14 Aug 2012
New crash test aims to drive improvements in protecting people in frontal crashes
Only three of 11 midsize luxury and near-luxury cars evaluated earn good or acceptable ratings in the Insurance Institute for Highway Safety’s new small overlap frontal crash test, the latest addition to a suite of tests designed to help consumers pick the safest vehicles.
The Acura TL and Volvo S60 earn good ratings, while the Infiniti G earns acceptable. The Acura TSX, BMW 3 series, Lincoln MKZ and Volkswagen CC earn marginal ratings. The Mercedes-Benz C-Class, Lexus IS 250/350, Audi A4 and Lexus ES 350 earn poor. All of these cars are 2012 models.
In the test, 25 percent of a car’s front end on the driver side strikes a 5-foot-tall rigid barrier at 40 mph. A 50th percentile male Hybrid III dummy is belted in the driver seat. The test is designed to replicate what happens when the front corner of a car collides with another vehicle or an object like a tree or utility pole. Outside of some automakers’ proving grounds, such a test isn’t currently conducted anywhere else in the United States or Europe.
“Nearly every new car performs well in other frontal crash tests conducted by the Institute and the federal government, but we still see more than 10,000 deaths in frontal crashes each year,” Institute President Adrian Lund says. “Small overlap crashes are a major source of these fatalities. This new test program is based on years of analyzing real-world frontal crashes and then replicating them in our crash test facility to determine how people are being seriously injured and how cars can be designed to protect them better. We think this is the next step in improving frontal crash protection.”
The number of drivers of 0-3-year-old passenger vehicles involved in fatal frontal crashes has fallen 55 percent since 2001. Much of the improved outlook is due to the success of consumer information testing like the New Car Assessment Program begun by the National Highway Traffic Safety Administration (NHTSA) in 1978 and crashworthiness evaluations the Institute started in 1995. In NHTSA’s frontal test, passenger vehicles crash at 35 mph into a rigid barrier covering the full width of the vehicle. In the Institute’s 40 mph offset frontal test, now called a moderate overlap frontal test, 40 percent of the total width of a vehicle strikes a deformable barrier on the driver side.
In a 2009 Institute study of vehicles with good ratings for frontal crash protection, small overlap crashes accounted for nearly a quarter of the frontal crashes involving serious or fatal injury to front seat occupants. Another 24 percent of the frontal crashes were moderate overlap crashes, although they likely occurred at much higher speeds than the Institute’s moderate overlap test. An additional 14 percent occurred when passenger vehicles underrode large trucks, SUVs or other high-riding passenger vehicles. The Institute is exploring countermeasures for large truck underride crashes and in other research has found that the problem of crash incompatibility between cars and SUVs is being reduced.
The key to protection in any crash is a strong safety cage that resists deformation to maintain survival space for occupants. Then vehicle restraint systems can do their jobs to cushion and protect people.
“It’s Packaging 101. If you ship a fragile item in a strong box, it’s more likely to arrive at its destination without breaking. In crashes, people are less vulnerable to injury if the occupant compartment remains intact,” Lund explains.
Most modern cars have safety cages built to withstand head-on collisions and moderate overlap frontal crashes with little deformation. At the same time, crush zones help manage crash energy to reduce forces on the occupant compartment. The main crush-zone structures are concentrated in the middle 50 percent of the front end. When a crash involves these structures, the occupant compartment is protected from intrusion, and front airbags and safety belts can effectively restrain and protect occupants.
Small overlap crashes are a different story. These crashes primarily affect a car’s outer edges, which aren’t well protected by the crush-zone structures. Crash forces go directly into the front wheel, suspension system and firewall. It is not uncommon for the wheel to be forced rearward into the footwell, contributing to even more intrusion in the occupant compartment and resulting in serious leg and foot injuries. To provide effective protection in small overlap crashes, the safety cage needs to resist crash forces that aren’t tempered by crush-zone structures. Widening these front-end structures also would help.
“These are severe crashes, and our new test reflects that,” Lund says. “Most automakers design their vehicles to ace our moderate overlap frontal test and NHTSA’s full-width frontal test, but the problem of small overlap crashes hasn’t been addressed. We hope our new rating program will change that.”
The Acura TL earns a good rating in the small overlap frontal test. The driver space was maintained reasonably well, and the dummy’s movement was well controlled. Measures taken from the dummy indicate a low risk of any significant injuries in a crash of this severity. The test is designed to replicate what happens when the front corner of a vehicle collides with another vehicle or an object like a tree or utility pole.
Luxury and near-luxury cars were first to the test because these models typically get advanced safety features sooner than other vehicles, Lund says.
Vehicle test performance varied widely in the three rating categories: structure, restraints and kinematics, and dummy injury measures. The majority of the cars had lots of occupant compartment intrusion, which contributed to their low overall rating. Occupant motion varied greatly as well, with the dummy missing the airbag in some cases. In others, safety belts allowed the dummy’s head and torso to move too far forward toward the A-pillar. Forces measured on the dummy indicated high risk of injury for the legs and feet in several vehicles.
