Test and Evaluation Criteria for Side‐Impact Roadside Appurtenance Collisions
Publication: Journal of Transportation Engineering
Volume 120, Issue 4
Abstract
Side‐impact collisions with roadside objects, such as trees, luminaires, signs, and guardrails, a serious type of accident, have not been adequately addressed by the roadside hardware testing community due to the difficulties of performing and evaluating such crash tests. During the past decade, the National Highway Traffic Safety Administration has developed procedures and criteria for performing side‐impact vehicle‐to‐vehicle crash tests. The present paper describes an effort to incorporate the latest side‐impact research from the vehicle crashworthiness community and to integrate it with the procedures and evaluation criteria used in designing roadside hardware. A 50 km/h full broadside impact at the center of the driver‐side door of a small two‐door 820‐kg passenger car is recommended for evaluating side‐impact performance with roadside objects. The recommendations contained in this paper provide useful test and evaluation criteria, and provide an unusual linkage between the criteria of the two principal crash‐testing groups that should foster an increased exchange of information and ideas.
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References
1.
“The abbreviated injury scale (AIS‐80).” (1980). Tech. Rep., Am. Assoc. for Automotive Medicine (AAAM), Morton Grove, Ill.
2.
Carney, J. F. III, and Ray, M. H. (1991). “Side impact crash testing of highway safety hardware.” Strategic Highway Research Program and Traffic Safety on Two Continents. Vag‐och Traffik Institute, Gothenburg, Sweden.
3.
Chou, C. C., Howell, R. J., and Chang, B. Y. (1988). “A review and evaluation of various HIC algorithms.” SAE Tech. Paper Series, Paper No. 880656, Soc. Automotive Engineers, March.
4.
Eppinger, R. A., Marcus, J. H., and Morgan, R. M. (1984). “Development of dummy and injury index for NHTSA's thoracic side impact protection research program.” SAE Tech. Paper Series, Paper No. 840885, Soc. of Automotive Engrs., May.
5.
“Federal motor vehicle safety standards: side impact protection.” (1988a). Federal Register, Nat. Hwy. Traffic Safety Admin. (NHTSA), Washington, D.C., Vol. 53, Sept.
6.
“Federal motor vehicle safety standards: side impact protection.” (1990). Federal Register, Nat. Hwy. Traffic Safety Admin. (NHTSA), Washington, D.C., Vol. 55, Oct.
7.
“Federal motor vehicle safety standards: side impact protection—light trucks, vans, and multipurpose passenger vehicles.” (1988b). Federal Register, Nat. Hwy. Traffic Safety Admin. (NHTSA), Washington, D.C., Vol. 53, Aug.
8.
“Federal motor vehicle safety standards: side impact protection—passenger cars.” (1988c). Federal Register, Nat. Hwy. Traffic Safety Admin. (NHTSA), Washington, D.C., Vol. 53, Aug.
9.
Gabler, H. C., and Wilke, D. T. (1991). “Upper interior head impacts: the safety performance of passenger vehicles.” Thirteenth Int. Tech. Conf. on Experimental Safety Vehicles, Rep. No. 91‐59‐O‐07, Nat. Hwy. Traffic Safety Admin. (NHTSA), Washington, D.C., Nov.
10.
Hackney, J. R., Monk, M. W., Hollowell, W. T., Sullivan, L. K., and Wilke, D. T. (1989). “Results of the National Highway Safety Administration's thoracic side impact protection research program.” SAE Tech. Paper Series, Soc. of Automotive Engrs., May.
11.
Hess, R. L., Weber, K., and Melvin, J. W. (1981). “Review of literature and regulation relating to thoracic impact tolerance and injury criteria.” Tech. Rep., UM‐HSRI‐81‐38, Motor Vehicle Manufacturing Assoc., Detroit, Mich.
12.
Hinch, J. A., Hansen, A. G., Hargrave, M. W., and Stout, D. R. (1989). “Full‐scale side impact testing.” Tech. Rep., FHWA‐RD‐89‐157, Federal Hwy. Admin. (FHWA), Washington, D.C.
13.
Hinch, J. A., Manard, G., Stout, D., and Owings, R. (1987). “Laboratory procedures to determine the breakaway behavior of luminaire supports in minisized vehicle collisions.” Tech. Rep., FHWA‐RD‐86‐106, Federal Hwy. Admin. (FHWA), Washington, D.C., Aug.
