Embraer E170
8,706 parts applicable to this airframe — regional
| Part Number | Status |
|---|---|
| 02315-0245-0001WE | PMA |
| 1001222-1 | OEM |
| 1001228-1 | OEM |
| 1001233-1 | OEM |
| 1001237-2 | OEM |
| 1016041-1 | OEM |
| 14F0147-203 | OEM |
| 14F0148-203 | OEM |
| 14G0058JP-207 | PMA |
| 170-00502-403 | OEM |
| 170-00506-401 | OEM |
| 170-16254-509 | OEM |
| 170-31480-006 | OEM |
| 170-38300-421SD | PMA |
| 170-41206-401 | PMA |
| 170-41208-401 | PMA |
| 170-44005-403 | PMA |
| 170-45170-401 | PMA |
| 170-45186-403 | PMA |
| 170-46115-403 | PMA |
| 170-47956-901 | OEM |
| 170-47960-901 | OEM |
| 170-47968-901 | OEM |
| 170-47969-901 | OEM |
| 170-47973-901 | OEM |
| 170-47974-901 | OEM |
| 170-47975-901 | OEM |
| 170-47977-901 | OEM |
| 170-47981-901 | OEM |
| 170-47982-901 | OEM |
| 170-70637-001 | OEM |
| 170-89746-401 | PMA |
| 171-47741-401 | PMA |
| 171-52729-601 | PMA |
| 190-03003-401 | OEM |
| 190-47956-901 | OEM |
| 24728 | OEM |
| 54144-12 | OEM |
| 57749-5 | OEM |
| 69494J124 | OEM |
| 69494J128 | OEM |
| 69494J239 | OEM |
| 744412 | unknown |
| 763331 | OEM |
| ADP38039-156-2 | PMA |
| HEM5000-2-051-102 | PMA |
| LA00200X150A50D5 | PMA |
| LA170-63280-001 | PMA |
| M270448-00 | PMA |
| PL46-141856-01 | PMA |
Top Replacement-Prone Parts(6)
From FAA SDR — directional buying signal, not a failure rate
| Part # | Propensity | SDRs |
|---|---|---|
| 59129493 | 100% | 28 |
| 1716282A | 100% | 24 |
| 426000186 | 100% | 19 |
| 142091142 | 100% | 17 |
| 59129492 | 100% | 14 |
| 744412 | 98% | 57 |
* 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)
E-Jet family rollup — BTS T-100, domestic + international
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(2023–2026)
E-Jet family — FAA registry deregistrations
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 model | Active tails | Engine units | Retired since ’23 | Exported | Avg age at dereg |
|---|---|---|---|---|---|
| GE CF34 series | 676 | 1,352 | 87 | 38 | 23.4 yr |
| GE CF34-10E6 | 22 | 44 | 17 | 26 | 15.8 yr |
| GE CF34-3B | 329 | 658 | 2 | 37 | 14.1 yr |
| GE CF34-8E5 | 693 | 1,386 | 0 | 3 | 15 yr |
| GE CF34-10E5A1 | 8 | 16 | 0 | 15 | 12.8 yr |
| GE CF34-8E5A2 | 2 | 4 | 0 | 0 | — |
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)
E-Jet family — BTS Form 41 filings
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.