NTSB Identification: ERA12FA563
14 CFR Part 91: General Aviation
Accident occurred Saturday, September 15, 2012 in West Windsor, NJ
Probable Cause Approval Date: 12/02/2013
Aircraft: AEROSPATIALE AS 355F1, registration: N58020
Injuries: 1 Fatal.
NTSB investigators either traveled in support of this investigation or conducted a significant amount of investigative work without any travel, and used data obtained from various sources to prepare this aircraft accident report.
During cruise flight, witnesses on the ground reported hearing a grinding or popping noise, which was followed by the separation of the yellow main rotor blade. Examination of the fore/aft servo revealed that the internal threads of the upper rod end fitting on the servo were severely worn. The lower threaded portion of the upper rod end was not found secured into the servo's upper end fitting and was not recovered. Additionally, the upper end fitting was packed with soil as the lower threaded portion of the upper rod end had separated from it prior to ground impact. A 100-hour maintenance inspection of the accident helicopter had been completed on the morning of the accident and a 600-hour inspection of the accident helicopter was completed about 3 months prior to the accident. Neither inspection detected the worn threads on the fore/aft servo upper end fitting. The fore/aft servo had been overhauled about 4 years prior to the accident. Additionally, the fore/aft servo was repaired 10 months prior to the accident and no anomalies were observed with the threads at that time.
The operator used Mastinox, a corrosion inhibiting compound, during installation of the upper rod ends to the right-roll, left-roll, and fore/aft servos. The helicopter manufacturer's maintenance manual listed only G.355 grease and did not prescribe for the use of Mastinox. However, the standard practices manual stated that a torque correction factor of 0.4 is used for G.355 grease, but not for Mastinox, since the latter is not a lubricant. The torque value listed in the manual for the rod ends already took a torque correction factor into account. A higher torque value would theoretically have been necessary when Mastinox was used in place of G.355 grease. The operator stated an adjusted torque value was not used during installation of the upper rod ends using Mastinox. Evidence of sealant at the junction of the upper rod end and nut, which was required to be applied during servo installation per the maintenance procedures, was not found on either the right-roll or left-roll servos. While the lack of sealant may not result in a catastrophic event, its breakage or absence (and/or radial play of a servo end bearing) noted during a maintenance inspection could be indicative of a loss of torque.
Review of the helicopter manufacturer's checklists and maintenance manuals revealed some guidance for servo inspections. The daily operating check (after the last flight of the day) included an instruction to check the main rotor servos for security and absence of leaks. The 600-hour inspection called for checking the radial play of the end bearings; however, there were no instructions to specifically check the threads of the servo end fitting or the torque of the rod end nut.
The National Transportation Safety Board determines the probable cause(s) of this accident as follows:
Disconnection of the upper rod end from the fore/aft servo due to severely worn threads, which resulted in a loss of control and separation of a main rotor blade during cruise flight. Contributing to the accident were incorrect maintenance procedures and inadequate maintenance inspections performed by the operator, and insufficient inspection criteria provided by the helicopter manufacturer.
On September 15, 2012, at 1200 eastern daylight time, an Aerospatiale AS 355F1, N58020, operated by Analar Corporation, was substantially damaged when it impacted terrain following an in-flight breakup near West Windsor, New Jersey. The commercial pilot was fatally injured. The positioning flight was conducted under the provisions of 14 Code of Federal Regulations Part 91. Visual meteorological conditions prevailed and no flight plan was filed for the planned flight to Atlantic City International Airport (ACY), Atlantic City, New Jersey. The flight originated from Princeton Airport (39N), Princeton, New Jersey, about 1155.
According to the owner and president of the operator, the helicopter had flown during the summer with a loaner main transmission, while its own transmission was sent out for repair. After the repair was complete, the helicopter's main transmission was received and then reinstalled on September 13, 2012. After the installation, the president conducted a maintenance ground run, followed by a 30-minute maintenance test flight, with no anomalies noted. Earlier during the day of the accident, the accident pilot completed a roundtrip flight uneventfully, with a relative of the helicopter owner onboard. Specifically, the pilot flew from 39N to the West 30th Street Heliport (JRA), New York, New York, picked up the passenger, and flew back to 39N. At the conclusion of that flight, the helicopter was "hot fueled" to its maximum fuel capacity and then departed on the accident flight to pick up another relative of the helicopter owner at ACY. The president estimated that the helicopter had flown approximately 1 hour 10 minutes since the installation of the transmission when the accident occurred.