14.
Injury in America: a continuing public health problem. National Research Council Committee on Trauma Research, National Academy Press, Washington, D.C.
15.
Lau, I. V., and Viano, D. C. (1988). “How and when blunt injury occurs—implications to frontal and side impact.” SAE Tech. Paper Series, Soc. of Automotive Engrs., Oct.
16.
Mak, K. K., and Mason, R. L. (1980). “Accident analysis—breakaway and nonbreakaway poles including sign and light standards along highways.” Tech. Rep., Nat. Hwy. Traffic Safety Admin., Washington, D.C., Aug.
17.
Meczkowski, L. (1987). “Evaluation of test dummies for use in FHWA crash tests.” FHWA Staff Rep., Federal Hwy. Admin. (FHWA), Washington, D.C., Jan.
18.
Melvin, J. W., and Weber, K. (1985). “Review of biomechanical impact response and injury in the automotive environment.” Rep. No. DOT HS 807 042, Nat. Hwy. Traffic Safety Admin. (NHTSA), Washington, D.C.
19.
Michie, J. D. (1981). “Recommended procedures for the safety performance evaluation of highway appurtenances.” Rep. 230, Nat. Cooperative Hwy. Res. Program, Washington, D.C.
20.
Morgan, R. M., Marcus, J. H., and Eppinger, R. H. (1986). “Side impact—the biofidelity of NHTSA's proposed ATD and efficacy of TTI.” Rep. No. P‐189, Soc. of Automotive Engrs., Oct., Warrendale, Pa.
21.
Partyka, S. C., and Boehly, W. A. (1989). “Registration based fatality rates by car size from 1978 through 1987.” Rep. No. DOT HS 80744, Nat. Information Tech. Service, Springfield, Va.
22.
Prasad, P., and Mertz, H. (1985). “The position of the United States delegation to the ISO working group 6 on the use of HIC in the automotive environment.” SAE Tech. Paper Series, Paper No. 851246, Soc. of Automotive Engrs., May.
23.
Ray, M. H., and Carney, J. F. III. (1992a). “Side impact crash testing of roadside structures.” Final Rep., FHWA‐RD‐92‐079, Federal Hwy. Admin. (FHWA), Washington, D.C.
24.
Ray, M. H., and Carney, J. F. III. (1992b). “Side impact test and evaluation procedures for roadside structure crash tests.” Final Rep., FHWA‐RD‐92‐062, Federal Hwy. Admin. (FHWA), Washington, D.C.
25.
Ray, M. H., Troxel, L. A., and Carney, J. F. III. (1991). “Characteristics of fixed‐roadside‐objects side‐impact accidents.” J. Transp. Engrg., 117(3), 281–297.
26.
Ross, H. E., Sicking, D. L., Zimmer, R. A., and Michie, J. D. (1993). “Recommended procedures for the safety performance evaluation of highway features.” Rep. 350, Nat. Cooperative Hwy. Res. Program, Washington, D.C.
27.
Smith, R. A., and Noga, J. T. (1982). “Accuracy and sensitivity of crash.” SAE Tech. Paper Series, Paper No. 821169, Soc. of Automotive Engrs.
28.
Troxel, L. A., Ray, M. H., and Carney, J. F. III. (1991a). “Accident data analysis of side‐impact, fixed‐object collisions.” Tech. Rep. FHWA‐RD‐91‐122, Federal Hwy. Admin. (FHWA), Washington, D.C.
29.
Troxel, L. A., Ray, M. H., and Carney, J. F. III. (1991b). “Side‐impact collisions with roadside obstacles.” Transp. Res. Record 1302, Transp. Res. Board, Washington, D.C., Jan.
30.
Viano, D. C. (1989). “Biomechanics of injury in lateral impacts.” Accident analysis and prevention, 21, Pergamon Press, New York, N.Y.
Information & Authors
Information
Published In
Journal of Transportation Engineering
Volume 120 • Issue 4 • July 1994
Pages: 633 - 651
Copyright
Copyright © 1994 American Society of Civil Engineers.
History
Received: Feb 9, 1994
Published online: Jul 1, 1994
Published in print: Jul 1994
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