Aircraft maintenance checks

In today's world, Aircraft maintenance checks has become a topic of great relevance and debate. Its impact extends to various areas, generating conflicting opinions and awakening the interest of experts and the general public. That is why it is essential to delve into its implications, origin and consequences, in order to thoroughly understand its influence in different areas. In this article, different perspectives on Aircraft maintenance checks will be explored, analyzing its evolution over time and its relevance today. From its origins to its impact on modern society, key aspects will be addressed that will allow the reader to have a broad and detailed vision of this fascinating topic.

A United States Navy SH-60F Seahawk helicopter undergoing routine maintenance in 2005

Aircraft maintenance checks are periodic inspections that have to be done on all commercial and civil aircraft after a certain amount of time or usage. Military aircraft normally follow specific maintenance programmes which may, or may not, be similar to those of commercial and civil operators.[citation needed]

Commercial aviation

Airlines and other commercial operators of large, or turbine-powered, aircraft follow a continuous inspection program approved by the Federal Aviation Administration (FAA) in the United States, or by other airworthiness authorities such as the Transport Canada Civil Aviation Directorate (TCCA), or the European Aviation Safety Agency (EASA). Each operator prepares a Continuous Airworthiness Maintenance Program (CAMP) under its Operations Specifications or "OpSpecs". The CAMP includes both routine and detailed inspections.

FAA Maintenance Review Board

In the United States the FAA directs that initial aircraft maintenance requirements be generated for each aircraft type in a Maintenance Review Board Report (MRBR) based on the analysis performed as outlined in ATA "MSG-3 Operator/Manufacturer Scheduled Maintenance Development" document (MSG-3 is for Maintenance Steering Group – 3rd Task Force). The MRBR is an approved set of aircraft initial maintenance requirements as prescribed by the Appendix H to para. 25.1529 of 14 CFR part 25. Modern aircraft with MSG-3-derived maintenance programs employ usage parameters —such as flight hours, calendar time, or flight cycles—for each required maintenance task included in the MRBR. This allows for more flexibility in the scheduling of maintenance to minimize aircraft downtime.

ABC check system

Airlines and airworthiness authorities casually refer to the detailed inspections as "checks", commonly one of the following: A check, B check, C check, or D check. A and B checks are lighter checks, while C and D are considered heavier checks. Aircraft operators may perform some work at their own facilities, but often checks, and especially the heavier checks, take place at maintenance, repair and overhaul (MRO) company sites.

A check

The A check is performed approximately every 400-600 flight hours, or every 200–300 flights, depending on aircraft type. It needs about 50-70 man-hours, and is usually performed in an airport hangar. The A check takes a minimum of 10 hours. The actual occurrence of this check varies by aircraft type, the flight cycle count, or the number of hours flown since the last check. The occurrence can be delayed by the airline if certain predetermined conditions are met.

B check

The B check is performed approximately every 6-8 months. It takes about 160-180 man-hours, depending on the aircraft, and is usually completed within 1–3 days at an airport hangar. A similar occurrence schedule applies to the B check as to the A check. B checks are increasingly incorporated into successive A checks, i.e. checks A-1 through A-10 complete all the B check items.

C check

Transaero Boeing 757 undergoing C-check at the British Airways Engineering maintenance base, Heathrow (1996)

The C check is performed approximately every 20–24 months, or a specific number of actual flight hours (FH), or as defined by the manufacturer. This maintenance check is much more extensive than the B check, requiring a large majority of the aircraft's components to be inspected. This check puts the aircraft out of service for 1–4 weeks. The aircraft must not leave the maintenance site until it is completed. It also requires more space than A and B checks, therefore, it is usually carried out in a hangar at a maintenance base. The effort needed to complete a C check is up to 6,000 man-hours.

3C check

Some authorities use a type of check, known as a 3C check or Intermediate Layover (IL), which typically includes light structural maintenance, including checks for corrosion, or on specific high-load parts of the airframe. The 3C check may also be used as the opportunity for cabin upgrades, e.g. new seats, entertainment systems, carpeting. This shortens the time the aircraft is out of service, by performing two distinct tasks simultaneously. As component reliability has improved, some MROs now spread the workload across several C checks, or incorporate this 3C check into D checks instead.

D check

The D check, sometimes known as a "heavy maintenance visit" (HMV), is by far the most comprehensive and demanding check for an airplane. This check occurs approximately every 6-10 years. It is a check that more or less takes the entire airplane apart for inspection and overhaul. Even the paint may need to be completely removed for complete inspection of the fuselage metal skin. Such a check can generally take up to 50,000 man-hours, and 2 months to complete depending on the number of technicians involved. It also requires the most space of all maintenance checks, and as such must be performed at a suitable maintenance base. The requirements and the tremendous effort involved in this maintenance check make it by far the most expensive, with total costs for a single D check in the million-dollar range.

Because of the nature and the cost of a D check, most airlines — especially those with a large fleet — have to plan D checks for their aircraft years in advance. Often, older aircraft being phased out of a particular airline's fleet are either stored or scrapped upon reaching their next D check, due to the high costs involved in comparison to the aircraft's value. On average, a commercial aircraft undergoes two or three D checks before being retired.

Manufacturers often underestimate the cost of the D check. Boeing underestimates the cost for four of its aircraft, and the expectation is that it has underestimated it for the B787-9 which in 2018 had not been in service for long enough to have been put through a D check.

All amounts in millions of United States dollars, as of 2018.

