HI-1064

HISTORY OF FLIGHTOn June 21, 2022, about 1738 eastern daylight time, RED Air flight 203, a Boeing MD-82, HI-1064, overran the end of runway 9 at Miami International Airport (MIA), Miami, Florida, after the left main landing gear (MLG) failed shortly after landing. The airplane impacted a concrete and steel structure in the grassy area to the left of the runway and came a stop shortly afterward. A postcrash fire ensued while the airplane was being evacuated. Of the 140 occupants aboard the airplane, 4 passengers sustained minor injuries. The postcrash fire was subsequently extinguished by aircraft rescue and firefighting (ARFF) personnel from Miami-Dade Fire Rescue. The airplane was operating under Title 14 Code of Federal Regulations Part 129 as a scheduled international passenger flight from Las Américas International Airport (SDQ), Santo Domingo, Dominican Republic, to MIA.

The flight crew arrived at MIA about 0830 for the first flight of the day, from MIA to SDQ. The first officer conducted a walkaround of the airplane and observed no anomalies. The airplane departed MIA about 1028 and arrived at SDQ about 1115. The accident flight departed SDQ about 1435. The captain was the pilot monitoring, and the first officer was the pilot flying.

The takeoff, climb, and en route phases of flight were uneventful. The flight was cleared for the instrument landing system approach to runway 9, and the flight crew stated that the approach was normal. The first officer disconnected the autopilot when the airplane was descending from 400 to 200 ft above ground level and then manually flew the airplane for the remainder of the flight.

The first officer recalled that the airplane touched down smoothly on the right and then the left MLG and that the airplane was slightly to the right of the centerline, which he corrected after touching down. Shortly afterward, the flight crew felt a vibration on the left side of the airplane. The vibration increased, and the airplane veered to the left despite the crew’s efforts to maintain the airplane on the runway centerline. The airplane subsequently departed the paved runway surface and impacted the glideslope equipment building for runway 30, which was located to the left of runway 9, causing the nose landing gear and the right MLG to collapse. A postcrash fire began on the right wing after the fuel tank on that wing was breached, after which the airplane came to a stop.

The flight attendants described the flight as “calm” and “normal” with some slight turbulence during the descent. The flight attendants reported that the initial touchdown was smooth but that, once the thrust reversers were activated (which they stated was “quicker than normal”), they felt vibrations and noted that it was “very loud” inside the cabin. The thrust reversers were suddenly “turned off,” which was followed by vibrations that were “very excessive,” and everything inside the cabin was “shaking violently.” The flight attendants realized that something was wrong and instructed passengers to remain seated and put their heads down. The airplane started “sinking on the left side,” and then the airplane stopped completely.

The flight crew initially instructed the passengers to remain seated. While performing the engine shutdown checklist, the crew learned, from the lead flight attendant, about smoke in the cabin, so the captain immediately commanded a passenger evacuation from the left side of the airplane, and the crew began performing the evacuation checklist. The evacuation and emergency response are discussed in the Survival Aspects section of this report. (As discussed in the evacuation information, one of the aft flight attendants had initiated the evacuation before the captain’s command.)

Video evidence (from an airport camera and a passenger’s cell phone) showed that the airplane touched down on runway 9 with about 8,900 ft remaining. Tire deposits on the runway, which started about 1,300 ft from the touchdown point, showed evidence of left MLG shimmy, which is a torsional vibration mode of the landing gear in which the inner cylinder oscillates relative to the outer cylinder. The amplitude of the shimmy increased steadily until the left MLG collapsed under the airplane with about 6,930 ft remaining on the runway. The airplane skidded on its left wing down the runway, veered to the left, and the right wing impacted a glideslope equipment building and antenna. The airplane’s nose gear and right MLG collapsed, and the airplane came to a stop. Figure 3 shows pertinent events during the accident landing.

Figure 3. Overview of events during accident landing.

