N7122T

HISTORY OF FLIGHT On July 20, 2012, about 1145 Pacific daylight time, a Hawker Beechcraft G58, N7122T, was substantially damaged when it veered off the runway, and struck a sign and a ditch during landing at Rogue Valley International-Medford Airport (MRF), Medford, Oregon. Neither the pilot/owner nor his passenger was injured. The personal flight was conducted under the provisions of Title 14 Code of Federal Regulations Part 91. Visual meteorological conditions and light winds prevailed, and no Federal Aviation Administration (FAA) flight plan was filed for the flight.

According to the pilot, he based the airplane at Palm Springs International Airport (PSP), Palm Springs, California. He departed PSP about 0839, conducted the flight under visual flight rules, and reported that the flight and approach were unremarkable. He reported that he used 85 knots as his final approach speed, and full flaps for the landing. When the airplane touched down on runway 32, it seemed to roll straight for a "very short distance," but then "pulled left." The pilot was able to correct that with right rudder. Upon release of the right rudder, the airplane again pulled to the left, but "a little harder." That cycle repeated a few times in rapid succession, and when the pilot applied right brake, the airplane tracked rapidly, in a relatively straight line, towards the right edge of the runway. It exited the runway, struck a runway distance sign, and then a ditch. In his initial statement to first responders, the pilot reported that he believed that there was a malfunction of the rudder control system. The airplane was recovered by a maintenance facility on the airport. Based on the maintenance history of the airplane and certain physical evidence, components of the left main landing gear (LMLG) were retained for detailed examination.

PERSONNEL INFORMATION

FAA information indicated that the pilot held a private pilot certificate, with airplane single engine land, airplane multi engine land, and instrument airplane ratings. His most recent FAA third-class medical certificate was issued in March 2011. According to the pilot, he had a total flight experience of about 850 hours, including about 45 hours in the accident airplane make and model.

AIRCRAFT INFORMATION

The airplane was manufactured in 2011, and the pilot had purchased it new in December 2011. The pilot had made leaseback arrangements for a Hawker Beechcraft Company (HBC) representative to occasionally fly and use the airplane as an HBC marketing and sales demonstrator. At the time of the accident, the airplane had a total time in service (TT) of 54 hours.

METEOROLOGICAL INFORMATION

The MRF 1153 automated weather observation included variable winds at 4 knots, visibility 10 miles, clear skies, temperature 24 degrees C, dew point 12 degrees C, and an altimeter setting of 30.15 inches of mercury.

AIRPORT INFORMATION

MRF runway 32 was asphalt, dry, and reported to be in "excellent" condition per the FAA database. It measured 8,800 by 150 feet. MRF elevation was 1,335 feet above mean sea level. MRF was equipped with an air traffic control tower (ATCT), and the ATCT was staffed and operating at the time of the accident.

WRECKAGE AND IMPACT INFORMATION

MRF operations and rescue fire-fighting (RFF) personnel were the first responders to the accident. FAA personnel did not respond to MRF until several days after the accident, after the airplane had been recovered to a hangar. NTSB personnel did not respond to the accident site.

The airplane came to rest upright, approximately 4,000 feet down the runway, and about 500 feet right of the centerline. All three landing gear were fracture-separated from the airplane during the accident sequence; both the left and right main landing gear chromed struts had fracture-separated, which liberated the two main wheel and tire assemblies from the airplane. The final resting locations of the various separated components were not documented. According to responding personnel, the airplane left one or more partial or complete skidmarks that began near the runway centerline, and terminated at the edge of the runway. The skidmarks were not sufficiently documented to enable positive association with specific landing gear tires. The conditions of, and damage signatures to, the three landing gear tires were not documented in detail. According to the pilot, the LMLG was the portion of the airplane that struck the runway sign, but no evidence to either support or refute that recollection was obtained. Damage patterns to the propeller blades were approximately symmetric with regard to the left and right propeller blade sets, with the left engine blade set exhibiting slightly more damage. Both blade sets had gouges and scraping consistent with pavement contact, and both blade sets exhibited aft bending and curling of their outboard (tip) sections.