According to information from the Federal Aviation Administration (FAA), the helicopter was in radio and radar contact with McGuire Approach Control. Radio and radar contact were lost at 1200 and no distress calls were received. Witnesses near the area of the accident site reported hearing a banging, explosion, or engine rev noise, followed by a piece separating from the helicopter and the helicopter spiraling nose down toward the ground.
PILOT INFORMATION
The pilot, age 65, held a commercial pilot certificate with ratings for airplane single-engine land, rotorcraft helicopter, instrument airplane and instrument helicopter. His most recent FAA second-class medical certificate was issued on July 21, 2012. It was a deferred issuance due to a new onset of atrial fibrillation. He was previously issued a second-class medical certificate on September 12, 2011. According to employer records, the pilot had a total flight experience of approximately 11,100 hours; of which, about 2,200 hours were in the same make and model as the accident helicopter. The pilot had flown about 21 hours during the 90 days preceding the accident.
AIRCRAFT INFORMATION
The six-seat helicopter, serial number 5227, was manufactured in 1982. It was equipped with two Rolls-Royce (Allison) 250-C20F, 420-shaft horsepower engines. The helicopter was maintained under a manufacturer's approved inspection program. It's most recent inspection was a 100-hour inspection, which was completed on the morning of the accident in conjunction with the installation of the repaired main transmission. At that time, the helicopter had accumulated 11,431.3 hours of operation. The helicopter's most recent 600-hour inspection was completed on June 5, 2012. At that time, the helicopter had accumulated 11,332.7 hours of operation.
METEOROLOGICAL INFORMATION
Trenton Mercer Airport (TTN) was located about 7 miles west of the accident site. The recorded weather at TTN, at 1153, was: wind 350 degrees at 9 knots, gusting to 16 knots; visibility 10 miles; sky clear; temperature 21 degrees C; dew point 9 degrees C; altimeter 30.14 inches Hg.
WRECKAGE INFORMATION
The helicopter came to rest upright in a cornfield, on a magnetic heading of 305 degrees. A postcrash fire consumed a majority of the cockpit and cabin. Due to fire damage, flight control continuity could not be confirmed. Both antitorque pedals were installed. The right cyclic was installed and the left cyclic was located in the field next to the rotorhead, consistent with its removal prior to flight. The right collective was installed and fire damaged. The left collective was not recovered. The majority of the instrument panel, including the caution warning panel, was consumed by fire. Three identifiable engine instruments were recovered; however, their indicating needles were loose. One front seat buckle was identified and noted as unclasped. Both forward cabin doors were found about 50 yards from the main wreckage. The doorpost and segments of the windshield remained attached to the right door. The doorpost and windshield were found separated from the left door (for more information, see Wreckage Plot in the public docket).
The aft section of tailboom was not consumed by fire and exhibited impact damage. The right horizontal stabilizer was separated near the root and a segment of the right horizontal stabilizer was recovered about 165 yards southeast of the main wreckage. The separation signatures were consistent with main rotor blade contact. The left horizontal and upper vertical stabilizers remained attached and were undamaged. The ventral fin remained attached; however, the lower end of the fin sustained impact damage. The tailboom had separated forward of the horizontal stabilizer. The tailrotor driveshaft remained intact from the tailrotor gearbox to just prior to the forward spline, where the tailrotor driveshaft had melted. One tailrotor blade remained attached to the tailrotor hub. The other tailrotor blade separated at the hub and was found 25 yards north, consistent with impact damage. The left engine cowling, with its intake screen, was located about 140 yards south of the main wreckage. The cowling was coated with clean (light yellow/brown) oil on both sides.
