ASN logo
Datum:Dienstag 29 April 2014
Flugzeugtyp:Silhouette image of generic B734 model; specific model in this crash may look slightly different
Boeing 737-476 (SF)
Fluggesellschaft:Air Contractors
Kennzeichen: EI-STD
Werknummer: 24433/1881
Baujahr: 1990-06-15 (23 years 11 months)
Triebwerk: 2 CFMI CFM56-3C1
Besatzung:Todesopfer: 0 / Insassen: 2
Fluggäste:Todesopfer: 0 / Insassen: 0
Gesamt:Todesopfer: 0 / Insassen: 2
Sachschaden: schwer beschädigt
Konsequenzen: Written off (damaged beyond repair)
Unfallort:East Midlands Airport (EMA) (   Großbritannien)
Flugphase: Landung (LDG)
Flug von:Paris-Charles de Gaulle Airport (CDG/LFPG), Frankreich
Flug nach:East Midlands Airport (EMA/EGNX), Großbritannien
A Boeing 737-400 Freighter belonging to the Irish freight company Air Contractors suffered substantial damage in a landing accident at East Midlands Airport near Nottingham, United Kingdom.
The aircraft was scheduled to operate three commercial air transport (cargo) sectors: from Athens to Bergamo, then to Paris Charles de Gaulle, and finally East Midlands.
The co-pilot completed the pre-flight external inspection of the aircraft in good light, and found nothing amiss. The departure from Athens was uneventful, but a combination of factors affecting Bergamo (including poor weather, absence of precision approach aids, and work in progress affecting the available landing distance) led the crew to decide to route directly to Paris, where a normal landing was carried out.
The aircraft departed Paris for East Midlands at 00:40 hrs UTC, loaded with 10 tonnes of freight, 8 tonnes of fuel (the minimum required was 5.6 tonnes), and with the co-pilot as Pilot Flying.
Once established in the cruise, the flight crew obtained the latest ATIS information from East Midlands, which stated that runway 27 was in use, although there was a slight tailwind, and Low Visibility Procedures (LVPs) were in force. They planned to exchange control at about FL100 in the descent, for the commander to carry out a Category III autoland. However, as they neared their destination, the weather improved, LVPs were cancelled, and the flight crew re-briefed for an autopilot approach, followed by a manual landing, to be carried out by the co-pilot. The landing was to be with Flap 30, Autobrake 2, and idle reverse thrust.
The final ATIS transmission which the flight crew noted before landing stated that the wind was 130/05 kt, visibility was 3,000 metres in mist, and the cloud was broken at 600 ft aal.
The captain established radio contact with the tower controller, and the aircraft was cleared to land; the surface wind was transmitted as 090/05 kt. The touchdown was unremarkable, and the autobrake functioned normally, while the co-pilot applied idle reverse thrust on the engines.
As the aircraft’s speed reduced through approximately 60 kt, the co-pilot handed control to the commander, who then made a brake pedal application to disengage the autobrake system. However, the system remained engaged, so he made a second, more positive, brake application. The aircraft "shuddered" and rolled slightly left-wing-low as the lower part of the left main landing gear detached. The captain used the steering tiller to try to keep the aircraft tracking straight along the runway centreline, but it came to a halt slightly off the centreline, resting on its right main landing gear, the remains of the left main landing gear leg, and the left engine lower cowl.
The two crew members were uninjured and there was no fire.

Probable Cause:

The damage to the flap system, fuselage, and MLG equipment was attributable to the detachment of the left MLG axle, wheel and brake assembly. The damage to the MLG outer cylinder, engine and nacelle was as result of the aircraft settling and sliding along the runway.
The left MLG axle assembly detached from the inner cylinder due to the momentary increase in bending load during the transition from auto to manual braking. The failure was as a result of stress corrosion cracking and fatigue weakening the high strength steel substrate at a point approximately 75 mm above the axle.
It is likely that some degree of heat damage was sustained by the inner cylinder during the overhaul process, as indicated by the presence of chicken wire cracking within the chrome plating over the majority of its surface. However, this was not severe enough to have damaged the steel substrate and therefore may have been coincidental. Although the risk of heat damage occurring during complex landing gear plating and refinishing processes is well understood and therefore mitigated by the manufacturers and overhaul agencies, damage during the most recent refinishing process cannot be discounted.
The origin of the failure was an area of intense, but very localised heating, which damaged the chrome protection and changed the metallurgy; ie the formation of martensite within the steel substrate. This resulted in a surface corrosion pit, which, along with the metallurgical change, led to stress corrosion cracking, fatigue propagation and the eventual failure of the inner cylinder under normal loading.

Accident investigation:
Investigating agency: AAIB
Status: Investigation completed
Duration: 1 years
Accident number: EW/C2014/04/03
Download report: Final report
Language: English


photo of Boeing-737-476SF-EI-STD
accident date: 29-04-2014
type: Boeing 737-476SF
registration: EI-STD
photo of Boeing-737-476-VH-TJH
accident date: 29-04-2014
type: Boeing 737-476
registration: VH-TJH

Video, social media

This map shows the airport of departure and the intended destination of the flight. The line between the airports does not display the exact flight path.
Distance from Paris-Charles de Gaulle Airport to East Midlands Airport as the crow flies is 500 km (313 miles).

This information is not presented as the Flight Safety Foundation or the Aviation Safety Network’s opinion as to the cause of the accident. It is preliminary and is based on the facts as they are known at this time.
languages: languages


Boeing 737-400

  • 486 built
  • 17th loss
» safety profile

The Aviation Safety Network is an exclusive service provided by:
Quick Links:

CONNECT WITH US: FSF Facebook FSF Twitter FSF Youtube FSF LinkedIn FSF Instagram

©2022 Flight Safety Foundation

701 N. Fairfax St., Ste. 250
Alexandria, Virginia 22314