NTSB Factual Report

HISTORY OF FLIGHT

On September 21, 2013, about 1150 mountain standard time, a Bell UH-1V helicopter, N22490, was destroyed when it impacted the ground near Cordes Lakes, Arizona, following the in-flight separation of the main rotor hub and blade assembly. The owner/pilot and the non-pilot rated passenger were fatally injured. The personal flight was conducted under the provisions of Title 14 Code of Federal Regulations Part 91. Visual meteorological conditions prevailed, and no Federal Aviation Administration (FAA) flight plan was filed for the flight.

The helicopter was based at Scottsdale airport (SDL), Scottsdale, Arizona, and reportedly departed SDL the morning of the accident. According to witnesses, the helicopter landed at Sedona airport (SEZ), Sedona, Arizona, that morning, where a fly-in and aircraft exhibition event was being held. SEZ was located approximately 75 nautical miles (nm) north of SDL. The pilot and passenger re-boarded the helicopter about 2 hours later, and departed SEZ. On departure, the helicopter first air-taxied along runway 3, which was approximately downwind, about 100 feet above ground level. It was then observed to make a course reversal near the end of the runway, and flew along runway 21 before departing the area. A short time later, eyewitnesses who were located about 30 miles south-southwest of SEZ observed the airborne helicopter "explode" near them, and telephoned 911 to report the accident.

A partial radar track associated with the helicopter indicated that the first target was acquired about 1138, at an indicated altitude of 6,500 feet. That target was located about 12 miles from SEZ, on a magnetic bearing of 197 degrees. The last radar target associated with the helicopter was recorded about 1150, at an indicated altitude of 5,700 feet. That final target was approximately coincident with the wreckage location.

The wreckage was distributed for a distance of about 1/2 mile along the flight path. FAA and Honeywell personnel responded to the accident site on the afternoon of the accident, and began mapping the debris field. The following day the NTSB investigator arrived, the team completed the on-scene mapping and examination, and the wreckage was recovered to a secure facility for detailed examination.

PERSONNEL INFORMATION

The pilot held a private pilot certificate with airplane single- and multi-engine land ratings, and was issued a rotorcraft helicopter rating in May 2013. On his most recent application for an FAA medical certificate, the pilot reported that he had 1,856 total hours of flight experience. His helicopter flight training and flight examination were conducted in a Hughes 269 helicopter.

Portions of the pilot's flight log were recovered in the wreckage, and partially-completed helicopter flight logs were recovered from the pilot's hangar. Review of the available records indicated that the pilot had purchased the helicopter in Texas in April 2013. He reportedly received 1 to 2 hours of instruction in the helicopter while it was in Texas, but this was not able to be confirmed by the investigation. The pilot then flew the helicopter to his home base in Arizona, in a trip that consisted of 7 legs and 9.6 flight hours. On that trip, the pilot was accompanied by a rotorcraft instructor who had no prior experience in the UH-1 or any of its variants.

In the period between the delivery trip and early May, 2013, the pilot conducted 5 flights in the helicopter with two other, different instructors, one of whom was his flight examiner for his rotorcraft rating. Those flights had a total duration of 8.3 hours. The records indicated that subsequent to that, the pilot completed 12 additional flights, with a total duration of 13.4 hours, in the helicopter but without an instructor. Several of the flight entries did not have dates associated with them. The last dated flight entry in the helicopter was for a flight on August 4, 2013. That entry was followed by two undated ones for two more flights, the last of which was to Payson, Arizona. The last entry that was dated in the pilot's flight log was for a flight on August 15. The duration was 1.0 hours, but the flight location/destination was indecipherable.

The pilot's helicopter flight examiner stated that the pilot had purchased the UH-1 prior to his completion of his helicopter rating. The examiner estimated that the pilot had less than 100 hours of helicopter flight experience at the time of the accident. Compilation of all available records indicated that the pilot had a total flight experience of about 33 hour in the accident helicopter make and model.

The Yavapai County (Arizona) Office of the Medical Examiner (ME) autopsy report cited multiple blunt force trauma as the cause of death. The report cited a toxicology finding for ethanol of 1.470 mg/g, which is a weight per unit weight parameter. The laboratory that conducted the toxicology determination was located in Indiana. The investigation was unable to determine how the samples were packed, how long they were in transit, and under what temperature conditions; without such information the possibility of putrefaction, and resultant ethanol production, could not be quantified. Except for caffeine and nicotine, all other Yavapai County ME toxicology findings were negative.