The rotorhead, located about 100 yards southwest of the main wreckage, included the top portion of transmission (the conical housing with the epicyclic and ring gear attached), the main rotor shaft, the starflex, and the red and blue main rotor blades with their sleeves and spherical thrust bearings attached. Also included were two servos (left-roll and right-roll) and three pitch change rods. A third servo (fore/aft) was found near the rotorhead, but had separated at both rod end connections; both upper and lower rod end bearings remained attached to the stationary swashplate and conical housing, respectively. The entire yellow main rotor blade and sleeve assembly had separated from the rotorhead and was later recovered about 270 yards southeast of the main wreckage. The yellow star arm had separated from the starflex and was located about 40 yards south of the main wreckage. The lower (stationary) scissor link assembly separated from both hinges and was not recovered. The rotorhead had separated from the main transmission near the upper flange of the bevel gear reduction module's cylindrical housing; the fracture surface remained intact with the separated rotorhead (for more information, see Airworthiness Group Chairman Factual Report in the public docket).
Metallurgical examination of the retained components revealed that the upper rod end of the fore/aft servo (actuator) remained attached to the swashplate and exhibited a bending overstress fracture near its neck. The lower threaded end of the upper rod end (shank, nut, and lock washer) was not in the actuator and was not recovered. The mating threads of the fore/aft servo upper end fitting exhibited severe wear, consistent with thread wear occurring over a period of time. The upper end fitting was packed with soil, consistent with its exposure prior to ground impact. Additionally, new thread impressions were observed, below the original worn threads, consistent with a vibration of the shank in the actuator hole. Metallurgical examination of all other retained components did not reveal any preimpact mechanical malfunctions (for more information, see Materials Laboratory Factual Report in the public docket.)
Evidence of Mastinox, a corrosion inhibiting compound, was found on the threaded shank of the left-roll and right-roll servo’s upper rod end (threaded shank of fore/aft servo upper rod end not recovered). Evidence of Mastinox was not found on the remnant upper rod end and end fitting of the fore/aft servo; however, the operator reported that they used Mastinox for the servo connections due to the dissimilar metals (aluminum and steel) and covered the Mastinox with a "thin" layer of grease. No evidence of grease was observed on the servo rod ends or fittings. For the servo rod ends’ threaded connection, the Eurocopter maintenance manual (MM) listed only G.355 grease and did not prescribe for the use of Mastinox. However, the Eurocopter standard practices manual stated that a torque correction factor of 0.4 was used for G.355 grease, but not for Mastinox. According to a representative from Eurocopter, the torque value listed in the manual for the rod ends already took the torque correction factor into account and a higher torque would have been necessary when Mastinox was used in place of G.355 grease. The operator reported that they did not adjust torque factor when using the Mastinox with a "thin" layer of grease. Additionally, evidence of sealant at the junction of the upper rod end and nut was not found on either the left-roll or right-roll servos (the sealant area on fore/aft servo was not recovered for inspection). Maintenance procedures for the installation of the rod ends of the servo-controls were found in the Eurocopter Maintenance Manual (MET) Work Card (WC) 67.30.15.401. Review of the WC revealed "…Apply a bead of sealant on the nut (8) and the thread of the ball end (1)…"
MEDICAL AND PATHOLOGICAL INFORMATION
An autopsy was performed on the pilot by the Mercer County, Office of the Chief Medical Examiner, West Trenton, New Jersey, on September 17, 2012. The cause of death was noted as "Massive multiple traumatic injuries." Toxicological testing was performed on the pilot by the FAA Bioaeronautical Science Research Laboratory, Oklahoma City, Oklahoma. Review of the toxicological report revealed:
"Metoprolol detected in Blood"
ADDITIONAL INFORMATION
Fore/Aft Servo
The Air Equipment F6103 31026-010 (serial number 68) fore/aft servo was manufactured in 1981 and installed on the accident helicopter in 1994. It's most recent overhaul was completed by Aerocopter Component Services (ACS), Ontario, Canada, in March 2008. In August 2010, the fore/aft servo was repaired by ACS and recertified to manufacturer specifications in accordance with Air Equipment Component Maintenance Manual (CMM) No. 67-39-10. Specifically, a bearing was replaced due to play in the pilot valve. In November 2011, the fore/aft servo was again repaired by ACS and recertified to manufacturer specifications in accordance with the same CMM. During the second repair, items were replaced due to hydraulic fluid seepage. A manager at ACS stated that during the most recent repair, the threads were inspected per the CMM and no discrepancies were observed at that time. Review of the CMM revealed, "…check all male and female threads for general condition…"
Review of MET WC 05.21.00.603, titled "Daily Operating Checks" (after last flight of day) revealed, "Servocontrols, hydraulic system. Security, absence of leaks, lines."
