N19VC

HISTORY OF FLIGHTOn February 23, 2014, about 1335 eastern standard time, an experimental amateur built Cordero RV-9A, N19VC, was substantially damaged during an emergency landing in Apopka, Florida. The private pilot received minor injuries and the passenger sustained serious injuries. Visual meteorological conditions prevailed for the personal flight conducted under Title 14 Code of Federal Regulations Part 91. The flight originated from Marsh Harbour International Airport (MYAM), Marsh Harbour, Bahamas at 1130 and was destined for Orlando Sanford International Airport (SFB), Sanford, Florida.

According to the pilot's written statement, the airplane was at an altitude of 3,000 ft and on approach for a landing on runway 9L, at SFB. Two minutes later, about 1330, the propeller stopped rotating, but the engine continued to function normally. There were no annunciations or warnings displayed on the engine monitoring unit. The pilot declared an emergency with Orlando approach who then issued a radar vector to the pilot for Orlando Apopka Airport (X04), Apopka, Florida, which was approximately 4 nautical miles away. The pilot subsequently determined the airplane would not glide to X04 and turned the airplane towards a dirt road. As the airplane approached the road, the pilot maneuvered the airplane to avoid some obstacles and then touched down. During the landing roll the nose-wheel made contact with the ground and the airplane nosed over and came to rest inverted. PERSONNEL INFORMATIONThe pilot held a private pilot certificate with ratings for single engine land and instrument airplane. He had accumulated about 1,170 hours total flight time, of which 324 hours were in the accident airplane make and model. His most recent third class Federal Aviation Administration medical certificate was issued on January 8, 2013. AIRCRAFT INFORMATIONAccording to Federal Aviation Administration (FAA) records, the RV-9A, a two-seat, all-metal, low-wing airplane with tricycle configured landing gear was issued an airworthiness certificate, in the experimental category, on July 18, 2011. It was built from a series of kits provided by Vans Aircraft and Eggenfellner Aircraft, Inc. The airplane was equipped with an Eggenfellner Subaru H4 modified automobile engine which included a Gen 3 V4 propeller speed reduction unit (PSRU) gearbox that was used to drive the propeller at a speed slower than the engine speed. The engine was equipped with an IVO propeller assembly that consisted of three electrically-controlled wooden propeller blades.

The engine kit was based on an EJ-25, 2.5L Subaru water cooled 4-cylinder engine and was rated at 160 HP at 5400 rpm.

The pilot/builder stated that he purchased the kit for the airplane in 2001 and began construction shortly after. He purchased the engine, which at the time, was equipped with a Gen 1 PSRU and solid flywheel, direct from Eggenfellner Aircraft, Inc. in 2002 and installed the engine about January 2008. In 2011, prior to receiving the airworthiness certificate, the pilot employed Eggenfellner Aircraft, Inc. to remove the original PSRU and replace it with a Gen 3 V4 PSRU.

During a telephone interview a representative of Eggenfellner Aircraft, Inc., now defunct, stated that the Eggenfellner Subaru H4 engine transfers power to the PSRU through a spline shaft. One end of the spline shaft is inserted into a splined drive disk adapter at the engine. The splined drive disk is bolted to the engine crankshaft through the flywheel. The other end is inserted into the PSRU input spline.

The spline shaft and PSRU input spline were taken from the transfer cases of Nissan Pathfinders. The machining of the drive disk adapter that affixes to the solid flywheel and crankshaft were outsourced to a separate facility and made from non-heat treated 4140 steel.

The engine information system (EIS) installed in the cockpit showed that the total time for the airframe and engine at the time of the accident was 324.5 hours

The last recorded annual inspection took place on September 13, 2013, at which time 278 hours were reported. A review of the maintenance records revealed no record that the PSRU had been removed or that the spline components had been inspected or lubricated since installation. In addition, the pilot/builder of the airplane stated that he had not inspected or lubricated the PSRU, the spline shaft, or drive disk adapter during the airplane's total time in service. METEOROLOGICAL INFORMATIONThe 1353 automated weather observation at SFB included winds from 210 degrees at 7 knots; visibility 10 statute miles; few clouds at 2,900 feet; temperature 27 degrees Celsius (C); dew point 19 degrees C, and an altimeter setting of 30.02 inches of mercury. AIRPORT INFORMATIONAccording to Federal Aviation Administration (FAA) records, the RV-9A, a two-seat, all-metal, low-wing airplane with tricycle configured landing gear was issued an airworthiness certificate, in the experimental category, on July 18, 2011. It was built from a series of kits provided by Vans Aircraft and Eggenfellner Aircraft, Inc. The airplane was equipped with an Eggenfellner Subaru H4 modified automobile engine which included a Gen 3 V4 propeller speed reduction unit (PSRU) gearbox that was used to drive the propeller at a speed slower than the engine speed. The engine was equipped with an IVO propeller assembly that consisted of three electrically-controlled wooden propeller blades.

