PROTECTING SMALL CARS AND MITIGATING SEVERE CRASHES - SMART STRUCTURE SOLUTION

Designers of frontal car structures are faced with conflicting requirements of the full, offset, severe and moderate crashes. These conflicts impose a trade-off between stiff structure to reduce intrusion and softer structures to prevent violating the G-limit of the passenger compartment. Requirements for smart structures to adapt to various crash conditions have been demonstrated. This research seeks to extend the deformation properties of the frontal structure by introducing 'hydraulic smart structures' within the front part of the main longitudinal members. This allows the smart structure to increase its energy absorption capacity, change its deformation properties and adapt to varying collision conditions. It is shown that smart structures are capable of reducing the aggressivity of large vehicles towards small cars. It is also shown that smart structures provide further protection to the occupants in more severe crashes. A smart vehicle involved in head-on collision with standard passive vehicle produces significantly lower intrusions than that of the partner passive vehicle. Smart structures proved superior to the traditional passive structures by absorbing more energy for the same crush zone distance, speed sensitive and controllable structure. For the covering abstract see ITRD E825082.

• Corporate Authors:

  National Highway Traffic Safety Administration

  1200 New Jersey Avenue, SE
  Washington, DC  United States  20590

  MINISTRY OF ECONOMY, TRADE AND INDUSTRY OF JAPAN

  1-3-1, KASUMIGASEKI, CHIYODA-KU
  TOKYO,   Japan  100-8901
• Authors:
  • JAWAD, S A
• Publication Date: 2003-5

Language

• English

Media Info

• Features: References;
• Pagination: 7 p.
• Serial:
  • PROCEEDINGS OF 18TH INTERNATIONAL TECHNICAL CONFERENCE ON THE ENHANCED SAFETY OF VEHICLES, HELD NAGOYA, JAPAN, 19-22 MAY 2003
  • Publisher: National Highway Traffic Safety Administration

Subject/Index Terms

• TRT Terms: Conferences; Crashes; Deformation; Design; Injuries; Prevention; Size; Vehicles
• Uncontrolled Terms: Front
• ITRD Terms: 1631: Collision; 8525: Conference; 5595: Deformation; 9011: Design (overall design); 9014: Dimension; 9025: Front; 2163: Injury; 9149: Prevention; 1255: Vehicle
• Subject Areas: Design; Safety and Human Factors; Security and Emergencies; Vehicles and Equipment;

Filing Info

• Accession Number: 00987398
• Record Type: Publication
• Source Agency: Transport Research Laboratory
• Files: ITRD, USDOT
• Created Date: Mar 3 2005 12:00AM