Review of MET WC 05.23.00, titled "Basic Inspection" (T Inspection/600-hour Inspection), section 6.3, revealed:
"Servo-controls and particularly rod end bearings
(Fig. 1, DETAIL B) :
Disconnect a mounting pin (W.C. 67.30.00.402 or 67.30.15.402).
Manually check that radial play (J) is normal, the second anchoring point being used as fulcrum. J < 0.04 mm (.0016 in)
If in doubt, remove servo-control as per W.C. 67.30.00.402 or 67.30.15.402 for check in workshop.
Connect or install servo-control as per W.C. 67.30.00.402 or 67.30.15.402."
While the Basic T/600-hour inspection called for checking radial play of the rod end bearings, there was no specific guidance to check either the security (torque) of the rod end nut to the servo end fitting or to inspect the condition of the threaded connection. Review of Eurocopter Standard Practices Manual W.C. 20.02.05.404 contained general guidance for the inspection of threaded components, which must be performed each time an externally threaded part is removed. Other than the note in the daily operating check to look for security and absence of leaks, there was no other guidance specifically pertaining to the security of the rod end connection to the servo end fitting.
NTSB Identification: ERA12FA563
14 CFR Part 91: General Aviation
Accident occurred Saturday, September 15, 2012 in West Windsor, NJ
Aircraft: AEROSPATIALE AS 355F1, registration: N58020
On September 15, 2012, about 1200 eastern daylight time, an Aerospatiale AS 355F1, N58020, operated by Analar Corporation, was substantially damaged when it impacted terrain following an in-flight separation near West Windsor, New Jersey. The commercial pilot was fatally injured. The positioning flight was conducted under the provisions of 14 Code of Federal Regulations Part 91. Visual meteorological conditions prevailed and no flight plan was filed for the planned flight to Atlantic City International Airport (ACY), Atlantic City, New Jersey. The flight originated from Princeton Airport (39N), Princeton, New Jersey, about 1155.
According to the president of the company that operated the aircraft, the helicopter had flown during the summer with a loaner transmission, after its transmission was removed for repair on June 4, 2012. After the repair was complete, the helicopter's original transmission was received and then reinstalled on September 13, 2012. After the installation, the president, who was also an airframe and powerplant mechanic, conducted a maintenance ground run, followed by a 30-minute maintenance test flight, with no anomalies noted. Earlier during the day of the accident, the accident pilot flew the helicopter from 39N to the West 30th Street Heliport (JRA), New York, New York, where he picked up a passenger and returned to N39 uneventfully. The helicopter was completely fueled and then departed on the next flight segment (accident flight) with the intent to pick up another passenger at ACY. The president estimated that the helicopter had flown approximately 1 hour 10 minutes since the installation of the transmission.
According to preliminary information from the Federal Aviation Administration, the helicopter was in radio and radar contact with McGuire Approach Control. Radio and radar contact was lost about 1200 and no distress calls were received. Witnesses near the area of the accident site reported hearing a grinding, pop, or engine rev noise. Witnesses also reported seeing something separating from the helicopter and the helicopter spiraling nose down toward the ground. One witness reported observing a flock of small birds strike the right side of the helicopter, just prior to the upset.
The helicopter came to rest upright, on a magnetic heading of 305 degrees. A postcrash fire consumed a majority of the cockpit and cabin. A significant portion of the transmission was also consumed; however, the steel gears were recovered. The rotorhead had separated and was located about 100 yards south of the main wreckage. The rotorhead included the top portion of transmission (epicyclic), the starflex, and the red and blue main rotor blades with their respective sleeves and spherical thrust bearings attached. Also included were three servos and three pitch change links. The entire yellow main rotor blade had separated from the rotorhead and was later recovered about 270 yards southeast of the main wreckage.
The following components were retained for further examination: rotorhead with the upper transmission section (epicyclic); starflex; remaining gears of lower transmission; tailrotor drive shaft coupling; thomas coupling; combining gearbox gears and input pinion to the main gearbox; oil pump and shaft; yellow blade sleeve and both engines.