The two links of the right main landing gear torque link (sometimes referred to as "scissor link") assembly remained attached to one another. The lower link remained attached to the wheel assembly, and the upper link was fracture-separated from the upper landing gear structure.

The two links of the left torque link assembly were found separated from each other. The lower link remained attached to the wheel assembly, and the upper link had fracture-separated from the upper landing gear structure. Normally, the two lugs of the lower link mated with a tab on the upper link in a clevis-type arrangement, and the two links were attached with a bushing, a bolt, a washer, a castellated nut, and a cotter key. One of the lugs on the lower link was bent about 25 degrees laterally away from the link axis. Despite a dedicated search, neither the bolt nor any of the other attach hardware was found at the accident site. The pilot asserted that the bolt had backed out because the cotter key was never installed in the nut by the mechanics that repaired the LMLG 7 months prior to the accident.

The pilot provided the following explanation regarding the direction of the veeroff:

"Some would ask why the plane went off the runway to the right, with the left wheel dragging behind; and I would answer that in my effort to keep the plane rolling straight I was applying full right rudder intermittently back and forth and as the swerving got worse I believe I tried the right brake and the plane took off in that direction and I couldn't straighten it out."

Review of the airplane dimensions and geometry indicated that with a failed LMLG strut, it was possible but not likely for the left wing to support the airplane in such a manner that the LMLG strut (without a wheel/tire) would not contact the ground. Factors that affected whether the strut would contact the ground included, but were not limited to: nose and RMLG strut compression, wing flex and/or damage, LMLG strut fracture location, and airplane attitude (nose or tail low).

ADDITIONAL INFORMATION

Preflight Inspection Information

FAA regulations and standard operating practices dictate that a thorough preflight inspection of an aircraft be conducted prior to every flight. Preflight inspections are usually conducted by the pilot of a given flight. Typical preflight inspections address multiple aspects of the main components of all flight-critical systems, and include visual and functional checks as appropriate.

The "Preflight Inspection" subsection of Section 4 ("Normal Procedures") of the airplane manufacturer's Pilot Operating Handbook enumerated the components/systems and the relevant actions for a comprehensive preflight inspection of the airplane. Item 7p ("Left Main Gear") contained the guidance "Scissor Linkage........SECURE." While not explicitly defined, the term "secure" normally denotes that the item be examined for presence and security of appropriate attach hardware, as well as for proper (if any) freeplay.

Maintenance Information

The pilot took delivery of the airplane at the HBC facility in Wichita Kansas, when the airplane had a total time (TT) in service of 2.9 hours. On December 10, 2011, he flew it to his home airport (PSP) in California. The next day, he flew the airplane out and back to a nearby airport, and a few days after his return he noticed that the LMLG strut of the hangared airplane was "flat." The pilot estimated that the airplane had a total about "7-10 cycles" (flights) on it since new.

On either December 21st or 22nd, the pilot contacted the HBC factory service representative in Arizona, who recommended that the pilot contact a repair facility at PSP "to take a look at it." The pilot contacted Palm Springs Aircraft Maintenance (PSAM), and the PSAM owner (who was also an aircraft mechanic) came to the hangar to examine the strut. The PSAM owner then retrieved strut servicing equipment from the PSAM facility, returned to the airplane, and replenished the nitrogen in the strut. The airplane remained in the hangar overnight, but when the pilot examined it the next day, the strut was again flat.

The pilot re-contacted the HBC service representative, who told the pilot that he was attempting to arrange for a dedicated HBC "service truck" to travel from Arizona to PSP to repair or replace the strut. Later that day, the HBC service representative told the pilot that he had arranged for PSAM to repair the strut, based in part on his understanding that a damaged strut O-ring was the cause of the leak, and also in part due to the lack of availability of a replacement strut. The HBC service representative's understanding that the strut was leaking due to a defective O-ring was based on a re-examination and leak check of the strut conducted by the PSAM owner.

According to the PSAM owner, HBC was "in a hurry" to get the strut repaired, as evidenced by multiple telephone calls from HBC to PSAM. PSAM and HBC personnel coordinated with one another to ensure that PSAM had the appropriate parts and guidance to conduct the repair to the stru...