VT-ANJ

HISTORY OF FLIGHT

On July 28, 2012, at 1600 eastern daylight time, a Boeing 787-8, registration VT-ANJ, experienced an engine failure during a taxi test at Charleston AFB / International Airport (CHS), Charleston, South Carolina. The airplane was being operated by Boeing under the provisions of Chapter 14 Code of Federal Regulations (CFR) Part 91 for the purpose of conducting a taxi test with no intention for flight. There were no injuries to the 5 people on board and the airplane sustained minor damage.

The crew taxied on to runway 21 to conduct the first of two taxi tests. The first test was to be conducted at low speed with a planned maximum speed of 60 knots.

At approximately 16:00:32 the flight crew commanded takeoff power of 95.4 % N1 (low pressure rotor speed). As the airplane was approaching 40 knots speed and prior to the engine N1 accelerating beyond 70%, the right engine N1 began to rollback and an EICAS advisory message was displayed indicating an N2 (high pressure rotor speed) exceedance.

At 16:00:40 and about 40 knots, the flight crew reduced engine power to idle thrust and advised air traffic control tower they had completed their test stating "that's going to do it for us today". The crew exited the runway via a left turn on taxiway hotel, and during taxi back to the ramp, shut down the right engine.

The crew of Southwest Airlines flight 2414 was subsequently cleared for takeoff on runway 21 and reported a fire developing in the grass on the right side of the runway. Due to the close proximity of the fire to the runway air traffic control suspended all operations on runway 21 and notified Airlift Wing Operations (AMOPS) at about 1605.

After the fire department extinguished the fire, AMOPS conducted a runway inspection and discovered metal foreign object debris (FOD) on the first 4,000 feet of runway 21 prior to the intersection of taxiway foxtrot.

During post taxi inspection on the ramp, Boeing crew identified damage to the airplane and notified air traffic control.

INJURIES TO PERSONS

There were no injuries to the 5 crewmembers on board.

DAMAGE TO AIRPLANE

There were numerous impact marks and small holes on the underside of the right wing, the right side of the fuselage aft of the wing, and the right side of the horizontal stabilizer. The on-scene examination of the right engine revealed extensive damage to the low pressure turbine (LPT).

The fan mid shaft (FMS) retaining nut was still connected to the FMS threads but the forward part of the FMS, from the rear of the forward threads, was separated from the remainder of the FMS. Separation of the rotating LPT section from the fan, allowed the LPT section to translate rearward resulting in extensive secondary engine damage.

PERSONNEL INFORMATION

The flight crew consisted of two pilots and three additional crewmembers.

The captain reported approximately 12,500 hours total time, including about 9,700 hours as pilot-in-command and 174 hours in the B787. The captain held a valid Federal Aviation Administration (FAA) Airline Transport Pilot (ATP) certificate with type ratings for B737, B747-4, B757, B767, B777, and B787 and a current FAA first-class medical certificate with no limitations.

The first officer reported approximately 6,700 hours total flight time, including about 4,200 hours as pilot-in-command and about 44 hours in the B787. He held a valid FAA ATP certificate with type ratings for DC-9, B737, and B787, and a current FAA first-class medical certificate with a limitation that he must wear corrective lenses.

AIRCRAFT INFORMATION

VT-ANJ, manufacturer serial number 36281, was a Boeing 787-8 equipped with two General Electric GEnx-1B67 engines. The company reported that the airplane had approximately 0 hours total time on the airframe. Recorded data and company records indicated no relevant maintenance issues with the airplane. At the time of the incident the airplane was operating at an estimated weight of 351,441 pounds with 13,455 gallons of fuel on board.

Engine History

The right engine was a GE GEnx-1B, engine serial number (ESN) 956-121. The engine had only been operated on the ground and at the time of the incident, the engine had operated a total of 18:16 hours; 9:21 hours in a test cell, and 8:55 hours after being installed on the airplane.

The engine's fan mid shaft was a tubular shaped shaft made of ultrahigh duplex strengthened steel. The shaft transmits rotational energy of the LPT to the fan and booster.

Fan Mid-Shaft History

The FMS was about 8 feet long and was manufactured of GE1014 ultrahigh strength steel. The FMS included threads on the interior and exterior surfaces which allowed coupling to adjacent components. The inside of the FMS was coupled to the center vent tube (CVT) while the exterior joined the FMS with the forward fan shaft using a locking nut and washer. The shaft threads were coated with a cured dry film lubricant, and petrolatum graphite grease was applied to the threads to aid in assembly.

