NTSB CAROL · Event
Event ANC96LA105
Aircraft involved
Probable cause & findings
The improper and unauthorized repair of the main landing gear by the pilot, and the pilot's decision to operate the airplane with known deficiencies.
Factual narrative
On July 20, 1996, about 1159 Alaska daylight time, a Tundra tire equipped Piper PA-18 airplane, N2561N, sustained substantial damage while back taxiing for takeoff on runway 7 at the Mc Grath Airport, Mc Grath, Alaska. The solo private pilot was not injured. The local flight was departing for Palmer, Alaska, and had previously departed a rural mining airstrip located 52 miles northeast of Kotzebue, Alaska, at 1000. The 14 CFR Part 91 flight operated in visual meteorological conditions without a flight plan. During a telephone conversation with the NTSB investigator-in-charge on July 25, 1996, the pilot stated that he was ferrying the aircraft to Palmer for repairs. He said that while taxiing for takeoff at Mc Grath, the left tire went flat, and the left wing struck the ground, damaging the left wing spar. An FAA flight service station specialist who was on duty at the time of the Mc Grath accident, looked at the airplane after the accident. His statement is attached. The pilot had been involved in an earlier airplane accident on July 13, 1996, while landing N2561N at the aforementioned mining airstrip (reference NTSB Accident Report ANC96LA126). In the early accident, a portion of the right main landing gear collapsed, and the airplane sustained damage to the landing gear, right wing spar, right wing lift struts, and fuselage. The pilot made unauthorized repairs to the main landing gear by fashioning a right main gear leg strut out of iron water pipe, and made repairs to the lift struts by taping boards to them. The pilot then elected to make a flight from the mining strip to Palmer, Alaska, for repairs. En route, the pilot stopped for gas at Mc Grath. The ferry flight for repairs was not authorized by the FAA, and no authorized aviation mechanic had inspected or made any repairs to the airplane prior to the ferry flight, or while the airplane was at Mc Grath. Approved aviation repair facilities were available at Mc Grath. Conversations with an FAA inspector, and a manufacturer of over-sized Tundra tires, disclosed that proper landing gear geometry is essential for the tires to roll efficiently and to keep side loads to a minimum. If excessive side loads are placed upon the tire, the tire may rotate on the rim, slicing the valve stem, and allow the tire to deflate. The pilot reported that the left, over-sized Tundra tire deflated and the left wing subsequently struck the ground while he was taxiing for takeoff at Mc Grath, Alaska. The pilot was involved in an accident a week earlier with the same airplane when the main landing gear collapsed while landing at a rural mining airstrip. At the previous accident site, the pilot made unauthorized repairs to the landing gear and wing lift struts. He fashioned a main gear leg from iron water pipe, and taped boards to the lift struts. He then elected to fly the airplane to Palmer, Alaska, so that additional repairs could be made. He made an interim stop at Mc Grath for gas, but did not seek repairs from any aviation repair facility prior to his attempted departure. Discussion with Tundra tire experts disclosed that proper landing gear geometry is essential for safe operation. If the landing gear geometry is incorrect, additional side loads will be placed on the tire, which may cause it to rotate on the rim, slicing the valve stem and allowing the tire to deflate. Source: NTSB Aviation Accident Database (Pre-2008 Archive) Retrieved: 2026-02-12
Verbatim from NTSB's published report. Source file
NTSB_1996_ANC96LA105.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 (icing). Sourced from NASA NTRS, NTSB Safety Studies, FAA CAMI, AOPA Air Safety Institute, Embry-Riddle Scholarly Commons, arXiv, and the Semantic Scholar academic graph.
- NASA NTRS 2026 · Contractor Report (CR)
Icing Physics Studies Using the 3D SIDRM Test Article: 2023 Icing Tests Analysis
In-flight icing is an important safety issue and is a factor that affects aircraft design and performance. Newer regulations are driving a need for improvements in airframe and engine icing simulation…
- arXiv 2025 · arXiv preprint
Multi-Agent Deep Reinforcement Learning for UAV-Assisted 5G Network Slicing: A Comparative Study of MAPPO, MADDPG, and MADQN
The growing demand for robust, scalable wireless networks in the 5G-and-beyond era has led to the deployment of Unmanned Aerial Vehicles (UAVs) as mobile base stations to enhance coverage in dense urb…
- Embry-Riddle Scholarly Commons 2025 · Journal article (JAAER)
A Mathematical Model on the Temporal Dynamics of Aviation Competitive Pricing
This study investigates the competitive dynamics of airport pricing using U.S. airport data to validate the findings. It employs linear and nonlinear ordinary differential equation models to analyze t…
- NASA NTRS 2025 · Presentation
NASA Icing Update – March 2025
This NASA Icing Update was prepared for presentation to the SAE International AC-9C Inflight Icing Technology Committee. This update includes the following topics: planned Rotational Icing Scaling tes…
- arXiv 2024 · arXiv preprint
An energy-stable phase-field model for droplet icing simulations
A phase-field model for three-phase flows is established by combining the Navier-Stokes (NS) and the energy equations, with the Allen-Cahn (AC) and Cahn-Hilliard (CH) equations and is demonstrated ana…
- NASA NTRS 2024 · Presentation
NASA Icing Update – Oct 2024
This presentation provides a status update on select NASA icing research activities for the SAE AC-9C Icing Technical Committee Meeting on Oct 21, 2024.
Browse the full corpus — academia portal ↗