NTSB CAROL · Event
Event WPR22LA124
Aircraft involved
Probable cause & findings
A failure of the right main landing gear bellcrank lower arm fork, bellcrank, pivot bolt, and trunnion bellcrank lug for undetermined reasons.
Factual narrative
On March 10, 2022, about 1430 Alaska daylight time, a Cessna 310R airplane, N3UR, was substantially damaged when it was involved in an accident near McGrath, Alaska. The pilot and three passengers were not injured. The airplane was operated as a Title 14 Code of Federal Regulations Part 91 personal flight. According to the pilot, he back-taxied along runway 16 towards the departure end of the runway at McGrath Airport (PAMC). When he arrived at the end of the runway, he started to turn to the airplane to align it with the reciprocal runway. However, as he began the turn, the right main landing gear collapsed and the wing and propeller both contacted the runway. The right elevator also contacted the runway and was substantially damaged. A postaccident examination of the right main landing gear well by the pilot found fractures at the bellcrank lower arm fork (item “1” in Figure 1), bellcrank pivot bolt (item “2 in Figure 1), and the trunnion bellcrank lug (item “3” in Figure 2). An NTSB materials laboratory review of photographs of the fracture surfaces revealed fracture characteristics that were all consistent with overstress. No evidence of fatigue was observed on any of the fracture faces; however, the quality of the photographs precluded the observation of any small regions that may have exhibited fatigue cracking. According to the airplane manufacturer, an overstress failure of the bell crank assembly at the trunnion is commonly an indication that the down lock side brace was not in the down and locked position. Figure 1: Bellcrank assembly fracture points Figure 2: Bellcrank bolt fracture at trunnion A logbook entry from the airplane’s most recent annual inspection indicated that the right main landing gear door and gear strut were removed and replaced with new bolts. The landing gear was subsequently re-rigged in accordance with the maintenance manual before the airplane was returned to service. The accident pilot was also the certified airframe and powerplant mechanic responsible for completing the last annual inspection on the accident airplane. According to his recount, after he replaced the landing gear strut after a previous right main landing gear failure, he checked the down lock tension and discovered that it was “too tight.” However, when he subsequently made an adjustment to reduce the tension, he found that it was out of tolerance. He made one final adjustment that placed the down lock tension within tolerance before he returned the airplane to service, 22 flight hours prior to the accident. The accident airplane maintenance manual provided specific instructions for adjusting main landing gear down lock tension (Chapter 32, Section 32-30-00). “(1) Inspection the main gear down lock tension for proper adjustment (a) Position landing gear in down position (b) Check main gear down lock for proper engagement and tension (40 to 60 pounds) NOTE: When checking down lock tension always place a finger on the down lock switch, pull scale at a right angle to the lock link and read the scale at the point when switch actuation can be felt. (2) Adjustment (a) If the down lock tension is not 40 to 60 pound, adjust push-pull tube in one half turn increments until proper tension is obtained. If the down lock tension is in excess of 60 pounds, the down lock tension should be rigged to 40 to 50 pounds. Lengthening the push-pull tube decreases and shortening the push-pull tube increases tension.” The pilot recalled using a spring scale to measure the down lock tension and the push-pull tube to adjust the tension. He added that he was particular about following each step in the Cessna maintenance manual during this inspection as he was new to maintaining the accident airplane make and model. The pilot back-taxied the airplane for departure and then began a 180° left turn to align the airplane with the runway centerline when the right main landing gear collapsed. The gear collapse resulted in substantial damage to the right elevator. A postaccident examination of the airplane revealed fractures to the bellcrank lower arm fork, bellcrank, pivot bolt, and trunnion bellcrank lug at the right main landing gear, which all displayed signatures consistent with overstress. The airplane had recently been repaired following another right main landing gear failure. During the repair the accident pilot, who was also the mechanic, adjusted the down lock tension as required by the maintenance manual and returned the airplane to service after he determined that the tension was within limits. A statement from the airplane manufacturer suggested that the failure may have been the result of an improper down lock tension adjustment. However, there was insufficient evidence in the investigation to show whether the pilot performed the adjustment incorrectly, thus the cause of the landing gear failure is undetermined. Source: NTSB Aviation Accident Database Retrieved: 2026-02-12
NTSB Findings
Hierarchical cause / factor breakdown from the FAA bulk avdata database. Each finding tagged C (Cause) or F (Factor).
- — Aircraft-Aircraft systems-Landing gear system-Main landing gear attach sec-Failure
- — Aircraft-Aircraft systems-Landing gear system-(general)-Unknown/Not determined
Verbatim from NTSB's published report. Source file
NTSB_2022_WPR22LA124.txt.
Findings + structured fields enriched from FAA avall.mdb.
Full investigation docket on
data.ntsb.gov ↗.
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Related research
What the literature says.
Academic papers and agency reports matching this event's aircraft type or causal vocabulary (maintenance). Sourced from NASA NTRS, NTSB Safety Studies, FAA CAMI, AOPA Air Safety Institute, Embry-Riddle Scholarly Commons, arXiv, and the Semantic Scholar academic graph.
- Embry-Riddle Scholarly Commons 2026 · Journal article (IJAAA)
From Reactive to Predictive: A hybrid Trust-Mediated Adoption Framework for Data-Driven Maintenance in Distributed-Authority Aviation Environments
Modern aviation maintenance operates within increasingly data-intensive technological environments, yet the operational integration of predictive maintenance into routine decision-making remains incon…
- Semantic Scholar 2025 · Article (Applied Sciences)
Decision-Making Framework for Aviation Safety in Predictive Maintenance Strategies
The implementation of predictive maintenance (PM) in aviation presents unique challenges due to strict safety requirements, complex operational environments, and regulatory constraints.
- Embry-Riddle Scholarly Commons 2024 · Journal article (JAAER)
Low-Resource Automatic Speech Recognition Domain Adaptation – A Case-Study in Aviation Maintenance
With timeliness and efficiency being critical in the aviation maintenance industry, the need has been growing for smart technological solutions that optimize and streamline the different underlying ta…
- Embry-Riddle Scholarly Commons 2024 · Journal article (JAAER)
A New Trajectory in UAV Safety: Leveraging Reinforcement Learning for Distance Maintenance Under Wind Variations
In the field of aviation, safety is a critical cornerstone, and the operation of Unmanned Aerial Vehicle (UAV) systems is deeply connected with this principle.
- Embry-Riddle Scholarly Commons 2024 · Journal article (IJAAA)
Just Culture in Aviation: A Metaphorical Study on Aircraft Maintenance Students
Just Culture, a sub-dimension of safety culture, has been a prominent and debated topic in aviation safety in recent years.
- Embry-Riddle Scholarly Commons 2024 · Journal article (IJAAA)
Performance PRISM: A Comprehensive Framework For Performance Measurement In Aircraft Maintenance
Aircraft maintenance is governed by rigorous safety requirements and high operational complexity, demanding robust performance measurement frameworks to ensure optimal maintenance practices.
Browse the full corpus — academia portal ↗