How to Make a Car Lighter and Safer

About the most firmly established vehicle-safety effect is that the heavier the vehicle, the lower are the risks to its occupants. Empirically data show that the additional mass of a passenger reduces driver fatality risk by 7%. While occupants of heavier vehicles enjoy increased safety, there are two important negatives associated with heavier vehicles. First, they increase risk to occupants of other vehicles into which they crash. Second, they consume more fuel. The size, or length, of a vehicle also affects safety. All other factors, including mass, being equal, a larger vehicle reduces fatality risk to its occupants. But unlike mass, it also reduces risk to occupants in vehicles into which it crashes. A quantitative relationship expressing fatality risk as a function of the mass and size of both cars involved in a two-car crash was derived in Causal influence of car mass and size on driver fatality risk, Am J Pub Health. 91:1076-81;2001. This relationship is used to provide quantitative examples of vehicles that are lighter, but at the same time larger by amounts computed so that the net effect is to lower driver fatality risk. the modified car thus provides lower fatality risk to its occupants, lower fatality risk to occupants of vehicles into which it crashes, and uses less fuel. While manufacturing such a vehicle requires increased use of more expensive lightweight materials, doing so produces concurrent benefits in safety, oil independence, and environment.

[1]  Gerald McGwin,et al.  The association between occupant restraint systems and risk of injury in frontal motor vehicle collisions. , 2003, The Journal of trauma.

[2]  C J Kahane,et al.  VEHICLE WEIGHT, FATALITY RISK AND CRASH COMPATIBILITY OF MODEL YEAR 1991-99 PASSENGER CARS AND LIGHT TRUCKS , 2003 .

[3]  Anders Ydenius,et al.  Velocity changes, mean accelerations and displacements of some car types in frontal collisions , 2003 .

[4]  L Evans,et al.  Serious or fatal driver injury rate versus car mass in head-on crashes between cars of similar mass. , 1987, Accident; analysis and prevention.

[5]  Peter Cummings,et al.  Association of driver air bags with driver fatality: a matched cohort study , 2002, BMJ : British Medical Journal.

[6]  L. Evans Airbag benefits, airbag costs , 2004 .

[7]  H C Joksch,et al.  ANALYSIS OF THE FUTURE EFFECTS OF FUEL SHORTAGE AND INCREASED SMALL CAR USAGE UPON TRAFFIC DEATHS AND INJURIES. EXECUTIVE SUMMARY , 1976 .

[8]  M C Frick,et al.  Mass ratio and relative driver fatality risk in two-vehicle crashes. , 1993, Accident; analysis and prevention.

[9]  L Evans,et al.  Causal influence of car mass and size on driver fatality risk. , 2001, American journal of public health.

[10]  L. Evans,et al.  Driver injury and fatality risk in two-car crashes versus mass ratio inferred using Newtonian mechanics. , 1994, Accident; analysis and prevention.

[11]  William Haddon,et al.  EMPIRICAL RELATIONSHIPS BETWEEN CAR SIZE, CAR WEIGHT AND CRASH INJURIES IN CAR-TO-CAR CRASHES , 1974 .

[12]  M C Frick,et al.  Car size or car mass: which has greater influence on fatality risk? , 1992, American journal of public health.

[13]  T P Hutchinson,et al.  Vehicle mass and driver injury. , 1979, Ergonomics.

[14]  M Segui-Gomez,et al.  Driver air bag effectiveness by severity of the crash. , 2000, American journal of public health.

[15]  Derwyn M. Severy,et al.  Smaller Vehicle versus Larger Vehicle Collisions , 1971 .

[16]  D W Reinfurt,et al.  RELATIONSHIP BETWEEN DRIVER CRASH INJURY AND PASSENGER CAR WEIGHT , 1973 .

[17]  E. Brühning,et al.  COMPATIBILITY PROBLEMS OF SMALL AND LARGE PASSENGER CARS IN HEAD ON COLLISIONS , 1993 .

[18]  Leonard Evans Car Size and Safety: a Review Focused on Identifying Causative Factors , 1994 .

[19]  D P Wood,et al.  Safety and the car size effect: a fundamental explanation. , 1997, Accident; analysis and prevention.

[20]  L Evans,et al.  Car mass and fatality risk: has the relationship changed? , 1994, American journal of public health.