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Train-to-Train Impact Test of Crash-Energy Management Passenger Rail Equipment: Occupant Experiments
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2006-11-06
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Abstract:As part of an ongoing passenger rail crashworthiness effort,
a full-scale impact test of a train with crash energy management
(CEM) passenger cars was conducted on March 23, 2006. In
this test, a train made up of a CEM cab car, four CEM coach
cars, and a locomotive impacted a stationary train of similar
mass at 30.8 mph. This test included five occupant experiments
on the cab car and the first coach car to evaluate occupant
injury risk and seat/table performance during the collision
using anthropomorphic devices (ATDs).
Three occupant protection strategies were evaluated in these
occupant experiments. Forward-facing intercity seats were
modified to reduce the high head injury risk observed in a
previous test. Prototype commuter seats, included in both
forward-facing and rear-facing orientations, were designed to
mitigate the consequences of higher decelerations in the lead
two CEM cars. Improved workstation tables, tested with two
different advanced ATDs, were designed to compartmentalize
the occupants and reduce the upper abdominal injury risk to the
occupants.
Similar experiments were also conducted on the two-car
impact test of CEM equipment [1]. The experiments described
in this paper were conducted to evaluate the level of occupant
protection provided by seats and tables that were specifically
designed to improve crashworthiness. Pre-test analyses
indicated that the occupant environment would be more severe
for the CEM test than for the comparable test of conventional
equipment. The environment in the leading cab car was
predicted to be similar to a 12g, 250 millisecond triangular
crash pulse. The environment in the first coach was predicted to
be comparable to an 8g, 250 millisecond crash pulse.
To aid the design of the occupant experiments, occupant
response models were developed for each of the occupant
experiments using MADYMO. These models were developed
for the previous two-car CEM full-scale test and adapted to the
newly designed commuter seats and tables. Predictions of the
occupant response during the CEM train-to-train test were
developed before the test. The models were subsequently finetuned
to better agree with the test data, so that many different
collision scenarios may be simulated.
Most of the test results were similar to the pre-test
predictions. The modified intercity seats successfully
compartmentalized the occupants. The risk of both head and
neck injury, however, were above the respective injury
threshold values. In the forward-facing commuter seat
experiment the impacted seat experienced a partial failure of
the seat pedestal attachment, resulting in loss of
compartmentalization. The attachment failures occurred
because the seats weren't fabricated as designed. However, the
occupants were still compartmentalized, and the injury criteria
were within survivable levels. The rear-facing commuter seat
experiment experienced a more significant failure of the seat
pedestal attachment, resulting in a loss of
compartmentalization. The attachment failures likely occurred
because the seats were not fabricated as designed and the
collision was slightly more severe than predicted. To assure that
this failure mode is prevented in the future, a more robust
attachment is currently being developed. It will be tested quasistatically
and dynamically to demonstrate its effectiveness. The
improved workstation tables successfully compartmentalized
the occupants while limiting the injury risk to acceptable levels.
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