Note: Tire shimmy marks from the No. 1 tire were found with 7,480 and 7,120 ft of runway remaining. Tire shimmy marks from the No. 2 tires were found with 7,300, 7,200, and 7,020 ft of runway remaining. PERSONNEL INFORMATIONThe captain’s medical certificate required him to wear corrective lenses, and the captain stated that he was wearing contact lenses at the time of the accident. The first officer’s medical certificate had no limitations. Post-accident drug and alcohol testing of both pilots identified no evidence of impairing drugs or alcohol. AIRCRAFT INFORMATIONGeneral

The accident airplane, a McDonnell Douglas MD-82 (previously referred to as a Douglas Aircraft Company DC-9-82) was manufactured in 1990. The airplane was purchased by RED Air on February 15, 2021, and was registered in the Dominican Republic. According to RED Air maintenance records, the airplane had accumulated 69,838 hours and 36,990 cycles at the time of the accident. The airplane was powered by two Pratt & Whitney JT8D-219 engines, which were mounted on the aft fuselage.

The airplane was configured with 149 passenger seats and 8 exits: two exits forward of the wings (the L1 and R1 doors), four overwing window exits (two on each side of the airplane), one exit in the aft cabin (the L2 door), and one exit at the tailcone exit, as shown in figure 4. The L1, R1, and L2 doors and the tailcone exit were equipped with evacuation slides.

Figure 4. Location of exits (Source: RED Air). Labels added for clarity.

Main Landing Gear

The airplane’s left and right MLG have outboard wheels (No. 1 wheel on the left gear and No. 4 wheel on the right gear) and inboard wheels (No. 2 wheel on the left gear and No. 3 wheel on the right gear). The MLG tires are mounted on the wheels. The airplane’s antiskid system controls the hydraulic pressure applied to the brakes. The primary antiskid system components are the antiskid control unit, the antiskid control valves, and the wheel speed transducers (sensors),

The airplane is equipped with shimmy dampers on both MLGs to prevent excessive vibration or shimmy buildup in the gear during high-speed taxi and heavy braking. The shimmy damper is connected between the upper and lower torque links and allows a small but highly damped motion to occur around the torsional axis of the gear. Shimmy damper effectiveness is maximized when the MLG strut is compressed. Limited dampening capability is available when the MLG strut is fully extended. Figure 5 shows the landing gear torque links and the shimmy damper installation.

Figure 5. Shimmy damper installation. (Image copyright © Boeing. Reproduced with permission, highlighting added for emphasis).

The shimmy damper consists of a housing and a hydraulic reservoir, as shown in figure 6. The damper is a closed system that is separate from the airplane main hydraulic systems. The damper housing contains a piston that separates the two chambers and must be filled with hydraulic fluid for proper operation. As the piston moves back and forth between the chambers, the motion is dampened by orifices in the piston that restrict hydraulic fluid flow between the chambers. The damper has a Belleville spring arrangement that keeps the piston centered in the damper.

Figure 6. Right main landing gear shimmy damper housing, hydraulic reservoir, service port and service port cap.

The hydraulic reservoir is attached to the damper housing. The reservoir contains a spring that pressurizes the hydraulic fluid in the reservoir and damper to 40 to 55 pounds per square inch. A bleed port is located at the top of the reservoir, and a check valve, service port and cap are located at the bottom of the damper housing (see figure 7). Hydraulic fluid is added to either the bleed port or the service port through the check valve, and air in the damper is removed via the bleed port.

Figure 7. Graphic showing location of bleed port, check valve and cap. (Source: Image Copyright © Boeing. Reproduced with permission.)

Maintenance Program

The RED Air DC-9-82 maintenance program was approved by the Dominican Republic Civil Aviation Authority, the Instituto Dominicano de Aviacion Civil. The program was derived from several Boeing DC-9-82 documents and the Pratt JT8D-200 engine maintenance program. The RED Air maintenance program manual referenced FAA airworthiness directives for the DC-9-82. Review of the airplane’s logbook (specifically, entries that were dated from March 21 to June 21, 2022) revealed normal routine maintenance/servicing of the airplane and no discrepancies or chronic issues with the landing gear. During a follow up visit to RED Air, additional documents were presented and showed a record of non-routine maintenance conducted where the left shimmy damper reservoir fluid level was low and it was refilled with hydraulic fluid.

The airplane’s landing gear were overhauled by Suncoast Landing Systems, Medley, Florida, in August 2016. RED Air records showed that the left MLG had accumulated 35,405 cycles at the time of overhaul and that the next overhaul was due on August 3, 2026, or when the gear had accumulated 55,405 cycles, whichever came first.

According to the Boeing MD-80 Maintenance Planning Document, the airplane’s nose and main gear wheel wells, which included the shimmy dampers, were required to be visually ch...