American Airlines Flight 96

American Airlines Flight 96
American Airlines Flight 96

Artist's depiction of American Airlines Flight 96 losing its aft bulk cargo door
Accident summary
Date 12 June 1972
Type Decompression explosion due to design flaw
Site Windsor, Ontario
Passengers 56
Crew 11
Injuries Several minor injuries
Fatalities 0
Survivors 67 (All)
Aircraft type McDonnell Douglas DC-10-10
Operator American Airlines
Tail number N103AA
Flight origin Los Angeles International Airport
Stopover Detroit Metropolitan Wayne County Airport
Last stopover Buffalo Niagara International Airport
Destination LaGuardia Airport

American Airlines Flight 96 was a regular McDonnell Douglas DC-10-10 flight operated by American Airlines. The flight suffered a cargo door failure on 12 June 1972 while flying over Windsor, Ontario; it is thus sometimes referred to as the Windsor incident.[1]

The rapid decompression in the cargo hold caused a partial collapse of the passenger compartment floor, which in turn jammed or restricted some of the control cables which led to various flight control hydraulic actuators. The jamming of the rudder control cable caused the rudder to deflect to its maximum right position. The cable controls to the number two (tail) engine were severed, causing that engine to shut down.[2] Fortunately, there was no rupture of any hydraulic system, so the pilots still had control of the ailerons, the right elevator and the horizontal stabilizer. However, because the right elevator cable was partially restricted, both pilots had to apply back pressure on the yoke for the landing flare. Additionally, the approach and landing had to be made at high speed, to prevent the sink rate from becoming too high. The tendency to turn right was offset by using 45 degrees of left aileron, combined with asymmetrical thrust of the two wing engines. In spite of the partial restriction of the controls, the pilots were able to make a safe landing at Detroit Metropolitan Wayne County Airport with no major injuries.

The cause was later traced to the door latching system, which had failed to close completely. A separate locking system was supposed to ensure this could not happen, but proved to be inadequate. McDonnell Douglas instituted a number of minor changes to the system to avoid a repeat, but two years later Turkish Airlines Flight 981's rear cargo door failed for exactly the same reason, causing the aircraft to lose all control and crash outside Paris with a loss of 346 passengers and crew, the deadliest air disaster to that point.

Contents

Accident details

Flight 96 was a regularly scheduled flight from Los Angeles to LaGuardia Airport with stops in Detroit Metropolitan Wayne County Airport and Buffalo Niagara International Airport. On 12 June it was being flown by DC-10-10 N103AA. It left Los Angeles 46 minutes after its scheduled 1:30 pm departure due to passenger loading and traffic, arriving in Detroit at 6:36 pm. At Detroit the majority of the passengers disembarked, and the plane took on new passengers and cargo. Leaving Detroit the aircraft had 56 passengers and 11 crew. The flight departed at 7:20 pm, climbing to 6,000 for a hold before capturing V-554 (a victor airway), then climb to flight level 210 (21,000 ft).[citation needed]

At 7:25 pm while climbing through 11,750 ft, the crew heard a distinct "thud" and dirt in the cockpit flew up into their faces. Captain Bryce McCormick reported that he momentarily believed they had suffered a mid-air collision and the cockpit windows had been smashed. At the same time, the rudder pedals moved to their full-left position and the engine controls moved to idle. McCormick immediately took manual control of the aircraft, and attempted to re-apply power, finding that engines 1 and 3 would respond normally, but engine 2, in the tail, would not allow its controls to be moved. McCormick was able to level off and stabilize the speed at 250 knots, although at this speed control was very sluggish. They declared an emergency and requested routing back to Detroit.[3]

In the cabin, the flight attendants saw a "fog" form within the cabin and immediately recognized it as a depressurization. Two crew were in the rear lounge area, and the floor under their feet partially collapsed into the cargo hold, giving them both minor injuries. In spite of this, the cabin crew immediately attempted to ensure the oxygen masks had deployed properly, but having occurred below the 14,000 ft limit, the masks had not deployed. One of the attendants obtained a walk-around oxygen bottle and called the cockpit on the intercom to inform them that the damage was in the rear of the aircraft. On instructions from the cabin, the attendants instructed the passengers on emergency landing procedures. A number of passengers later reported that the aircraft safety cards proved useful in locating the nearest exit.