The FAA Civil Aeromedical Institute (CAMI) conducted forensic toxicology examinations on specimens from the pilot, and reported that no carbon monoxide, cyanide, ethanol, or any screened drugs were detected. The CAMI cutoff level for ethanol was 10 mg/dL, which is a weight per unit volume parameter.

AIRCRAFT INFORMATION

The helicopter was manufactured in 1974. It was equipped with a Lycoming/Honeywell T-53 series turboshaft engine, and was originally delivered to the United States (US) Army. The helicopter was equipped with a two-blade teetering main rotor (MR) system, and a two-blade tail rotor (TR) system. For reference and maintenance purposes, the two blades and their control components in each rotor system were differentiated by arbitrarily assigning them color names, in this case "Red" and "White;" both the MR and TR systems each had one Red and one White blade.

In 2001, the helicopter was transferred to the civil registry as surplus equipment, to a non-profit agency in Texas. In 2004, the helicopter was transferred to the Marine Aviation Museum in Texas, and was sold to JR Helicopter in 2012, which sold it to the accident pilot in April 2013.

According to Bell records, the helicopter was delivered as a UH-1H. The US Army converted it to a medical configuration, UH-1V. At some point the helicopter was again modified, back to a UH-1H configuration, but the civil registry did not reflect that; it remained registered as a UH-1V. In March 2013, JR Helicopter unsuccessfully requested that the FAA alter the registration to designate it as a UH-1H model.

On May 6, 2013, the pilot submitted his application to the FAA for the special airworthiness certificate. The FAA registered the helicopter to the pilot in the "Experimental" class, "Exhibition" category in July 2013. FAA representatives at the Scottsdale, Arizona Flight Standards District Office (FSDO) reported that the Phase II limitations issued by the Houston FSDO on March 28, 2013, remained in effect after the transfer of ownership to the accident pilot.

Review of the maintenance records that were obtained by the investigation indicated that that the most recent annual condition inspection was completed on April 20, 2013. That inspection was signed off by the seller of the helicopter, and stated that the helicopter was in "a safe operational condition for continued use." The records indicated that at the time of that inspection, the helicopter had a total time in service of just over 3,664 hours. The most recent airworthiness directive (AD) compliance list for the helicopter was dated December 26, 2006, but that list was annotated to indicate that it was re-validated on December 22, 2008.

Review of recovered flight log and maintenance records indicated that the helicopter had accumulated approximately 3,693 hours total time in service at the time of the accident.

METEOROLOGICAL INFORMATION

The SEZ 1135 automated weather observation included winds from 230 degrees at 5 knots, gusting to 17 knots, visibility 10 miles, with clear skies. Review of available meteorological information indicated that winds aloft in the general vicinity of the accident location were from 210 degrees at 15 knots at 6,000 feet, and 220 degrees at 18 knots for 7,000 feet.

WRECKAGE AND IMPACT INFORMATION

The helicopter debris trail was oriented along a magnetic track of about 160 degrees. The distance between the northernmost (earliest) and southernmost (last) items in the debris field was about 3,200 feet. However, the northernmost items were light, low-density, and high-drag items, which were more readily influenced by winds. The distance from the northernmost wreckage item not readily influenced by the wind to the southern end of the debris field was about 2,000 feet. The majority of the debris was arrayed in highly linear fashion, but the main rotor assembly, which included the two blades and the hub, was located about 600 feet east of the debris trail.

The debris trail included the cockpit windshields and doors, cabin sidewall, and cabin interior items. The majority of the helicopter, including the cockpit/cabin, engine, transmission, tail boom, and tail rotor assembly, was located in or near an impact crater at the southern end of the debris trail. No evidence of any pre-impact failures of the engine, reduction gearbox, transmission, or tail rotor drive assemblies was observed. No evidence of fire or a high-order explosion was observed on any components found in the debris trail, and the only evidence of fire was observed in and around the main impact crater.

The initial on-scene and post recovery examinations of the wreckage resulted in the following observations:

- The MR hub and blade assembly separated as a unit from the helicopter

- The location of the MR hub and blade assembly, about 600 feet east of the north-south main debris trail, was consistent with an early event in the accident sequence

- The location of the MR hub and blade assembly was consistent with the assembly having sufficient rotational energy to 'fly' in a non-ballistic path that diverged significantly from the helicopter's flight path

- The damage patterns to the MR hub and blade assembly and the rest of the helicopter were consistent with one or both of the MR blades cutting into the cockpit and cabin

- The damage patterns were consistent with the right cockpit/cabin sidewall and right landing skid being sheared from the helicopter in a plane oriented approximately parallel to the helicopter's longitudinal and vertical axes, from front to back.

