78
Reporting carriers
15
Carrier range
$72$528

BTS Form 41 data (Schedule P-5.2 maintenance expense over T-2 block hours), Group III US carriers only — filers above $1B annual revenue; smaller US operators, Part 135, and all non-US carriers are not in this data. Dollars are accrual-basis from regulatory filings (reserves and depreciation included), so they benchmark fleet economics and do not track to individual repair events. Averages are block-hour- weighted across every reporting carrier; the range spans per-carrier rates after excluding marginal reporting slices, and small carrier counts are noisy.

Airworthiness Directive activity

FAA / EASA public regulatory data

43airworthiness directives affecting this fleet — recurring compliance demand for the parts and shops that serve it
Most recent
  • FAA AD 2026-13-13effective Jul 1, 2026Prohibition

    The FAA is adopting a new airworthiness directive (AD) for all The Boeing Company Model 737-, -200, -200C, -300, -400, -500, -600, - 700, -700C, -800, -900, and -900ER series airplanes, except for Model 737-200 and -200C series airplanes equipped with a certain flight control system. This AD was prompted by the determination that radio altimeters cannot be relied upon to perform their intended function if they experience interference from wireless broadband operations in the 3.7-3.98 GHz frequency band (5G Lower C-Band) while operating in Canadian airspace, and the determination that, during approach, landings, and go-arounds, as a result of this interference, certain airplane systems may not properly function, resulting in increased flightcrew workload while on approach with the flight director, autothrottle, or autopilot engaged, which could result in reduced ability of the flightcrew to maintain safe flight and landing of the airplane. This AD requires revising the existing airplane flight manual (AFM) to incorporate limitations prohibiting certain operations requiring radio altimeter data when operating in Canadian airspace. The FAA is issuing this AD to address the unsafe condition on these products.

  • FAA AD 2026-09-12effective Jun 17, 2026Mixed actions

    The FAA is adopting a new airworthiness directive (AD) for certain The Boeing Company Model 737-100, -200, -200C, -300, -400, and -500 series airplanes. This AD was prompted by a report of cracks found in the fuselage skin underneath the aft drain mast. This AD requires repetitive inspections of the fuselage skin and structure common to the aft drain mast for any crack or corrosion and applicable on-condition actions. The FAA is issuing this AD to address the unsafe condition on these products.

  • FAA AD 2025-25-04effective Jan 16, 2026Mixed actions

    The FAA is superseding Airworthiness Directive (AD) 2023-09- 04, which applied to certain The Boeing Company Model 737-600, -700, - 700C, -800, -900, and -900ER series airplanes, and certain Model 737-8 and -9 airplanes. AD 2023-09-04 required inspecting all escape slide assemblies to identify affected parts and replacing affected escape slide assemblies with different assemblies. This AD was prompted by the determination that additional airplanes might be affected by the unsafe condition. This AD retains the requirements of AD 2023-09-04 and requires those actions for additional airplanes, including Model 737- 8200 airplanes. The FAA is issuing this AD to address the unsafe condition on these products.

  • FAA AD 2025-24-02effective Dec 10, 2025Mixed actions

    The FAA is adopting a new airworthiness directive (AD) for certain The Boeing Company Model 737-700, -800, -900, and -900ER series airplanes. This AD was prompted by a report of a runway excursion caused by loss of braking. An inspection found that the right main landing gear (MLG) hydraulic hoses for the brakes were incorrectly installed at the flow limiters, and the left MLG wheel speed transducer wires were also interchanged. This AD requires a general visual inspection (GVI) of the left and right MLG brake hydraulic hoses for any crossed installation, antiskid valve and transducer operational tests, and applicable on-condition actions. The FAA is issuing this AD to address the unsafe condition on these products.

  • FAA AD 2025-19-12effective Nov 6, 2025Mixed actions

    The FAA is adopting a new airworthiness directive (AD) for all The Boeing Company Model 737-600, -700, -700C, -800, -900, and -900ER series airplanes. This AD was prompted by a report of improper grinding of the inner diameter of the main landing gear (MLG) outer cylinders, resulting in possible heat damage to the outer cylinders. This AD requires a records check or inspection to determine if an affected outer cylinder is installed and replacing all affected outer cylinders. The FAA is issuing this AD to address the unsafe condition on these products.

Directives linked to this airframe family in the FAA / EASA regulatory corpus we have processed — not a complete historical AD list. An AD is a compliance requirement that drives scheduled work (inspections, replacements, modifications) across the fleet; inspection directives are not replacement directives, and none of this is a prediction that any part will fail.