Occupant protection from impact with the steering assembly

Morris, John B.<sup>1</sup>; Stucki, Lee<sup>1</sup>; Morgan, Richard M.<sup>1</sup>; Bondy, Nancy<sup>1</sup>

This paper will discuss areas of NHTSA research relating to the accident environment of the driver impacting the steering assembly. These include:

Accident analyses to define the problem.
Development of biomechanical criteria for assessment of injury severity on test surrogates.
Laboratory testing of steering assemblies to determine the safety performance.
Computer modeling for reconstructing accidents and assessing the effects of changes to steering assembly characteristics on driver responses.

The accident analyses quantify the problem in terms of injuries and fatalities sustained by drivers as a result of impacting the steering assembly. Relationships will be developed between frequency and severity of injury and source of injury, affected body regions, crash direction and severity, and steering assembly response parameters.

Biomechanical injury criteria on blunt thoracic impact is available and may be applicable to chest impact with steering wheel hubs.

A program was recently completed which evaluated the safety performance of several production steering assemblies and, also, one improved steering assembly constructed from components with desirable safety attributes. The performance was evaluated via component tests and dynamic sled tests with instrumented Hybrid III dummies.

A computer program entitled "Steering Column and Occupant REsponse Simulation" (SCORES) has been developed to model the various interactions of a driver impacting a steering assembly in a frontal collision. The SCORES model is used to predict the occupant/steering assembly response when certain assembly characteristics are changed, i.e., column force deflection properties, and to reconstruct actual accident cases.

A joint effort by NHTSA and Transportation Systems Center (TSC) is being conducted to reconstruct the accident environment of occupants injured by the steering assembly. The SCORES model will be exercised for various make/model vehicles, occupant sizes, and accident configurations which essentially comprise this accident environment. Countermeasures will be introduced into the SCORES model and the effect on injury and fatality reduction will be assessed.

Year

Entry

1970

Nahum AM, Siegel AW, Brooks S. The reduction of collision injuries: past, present, and future. In: Proceedings of the 14th Stapp Car Crash Conference. November 17-18, 1970; Ann Arbor, MI. Warrendale, PA: Society of Automotive Engineers:1-43. SAE 700895.

1973

Melvin JW, Stalnaker RL, Roberts VL, Trollope ML. Impact injury mechanisms in abdominal organs. In: Proceedings of the 17th Stapp Car Crash Conference. November 17-19, 1973; Coronado, CA. Warrendale, PA: Society of Automotive Engineers:115-126. SAE 730968.

1975

Nahum AM, Schneider DC, Kroell CK. Cadaver skeletal response to blunt thoracic impact. In: Proceedings of the 19th Stapp Car Crash Conference. November 17-19, 1975; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:259-293. SAE 751150.

1974

Gloyns PF, Mackay GM. Impact performance of some designs of steering assembly in real accidents and under test conditions. In: Proceedings of the 18th Stapp Car Crash Conference. December 4-5, 1974; Ann Arbor, MI. Warrendale, PA: Society of Automotive Engineers:1-27. SAE 741176.

1974

Kroell CK, Schneider DC, Nahum AM. Impact tolerance and response of the human thorax II. In: Proceedings of the 18th Stapp Car Crash Conference. December 4-5, 1974; Ann Arbor, MI. Warrendale, PA: Society of Automotive Engineers:383-457. SAE 741187.