MICHAEL A. SCARFIA
Obituary
Michael A. Scarfia of Great Kills on September 15, 2012. Beloved husband of Jean (nee Palisay). Devoted father of Elizabeth Colaiocco and the late Michael Jr. Dear brother of Sandy Picataggio and Nancy Roe. Fond father-in-law of Vincent. Loving grandfather of three grandsons Michael, Vincent and Louis. Funeral in Casey McCallum-Rice South Shore Funeral Home, 30 Nelson Ave., Great Kills, on Friday 11 A.M. Entombment Moravian Cemetery. Friends will be received Wednesday and Thursday 2-4 and 7-9 P.M. In lieu of flowers and mass cards, donations to the Michael A. Scarfia Jr. Memorial Scholarship Fund would be appreciated.
http://www.legacy.com/guestbook
Casey McCallum Rice Funeral Home www.SILive.com/obits
http://obits.silive.com
Wreckage burns after a small helicopter crashed in a cornfield, killing the pilot, Saturday, Sept. 15, 2012, in West Windsor, N.J. It was not immediately clear what caused the accident, but township police Lt. Robert Garofalo said several people reported that a flock of birds appeared to make contact with the helicopter shortly before it crashed. He said authorities were still investigating those reports Saturday evening. (AP Photo/Brian McCarthy)
Wreckage burns after a small helicopter crashed in a cornfield, killing the pilot, Saturday, Sept. 15, 2012, in West Windsor, N.J. It was not immediately clear what caused the accident, but township police Lt. Robert Garofalo said several people reported that a flock of birds appeared to make contact with the helicopter shortly before it crashed. He said authorities were still investigating those reports Saturday evening. (AP Photo/Brian McCarthy)
The scene of the helicopter crash in West Windsor today. Photo Credit: Seth Callen.
IDENTIFICATION Regis#: 58020 Make/Model: AS35 Description: EUROCOPTER AS350 Date: 09/15/2012 Time: 1200 Event Type: Accident Highest Injury: Fatal Mid Air: N Missing: N Damage: Destroyed LOCATION City: WEST WINDSOR State: NJ Country: US DESCRIPTION AIRCRAFT CRASHED UNDER UNKNOWN CIRCUMSTANCES. WEST WINDSOR TWP, NJ INJURY DATA Total Fatal: 1 # Crew: 0 Fat: 1 Ser: 0 Min: 0 Unk: # Pass: 0 Fat: 0 Ser: 0 Min: 0 Unk: # Grnd: Fat: 0 Ser: 0 Min: 0 Unk: OTHER DATA Activity: Unknown Phase: Unknown Operation: OTHER FAA FSDO: PHILADELPHIA, PA (EA17) Entry date: 09/17/2012
The pilot of a small helicopter who was killed when it crashed Saturday in a central New Jersey cornfield has been identified as a retired city police officer from the New York Police Department.
New Jersey police identified the man as 65-year-old Michael Scarfia of Staten Island, N.Y.
They say Scarfia again demonstrated dedication to others when he diverted his failing helicopter.
A flock of birds made contact with a helicopter shortly before the helicopter crashed and landed in a field in West Windsor this afternoon, police said.
At 12:19 p.m. today, witnesses watched in horror as the light helicopter, owned by the New York-based Fortress Investment Group, went down and crashed on the American Cyanamid property near the corner of Clarksville Road and Quakerbridge Road.
Police said the pilot was killed. It appeared that there were no other passengers in the helicopter. State police and federal officials were at the scene searching for debris and any to inspect for any possible signs of foul play this afternoon.
“Eyewitnesses said there was no intervention with the helicopter in the sky except for a flock of birds,” Lt. Robert Garofalo said. “It looks like there was some sort of mechanical issue or explosion on board near the engine.”
Witnesses saw the helicopter coming from the Nassau Park area. It then landed in the filed, which is in an isolated area. “Thankfully it did not occur in a populated area,” Garofalo said. “It would have been a thousand times worse.”
West Windsor resident Jay Bryant said it took about five seconds for the helicopter to crash to the ground.
“The helicopter was flying along at a straight path about 2,000 feet up and started to bank downward,” Bryant said. “It then pitched almost straight down the rotors came flying off. Two seconds later it crashed and there was a large plume of black smoke.”
“We were in the parking lot at Nassau Park and saw the prop come apart from the helicopter,” wrote Terry Meade on the West Windsor Police Department Facebook page. “The copter turned over and went straight down. Huge explosion and lots of black smoke. I am still shaking.”
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