The flight returned to Detroit, but when the crew set the flaps to 35 degrees for landing, the aircraft stabilized in a 1,900 ft/min descent that was far too fast for landing. By applying power to the 1 and 3 engines, McCormick was able to level off the nose and reduce the descent to 700 ft/min. The aircraft touched down at 7:44 pm 1,900 ft down Runway 03R, immediately veering to the right and eventually leaving the runway surface. The first officer, Peter Whitney, applied full reverse thrust to the left engine and idled the right, straightening the aircraft's path, and eventually starting to bring the aircraft back to the runway. The aircraft stopped 880 ft from the runway threshold, with the nose and left gear on the runway and the right on the grass beside it.[4] It happened that while training to convert his expertise to flying the DC-10, McCormick had practiced, in a simulator, controlling the plane with the throttles in this fashion, in the worst-case scenario of a hydraulic failure.[1] A similar technique was used in 1989 following a complete loss of hydraulic pressure on another DC-10, United Airlines Flight 232.

Investigation

The problem that caused the accident was immediately obvious, as the cargo door was missing and had caused damage to the left horizontal stabilizer as it flew off. Investigators immediately studied the maintenance history and found that on 3 March 1972 the handlers reported that the door had not latched electrically and had to be closed manually. On 30 May McDonnell Douglas issued Service Bulletin 52-27, DC-10 SC 612, which called for the upgrading of the electrical wiring that drove the latches because "Three operators have reported failure of the electrical latch actuators to latch/unlatch the cargo doors. Latch actuator failure is attributed to an excessive voltage drop reducing the output torque to the actuator. This condition may prevent electrical latching/unlatching of the hooks."[2] The modification was not compulsory, however, and had not been carried out on N103AA.[citation needed]

Investigators interviewed the ground crew at Detroit and learned that the cargo loader operating the rear door found it difficult to close. He stated that he closed the door electrically, and waited for the sound of the actuator motors to stop. When they did, he attempted to operate the locking handle, but found it very difficult to close. Adding force with his knee he was able to get the latch to lock, but noticed that the vent plug (see below) was not entirely closed. He brought this to the attention of a mechanic, who cleared the flight. The flight engineer reported that the "door ajar" warning light on his panel was not lit at any time during the taxi out or flight.[2]

Examination of the aircraft and the cargo door, which was recovered largely intact, demonstrated that the latches had not rotated to their locked position. In their locked position, pressure on the door presses the latches further shut, and no force is transmitted into the actuator system that closes and opens them. With the latches only partially closed, forces on the door were transmitted back into the actuator, eventually overwhelming it at about 6,600 lbf. The rapid depressurization when the door broke off caused the floor above it to fail, which pulled the rudder cable to its extension limit and severed several other operating cables.[citation needed]

Cause

Passenger doors on the DC-10 are of the plug variety, which prevents the doors from opening while the aircraft is pressurized. The cargo door, however, is not. Due to its large area, the cargo door on the DC-10 could not be swung inside the fuselage without taking up a considerable amount of valuable cargo space. Instead, the door swung outward, allowing cargo to be stored directly behind it. The outward-opening door, in theory, allowed it to be "blown open" by the pressure inside the cargo area.

To prevent this, the DC-10 used a "fail safe" latching system held in place by "over top dead center latches", five C-shaped latches mounted on a common torque shaft that are rotated over fixed latching pins ("spools") fixed to the aircraft fuselage. Because of their shape, when the latches are in the proper position, pressure on the door does not place torque on the latches that could cause them to open, and actually further seats them on the pins. Normally the latches are opened and closed by a screw jack powered by an electric actuator motor.

Because of the under-designed cabling powering the actuator motor, it was possible for the voltage delivered to the motor to be too small to drive it under high loads. In these cases, the motor would stop turning even if the latches had not rotated over the pins. Since the operators listened for the motors to stop as an indication of their complete rotation, a failure in the drive system during operation would erroneously indicate that the door was properly latched.

To ensure this rotation had completed and the latches were in the proper position, the DC-10 cargo door also included a separate locking mechanism. The locks consisting of small pins that were slid horizontally through holes on the back of the latches, between the latch and the frame of the aircraft. When the pins were in place they mechanically prevented movement back into the open position, so even the actuator motor could no longer open them. If the latches were not in their correct positions, the pins could not enter the holes, and the operating handle on the outside of the door would remain open and visually indicate that there was a problem. Additionally, the handle moved a metal plug into a vent cut in the outer door panel; if the vent was not plugged the door would not retain pressure, eliminating any force on the door. Lastly, there was an indicator light in the cockpit that would remain on if the door was not correctly latched.

In theory, the motor failure on Flight 96 could not present a problem because the locking lever would not be able to close. However, during the investigation a McDonnell Douglas test rig demonstrated that the entire locking pin operating system was too weak, allowing the handle to be forced closed even with the pins out of the locking holes. This occurred on Flight 96, when the handler forced the handle closed with his knee. In spite of the vent not closing completely, neither the handler nor the engineer considered this to be serious. Although the vent door remained partially open, it closed enough to cause it to "blow shut", and thereby allow pressurization of the cargo hold. Although the handle did not seat the pins entirely, the small amount of motion it managed to cause was enough to press on the warning indicator switch, turning the warning light off. It was only the combination of all of these failures that allowed the accident to happen. Yet all of these indicators had a single common point of failure, the mechanical weakness of the locking system that allowed the handle to be moved.