- Five components of the MR "White" blade control system were not located; these included the pitch horn, pitch change link, stabilizer bar mixing lever, rotary damper assembly, and the pitch control tube normally situated between the scissor links and the stabilizer bar assembly.

- The damage patterns were consistent with the missing White components being liberated by overload forces while the MR hub and blade assembly was rotating

The MR hub and blade assembly, with the MR blade grips and most of the MR blade leading edge spars attached, separated via a rotor mast fracture at the base of the hub. At the mast fracture location, the circular cross section of the mast was deformed to an oval. The mast fracture was consistent with overload, and no evidence of pre-existing problems such as corrosion or fatigue, was observed. Above the fracture, the mast exhibited evidence of hard contact with the aluminum main rotor hub static stops. The static stops exhibited corresponding contact witness marks and deformation.

The hub moment spring support assembly remained attached to the bottom of the MR yoke, but the hub springs (elastic bumpers) were not installed. The stabilizer bar assembly was found separated from the MR hub and blade assembly. The White side stabilizer support remained attached to the White center frame of the stabilizer bar assembly. The White stabilizer support was fracture-separated from the White side trunnion, and all four support attach bolt fractures were consistent with shear and bending overload forces.

The tailboom was fracture-separated from the fuselage, consistent with overload, and was located adjacent to the main wreckage. The TR drive shaft and housing along the top of the tailboom did not exhibit any non-impact-related distress. No evidence of any pre-impact anomalies in the TR system was observed.

The engine was found in the main wreckage crater, but was located outside of the fire-affected area; the engine was found separated from the fuselage mounts. Engine damage signatures, including blade deformation, and metal spattering and accretions, were consistent with rotation under power at the time of impact. No evidence of any pre-impact engine anomalies was observed.

Subsequent to the initial recovery efforts, two additional dedicated search efforts were conducted in attempts to locate the missing components from the White MR blade control system. Although both of those searches located additional debris, the noted White MR blade control system components were never located.

Refer to the NTSB public docket for this accident for additional information.

ADDITIONAL INFORMATION

Main Rotor Hub Moment Spring

In the mid 1980's the United States Army, in conjunction with Bell Helicopter, developed and installed a "hub moment spring kit" on US Army UH-1 helicopters. According to Army maintenance guidance document TM-55-1520-210-10, the hub moment spring also provided "an additional margin of safety in the event of an inadvertent excursion of the helicopter beyond the approved flight envelope."

On February 1, 2002, the FAA issued AD 2002-01-31, which affected multiple models of the Bell UH-1, 204 and 205 helicopters "with main rotor mast (mast), part number (P/N) 204-011-450-007... or main rotor trunnion (trunnion), P/N 204-011-105-001 installed, certificated in any category." Review of the maintenance records indicated that both the main rotor mast and main rotor trunnion part numbers specified by the AD were installed on the accident helicopter. Among other actions, the AD required, within 25 hours time in service, the removal of "any hub spring installed on any affected helicopter" which were "intended to prevent failure of a mast or trunnion, separation of the main rotor system, and subsequent loss of control of the helicopter."

Review of the helicopter's most recent AD compliance list indicated that the AD had been complied with, which was contrary to the physical evidence observed during the wreckage examination. The hub springs (elastic bumpers) had been removed from the helicopter, but the hub spring support mount was still installed on the helicopter. The normal static stops limit the hub teeter (pivot) angle to a value less than that required to result in contact between the bumper-less spring mount and the mast.

Post-Purchase Pilot Maintenance Inquiries

Subsequent to his return to Arizona with the newly purchased helicopter, the pilot contacted several persons or agencies knowledgeable about UH-1 helicopters, with the apparent intent of soliciting maintenance advice and/or services.

On May 6, 2013, in response to a request from the pilot, the pilot's rotorcraft examiner physically examined the helicopter in detail. In a post-accident interview with the NTSB, he reported that the helicopter was in "fairly decent shape" when he examined it. The examiner noticed that one of the main rotor blade dampers was in need of repair/replacement, but stated that it appeared to be functional. He did not provide any observations regarding the visual appearance or clarity of the damper oil.

Also in early May, 2013, and in response to a request from the pilot, the president of a company called Helicopter Consulting (HC) briefly examined the helicopter. His findings were summarized in a May 7, 2013, letter to the pilot. The letter stated that although the maintenance re

NTSB Probable Cause

The pilot's improper maintenance on the helicopter’s main rotor blade pitch control system, which resulted in an in-flight loss of main rotor blade pitch control, mast bumping, and mast failure.