The engine kit was based on an EJ-25, 2.5L Subaru water cooled 4-cylinder engine and was rated at 160 HP at 5400 rpm.

The pilot/builder stated that he purchased the kit for the airplane in 2001 and began construction shortly after. He purchased the engine, which at the time, was equipped with a Gen 1 PSRU and solid flywheel, direct from Eggenfellner Aircraft, Inc. in 2002 and installed the engine about January 2008. In 2011, prior to receiving the airworthiness certificate, the pilot employed Eggenfellner Aircraft, Inc. to remove the original PSRU and replace it with a Gen 3 V4 PSRU.

During a telephone interview a representative of Eggenfellner Aircraft, Inc., now defunct, stated that the Eggenfellner Subaru H4 engine transfers power to the PSRU through a spline shaft. One end of the spline shaft is inserted into a splined drive disk adapter at the engine. The splined drive disk is bolted to the engine crankshaft through the flywheel. The other end is inserted into the PSRU input spline.

The spline shaft and PSRU input spline were taken from the transfer cases of Nissan Pathfinders. The machining of the drive disk adapter that affixes to the solid flywheel and crankshaft were outsourced to a separate facility and made from non-heat treated 4140 steel.

The engine information system (EIS) installed in the cockpit showed that the total time for the airframe and engine at the time of the accident was 324.5 hours

The last recorded annual inspection took place on September 13, 2013, at which time 278 hours were reported. A review of the maintenance records revealed no record that the PSRU had been removed or that the spline components had been inspected or lubricated since installation. In addition, the pilot/builder of the airplane stated that he had not inspected or lubricated the PSRU, the spline shaft, or drive disk adapter during the airplane's total time in service. WRECKAGE AND IMPACT INFORMATIONAccording to information provided by the FAA, the airplane came to rest inverted in an area of vegetation. Photographs provided by the FAA showed the airplane remained mostly intact with fragments of the nose cone and wingtips distributed along the wreckage path. The forward wingtip sections of both wings and the vertical stabilizer were impact damaged. An outboard section of the left wing had been separated leaving the rib structure exposed. The nose landing gear was bent about 20 degrees inward. The engine remained attached to its mount at all attachment point, and the hub and PSRU remained attached to the engine. All three propeller blades remained attached to the hub and two of the blades exhibited both longitudinal and chordwise cracks. The inboard section of each blade was cracked about 1 foot from the hub and one blade was partially separated.

Additional examination of the engine was performed under the supervision of NTSB investigators. The propeller was rotated freely by hand with only slight resistance at some positions. The propeller hub was then removed and continuity was confirmed from the propeller through the PSRU to the engine.

Removal of the PSRU revealed that the spline shaft rotated freely within the drive disk adapter, which was attached to the engine solid flywheel. The PSRU input spline contained approximately one teaspoon of red dust (consistent with ferrous fretting-wear debris). The drive disk adapter and spline shaft were then removed from the flywheel and separated. The teeth of the spline shaft exhibited mechanical damage consistent with the wear on the drive disk adapter teeth.

Further examination at the NTSB Material's Laboratory revealed that the PSRU input spline, spline shaft, and drive disk adapter exhibited severe wear and were void of lubrication. Examination of the spline shaft and drive disk adapter using a 5X to 50X stereo zoom microscope revealed the flanks of the spline shaft teeth that mate with the drive disk adapter were worn by about 75%, with the tips of the teeth forming sharp cusps that had been bent over consistent with rotation of the spline shaft within the drive disk adapter. Wear surface features on the spline shaft teeth were consistent with fretting wear that had progressed to adhesive wear. [Additional information can be found in the Materials Laboratory Factual report located in the public docket.] ADDITIONAL INFORMATIONReported Spline Shaft Failures

The pilot/builder was also a member of the Subenews Yahoo! Group, which is a web group devoted to builders and maintainers of Eggenfellner Subaru airc...