The cabin floor failure was also a matter of poor design. All of the other portions of the cargo holds had holes cut into the cabin floor above the cargo areas. In the case of a pressure loss on either side of the floor, the air would flow through the vents and equalize the pressure, thereby eliminating any force on the floor. Only the rearmost portion of the cabin lacked these holes, and it was that portion that failed. However, because the control cables ran through the floor for the entire length of the aircraft, a failure at any point on the floor would cut controls to the tail section.

Aftermath

The NTSB suggested several changes to the system to ensure that the Windsor accident would not recur. These included changes to the locking mechanism to ensure it could not be forced closed, as well as venting cut into the rear cabin floor.

In response, the FAA, in charge of actually implementing these recommendations, agreed with McDonnell Douglas that the additional venting would be difficult to install. Instead, they proceeded with the modification of the locking system, and additionally added a small clear window set into the bottom of the cargo door that allowed operators to directly inspect whether or not the latches were in place. Combined with the upgrades to the wiring that had already been on the books, this should prevent a repeat of the accident.

Shortly after the event, Dan Applegate, Director of Product Engineering at Convair, wrote a memo to Convair management pointing out several problems with the door design. McDonnell Douglas had subcontracted design and construction of the DC-10 fuselage to Convair, and Applegate had overseen its development in ways that he felt were reducing the safety of the system. In particular, he noted that the actuator system had been switched from a hydraulic system to an electrical one, which he felt was less safe. He also noted that the floor would be prone to failure if the door was lost, and this would likely sever the control cables, leading to a loss of the aircraft. Finally, he pointed out that this precise failure had already occurred in ground testing in 1970, and he concluded that such an accident was almost certain to occur again in the future.[5]

In spite of these recommendations, two years later Turkish Airlines Flight 981 suffered an almost identical failure, but lost all control of the tail surfaces. The plane crashed outside Paris, killing all 346 passengers and crew onboard. Investigators discovered that the upgrades had never been carried out on this airframe, although the construction logs claimed it had. One modification had been carried out, the installation of the inspection window, along with a placard beside the door controls printed in English and Turkish that informed the operators how to inspect the latches. The operator in Paris was Algerian and could not read either language, and had been instructed that as long as the locking handle closed the door was safe. He also noted that he did not have to force the handle, and investigators concluded that it had already been bent on a prior flight.

In the aftermath of that accident, the Applegate memorandum was discovered and introduced into evidence during the massive civil lawsuit that followed. Many commentators subsequently blamed the aircraft manufacturer, McDonnell Douglas, and other aviation authorities, for failing to learn lessons from the Flight 96 accident. Although there had been some redesign of the DC-10 cargo door system, it had only been implemented voluntarily and haphazardly by various airlines. If the warning signs of Flight 96 had been heeded, the Turkish Airlines disaster would have been avoided.[5][6]

A complete redesign of the entire door system followed, and no DC-10 or MD-11 ever suffered a similar accident again.

N103AA's airframe was broken up at Phoenix Goodyear Airport in 2002, after being assigned to the FedEx MD-10 program.

Dramatization

The story of the disaster was featured on the fifth season of Canadian National Geographic Channel show Mayday (known as Air Emergency in the US, Mayday in Ireland and Air Crash Investigation in the UK and the rest of world). The episode is entitled "Behind Closed Doors".

See also

References

  1. ^ a b Nicholas Faith (1996, 1998). Black Box: pp.157-158
  2. ^ a b c "Aircraft Accident Report: American Airlines, Inc. McDonnell Douglas DC-10-10, N103AA. Near Windsor, Ontario, Canada. 12 June 1972." (PDF). National Transportation Safety Board. 1973-02-28. http://libraryonline.erau.edu/online-full-text/ntsb/aircraft-accident-reports/AAR73-02.pdf. Retrieved 2009-03-22. 
  3. ^ Air Disaster Volume 1, Chapter 15, pg.137 & 138. Macarthur Job - Aerospace Publications Pty Ltd 1994 ISBN 1-875671-11-0
  4. ^ Air Disaster Volume 1, Chapter 15, pg.139. Macarthur Job - Aerospace Publications Pty Ltd 1994 ISBN 1-875671-11-0
  5. ^ a b John Fielder, Douglas Birsch, "The DC-10 Case", SUNY Press, 1992, ISBN 0-7914-1087-0
  6. ^ Macarthur Job (1994). Air Disaster Volume 1: pp.136-144

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