The FMS was originally forged by ATI-Allvac in Monroe, North Carolina in September 2006. In June 2007, the FMS was shipped to IHI Corporation in Japan where it underwent a number of manufacturing steps including rough turning, finish turning, splining, application of paint, balancing, application of dry film lubricant to threads, and various inspections including the final inspection in June 2008. The FMS was shipped to General Electric in Kentucky in November 2008. Almost two years later, in October 2010, the FMS was shipped to GE in North Carolina where it was installed in the LPT module. The LPT module was installed on the engine in November 2010.

METEOROLOGICAL INFORMATION

The CHS surface observation at 1556 EDT reported wind from 220 degrees at 12 knots gusting to 19 knots, visibility 10 miles, few clouds at 3,000 feet, scattered clouds at 4,200 feet, temperature 33 degrees Celsius, dew point temperature 25 degrees Celsius, and altimeter setting 29.95 inches of mercury.

AERODROME INFORMATION

Charleston AFB / International (CHS), a civilian/military joint-use airport, was located about 9 miles northwest of the city of Charleston, South Carolina. Operations were conducted using 4 runways for military, commercial and general aviation. Runway 21 was grooved concrete, 7,000 feet long, 150 feet wide with a touchdown zone elevation of 40 feet. The runway included precision markings and intersected runway 15/33 about 800 feet from the approach end of runway 21.

FLIGHT RECORDERS

Two Enhanced Airborne Flight Recorders (EAFR) were installed on the airplane. The forward and aft EAFRs were identical except that the forward was equipped with a recorder independent power supply (RIPS) to provide backup power to the recorder for approximately 10 minutes after the primary source of power was lost. The EAFR-2100 was a multifunction recorder which records flight data, audio data, and communication, navigation, surveillance air traffic management (CNSATM) messages.

The forward EAFR, serial number 16PLHY was removed from the airplane and sent to the NTSB Vehicle Recorder Division. The recording contained approximately 35.1 hours of data. The incident recording session was the third session from the end of the recording and was approximately 2 hours and 6 minutes.

The voice recorder included 2 hours, 3 minutes, 59 seconds of recording on four audio channels divided into three segments. The event was captured on the first segment which began at 15:35:48 prior to engine start and ended at 16:55:56. The audio quality of the channels was characterized as good to excellent.

WRECKAGE AND IMPACT INFORMATION

The front portion of the FMS with the attached FMS retaining nut and CVT were removed from the engine and sent to GE Cincinnati for metallurgical examination. The remainder of the engine was then removed from the airplane and sent to GE Cincinnati for disassembly and examination.

TESTS AND RESEARCH

Engine Examination

The exterior examination of the engine showed no indication of uncontainments, case ruptures, or under cowl fires. The fan disk was intact with all fan blades and fan blade platforms in place.

The LPT case was intact but there were numerous outward dents and a hole in the case. From the LPT stage 2 rearward, there was evidence of extensive damage such as fractured or missing blades, nozzles, or shroud segments.

There were no impact marks or holes on the inside of the engine cowls and all impact damage on the airframe, wings, fuselage, and horizontal stabilizer was downstream of the engine's tailpipe.

During examination of the bearings, the number 5 bearing inner retaining nut breakaway torque was found to be 320 foot-pounds compared to the GE assembly procedure requirement of 600 – 720 foot-pounds.

Fan Mid-Shaft Examination

Boroscope inspection confirmed separation of the FMS adjacent to the lock nut face located at the aft most full thread root. The FMS fracture exhibited distinct color differences indicative of multiple failure modes: one progressive, and one instantaneous. About 85 percent of the fracture surface exhibited discoloration consistent with longer exposure time to local environment consistent with progressive fracture. The remaining fracture surface showed signs consistent with instantaneous failure by overstress.The FMS was sectioned in order to examine the fracture using a scanning electron microscope (SEM) with energy dispersive X-ray spectroscopy (EDS). The SEM examination revealed faceted, quasi-cleavage fracture features consistent with environmentally assisted cracking (EAC) specific to ultrahigh strength steel GE1014.

The thread root region adjacent to the cracking had thin dry film lubrication thicknesses that measured less than the prescribed minimums, particularly on the 45° thread flanks with some regions within the thread root appeared bare. The measured dry film lubrication thickness on the 7° thread flanks generally met the required...