NTSB CAROL · Event
Event ANC05LA065
Aircraft involved
Probable cause & findings
The pilot's selection of an unsuitable landing area, which resulted in a loss of control during the landing roll, and a collision with a ditch. A factor associated with the airplane was a leaking brake assembly and diminished braking efficiency.
Factual narrative
On April 27, 2005, about 1930 Alaska daylight time, a tundra tire equipped Piper PA-18-160 airplane, N624MW, sustained substantial damage following a loss of control and collision with a ditch while landing at the Wasilla Airport, Wasilla, Alaska. The solo private pilot was not injured. The 14 CFR Part 91 local personal flight operated in visual meteorological conditions without a flight plan. The flight departed Wasilla about 1700. During a telephone conversation with the NTSB investigator-in-charge (IIC) on April 29, the pilot related that he was landing on the dirt airstrip, runway 21, at Wasilla, when the main landing gear tires encountered a rut, and he lost directional control of the airplane. He said the airplane veered immediately to the left, and the left rudder "bottomed out" making it difficult to apply full right rudder and make a correction. He stated that he applied full right brake, but that the brake was ineffective, and may have failed to operate properly. The airplane continued to the left, and encountered a ditch. The pilot indicated that the airport manager should be made aware of the rutted runway, before someone else has an accident. Following the conversation with the pilot, the IIC contacted the Wasilla Airport manager. The airport manager indicated that there are no dirt or gravel runways at the Wasilla Airport, and that runway 21 is hard surfaced asphalt. He noted that there is an area before the approach end of runway 21 that is dirt and gravel, but it is not designated as a portion of the runway, and it is not maintained as such. A review of the FAA Alaska Supplement and Airport Directory disclosed only one runway at the Wasilla Airport, runway 21-03, which is asphalt covered. The IIC contacted the aviation mechanic who repaired the airplane. The mechanic stated that the right brake assembly had a slow leak, which could have allowed the brake pressure to bleed down and the brake to be less effective. The mechanic indicated he rebuilt the brake assembly following the accident. The private pilot was landing his tundra-tire equipped tailwheel airplane at the conclusion of a 14 CFR Part 91 personal flight on a non-maintained dirt overrun of a hard-surfaced runway. During the landing roll, the tires encountered deep ruts and soft dirt, and the pilot stated that he was unable to maintain directional control. He indicated that the right brake felt flat and ineffective, and may have contributed to his difficulty in maintaining control. An aviation mechanic who repaired the airplane after the accident noted that the brake assembly had a slow fluid leak, and the braking action may have been diminished at the time of the accident. The mechanic said he replaced portions of the right brake assembly while repairing the airplane. Source: NTSB Aviation Accident Database (Pre-2008 Archive) Retrieved: 2026-02-12
Verbatim from NTSB's published report. Source file
NTSB_2005_ANC05LA065.txt.
Findings + structured fields enriched from FAA avall.mdb.
Full investigation docket on
data.ntsb.gov ↗.
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Related research
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Academic papers and agency reports matching this event's aircraft type or causal vocabulary (loss of control). 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 2025 · Journal article (JAAER)
A Scoping Review of Aviation Loss of Control Inflight Research
Loss of control – inflight (LOC-I) contributes to aircraft accidents at unacceptably high rates. Significant industry efforts and research have aimed to improve LOC-I prevention, detection, and recove…
- SKYbrary (Eurocontrol) 2024 · SKYbrary article
Loss of Control In-Flight (LOC-I) — SKYbrary Knowledge Base
SKYbrary comprehensive knowledge-base entry on Loss of Control In-Flight — definitions, contributing factors, accident case studies (Air France 447, Colgan 3407), and prevention strategies.
- NTSB Aircraft Accident Reports 2022 · Accident report
Loss of Control on Takeoff in Icing Conditions — Citation 560XL
Cessna Citation 560XL fatal takeoff icing accident, March 2018. Investigation of a Citation 560XL loss-of-control takeoff accident in icing conditions.
- Semantic Scholar 2021 · Article (Aviation)
ANALYSIS OF GENERAL AVIATION FIXED-WING AIRCRAFT ACCIDENTS INVOLVING INFLIGHT LOSS OF CONTROL USING A STATE-BASED APPROACH
Inflight loss of control (LOC-I) is a significant cause of General Aviation (GA) fixed-wing aircraft accidents. The United States National Transportation Safety Board’s database provides a rich source…
- NASA NTRS 2021 · Presentation
Use of Design of Experiments in Determining Neural Network Architectures for Loss of Control Detection
Abstract—We describe empirical methods for selecting a neural network architecture to implement belief state inference on generic commercial transport aircraft.
- NASA NTRS 2021 · Conference Paper
Use of Design of Experiments in Determining Neural Network Architectures for Loss of Control Detection
We describe empirical methods for selecting a neural network architecture to implement belief state inference on generic commercial transport aircraft.
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