Aircraft Estimated Actual
B777-200ER $2.5 $4.0
B777-300ER $2.7 $4.5
B747-400 $4.0 $6.0
B737-800 $0.65 $1.0

Offshore Maintenance Facilities

As of 2015, there are 731 foreign repair shops certified by the FAA performing critical maintenance inspections and repairs for airplanes operating in the United States. This includes repair facilities performing the "heavy maintenance", D Checks, such as the Aeroman facility located in El Salvador, where one in eight mechanics are FAA certified. At a major overhaul base used by United Airlines in China, the ratio is one FAA-certified mechanic for every 31 non-certified mechanics.

Comparison

flight hours maintenance intervals
Model A Check C Check D Check
Airbus A220 850 8,500
Airbus A320 family 750 (or 750 cycles or 4 months) 12,000 (or 8,000 cycles or 36 months) 6/12 years
ATR 42/ATR 72 750 5,000 2/4/8 years
Bombardier CRJ700 series 800 8,000
Bombardier Dash 8 800 8,000
Bombardier Global 7500 850/36 months 8,500 cycles / 12 years
Embraer E-Jet family 850 8,500
Embraer E-Jet E2 family 1,000 10,000
Mitsubishi Regional Jet 750 7,500
Boeing 737 NG 150/600 7,500 (or 730 days)
Boeing 767-300ER 750 (or 300 Flight Cycles) 6,000 (or 3,000 Flight Cycles or 18 Months)
Boeing 747-400/747-8 600/1,000 7,500/10,000 6 years (systems)

8/8/6 years (most structures and zonal)

References

  1. ^ AFS-600 (2008). "Chapter 8. Inspection Fundamentals". Aviation Maintenance Technician Handbook (pdf). Federal Aviation Administration. pp. 8–15. FAA-H-8083-30. Archived from the original (PDF) on 2014-11-22. Retrieved 2014-12-01.{{cite book}}: CS1 maint: numeric names: authors list (link)
  2. ^ AFS (2009). "Vol. 3 Chapters 18 & 43". Flight Standards Information Management System. CHG 80. Federal Aviation Administration. Order 8900.1. Retrieved 2010-01-12.
  3. ^ a b Maintenance Review Boards, Maintenance Type Boards, and OEM/TCH Recommended Maintenance Procedures (pdf). Federal Aviation Administration. 2012. Advisory Circular 121-22C. Retrieved 2019-05-16.
  4. ^ "UK Aerospace Maintenance, Repair, Overhaul & Logistics Industry Analysis" (PDF). UK Government Department for Business, Innovation & Skills. p. 16. Retrieved 14 December 2017.
  5. ^ Kinnison, Harry; Siddiqui, Tariq (2011). Aviation Maintenance Management (2 ed.). McGraw-Hill. p. 122. ISBN 978-0-07-180502-5.
  6. ^ "The A, C and D of aircraft maintenance". Qantas.
  7. ^ "Major maintenance due for A380s". MRO Network. Retrieved 14 December 2017.
  8. ^ a b "Aircraft maintenance at Lufthansa Technik". Lufthansa Technik. Archived from the original on 11 October 2014. Retrieved 14 December 2017.
  9. ^ "Glossary of aircraft maintenance terms and abbreviations". Monarch Engineering. Archived from the original on 14 December 2017. Retrieved 14 December 2017.
  10. ^ "Overhaul". Lufthansa Technik. Archived from the original on 26 September 2014. Retrieved 14 December 2017.
  11. ^ Fabozzi, Frank, ed. (2000). Investing in asset-backed securities. New Hope, PA: Frank J. Fabozzi Associates. p. 156. ISBN 1883249805. Retrieved 14 December 2017.
  12. ^ "The Relationship between an Aircraft's Value and its Maintenance Status" (PDF). Aircraft Monitor. Retrieved 14 December 2017.
  13. ^ Scheinberg, Ronald (2017). The Commercial Aircraft Finance Handbook. Routledge. ISBN 1351364219. Retrieved 5 August 2018.
  14. ^ a b "Maintenance Reserves Need to Account for Realistic D Check Costs". Aircraft Value News. October 29, 2018.
  15. ^ Steele, James B. (9 November 2015). "The Disturbing Truth About How Airplanes Are Maintained Today". Vanity Fair. Condé Nast.
  16. ^ Bernie Baldwin (Sep 7, 2018). "Profitability Is Aim Of Crossover Jets' Better Maintainability". Aviation Week & Space Technology.
  17. ^ Michael Gubisch (14 July 2017). "How has the CSeries performed in service?". Flightglobal.
  18. ^ "Extension lead". MRO management. March 2017.[permanent dead link]
  19. ^ "ATR extends Type 'A' Maintenance Visit Intervals" (Press release). ATR. 25 February 2019. Archived from the original on 1 April 2020. Retrieved 25 February 2019.
  20. ^ "CRJ Series Certified for Higher Maintenance Intervals" (Press release). Bombardier. September 24, 2018.
  21. ^ "Singapore: Bombardier to take Q400 up to 90 seats". flightglobal. 17 February 2016.
  22. ^ Fred George (Mar 25, 2019). "Bombardier Global 7500: A Personal Flying Flagship Without Equal". Business & Commercial Aviation.
  23. ^ "Company presentation & improvements". Turkish Technic. November 2013. Archived from the original on 2018-10-29. Retrieved 2018-10-29.
  24. ^ "747‑8 Offers Operational Improvements and Cross-Model Commonality" (PDF). AERO Quarterly. Boeing. Oct 2010.

External links

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