A method is presented to evaluate results of vehicle crash tests of highway safety appurtenances in terms of injury risk to the vehicle occupant. The occupant is assumed to be propelled through the vehicle compartment (flail space); to strike the instrument panel, windshield, or side door; and to subsequently ride down the remaining part of the collision event in contact with the vehicle. Injury is assessed in terms of (a) the impact velocity of the occupant and the instrument panel and (b) accelerations of occupant and vehicle that occur during the subsequent ride down. Evolution of present appurtenance safety criteria is reviewed. Dynamic conditions that produce human injury are briefly discussed along with recommended threshold values that will minimize the degree of the injuries. Finally, a typical application of the flail-space model to crash test results is presented. (Author)
[1]
H Appel,et al.
Comparison of Passenger Injuries in Frontal Car Collisions with Dummy Loadings in Equivalent Simulations
,
1979
.
[2]
L. M. Patrick,et al.
Safety performance of asymmetric windshields
,
1978
.
[3]
L. M. Patrick,et al.
Improved Laminated Windshield with Reduced Laceration Properties
,
1973
.
[4]
L. M. Patrick,et al.
Cadaver Knee, Chest and Head Impact Loads
,
1967
.
[5]
J G Viner,et al.
ACCIDENT EXPERIENCE WITH IMPACT ATTENUATION DEVICES
,
1973
.
[6]
P. R. Payne.
THE DYNAMICS OF HUMAN RESTRAINT SYSTEMS
,
1961
.
[7]
W F McFarland,et al.
DEVELOPMENT OF DESIGN CRITERIA FOR SAFER LUMINAIRE SUPPORTS
,
1969
.
[8]
M Chi.
ASSESSMENT OF INJURY CRITERIA IN ROADSIDE BARRIER TESTS
,
1976
.