Structurally, the Volvo S60 was best. With only a few inches of intrusion, the occupant compartment looked much the same as it did in a moderate overlap test. Reinforcement of the S60′s upper rails and a steel cross member below the instrument panel helped to keep the safety cage intact. Volvo has performed similar small overlap tests as part of its vehicle safety development process since the late 1980s, taking the results into account when designing new models.
The Lexus IS had up to 10 times as much occupant compartment intrusion as the Volvo. In the IS test, the car’s A-pillar bent and the footwell collapsed as the left front wheel and tire were forced rearward. The dummy’s left foot was entrapped by intruding structure, and its right foot was wedged beneath the brake pedal. Entrapment also was an issue with the Mercedes C-Class. The dummy’s right foot ended up wedged beneath the brake pedal as the left front wheel was forced rearward during the crash.
When the Volkswagen CC was put to the test, the driver door was sheared off its hinges. The CC is the first vehicle the Institute has ever evaluated to completely lose its door. An open door results in an automatic downgrade to poor for restraints and kinematics, as also was the case with the Audi A4, whose door opened but remained attached to the car. Doors should stay closed in a crash to keep people from being partially or completely ejected from vehicles.
Restraint systems’ key role
Safety belts and airbags are important in any crash configuration, and they are especially taxed in small overlap frontal crashes. When cars strike the test barrier they tend to move sideways away from it, and the interior structures including the driver door, side window and A-pillar move in the same direction. The test dummy, however, keeps moving forward into the path of the sideways-moving interior structures. At the same time, the steering column and driver airbag move inboard in many vehicles because of the way the front end and occupant compartment deform. If the dummy misses the airbag or slides off it, the head and chest are unprotected.
Front airbags are calibrated to deploy in these types of crashes. Side airbags, including head-protecting curtains and chest-protecting torso airbags, don’t always deploy because they are designed mainly for true side impacts — think so-called T-bone crashes at intersections. When they do deploy, they don’t always do so early enough or extend far enough forward to adequately protect people. The result is an airbag gray zone with gaps between what front airbags cover and what side airbags do — if they deploy at all.
Without airbag protection, people in real-world small overlap frontal crashes can sustain head injuries from direct contact with the A-pillar, dashboard or window sill or by hitting trees, poles or other objects. Chest injuries happen when people contact the steering wheel, door or other intruding structures.
Every luxury car and near-luxury car the Institute evaluated earns good ratings for head, neck and chest injury risk based on measurements from the dummy’s sensors. This is true even though there are many cases of serious upper body injuries in real-world crashes with similar vehicle damage.
One possible reason for the differing results is that real people move more during a crash and are prone to be out of position at the start, compared with relatively stiff and precisely positioned crash test dummies. Not all drivers are the same size as the dummy or seated exactly the same way. A close call for the dummy could mean an actual injury for a person. In several crash tests, the dummy’s head barely missed the intruding structure of the vehicle, where a real person may have made contact and sustained an injury. Another reason is that the frontal crash dummy the Institute uses in the small overlap test is not good at measuring risks from lateral forces. Side crash dummies do a better job of this but can’t “sense” — or record — much of the frontal action in these tests.
Side curtain and torso airbags deployed in the Acura TL and Volvo S60, although the S60′s torso airbag fired too late in the crash to protect the dummy’s chest from potential contact with side structures. One or both of the curtain and torso airbags didn’t deploy in seven of the cars evaluated. Of the six curtains that deployed, four didn’t provide sufficient forward coverage. The Institute lowered restraint and kinematics scores if side airbags didn’t deploy or coverage was lacking.
“Side curtain airbags and torso airbags are designed to deploy in side impacts, but they can be beneficial in small overlap frontal crashes as well,” Lund says. “If they do deploy, curtain airbags also need to extend far enough forward to protect the head from contact with side structures and outside objects.”
For example, in the Lincoln MKZ test, the dummy’s head and chest completely missed the front airbag as the steering column moved to the right. The side curtain airbag deployed but didn’t extend far enough forward to protect the dummy’s head. In comparison, the Acura TL’s front and side curtain airbags worked well together to keep the head from coming close to any stiff structures or objects that could cause injury.
Engineers at some manufacturers have indicated that they are adjusting airbag algorithms across their fleet to deploy side airbags in small overlap frontal crashes.
Another restraint and kinematics issue Institute engineers flagged was excessive forward movement of the driver dummy caused by too much shoulder belt webbing spooling out of the retractor. This was the case with the BMW, Mercedes and Volkswagen. Like most new vehicles, these cars have safety belts equipped with load limiters that allow occupants’ upper bodies to move forward in frontal crashes when belt loads exceed a specific threshold. Load limiters allow some belt spoolout after the initial impact to reduce belt-force-related thoracic injuries such as rib fractures by allowing people to “ride down” deflating front airbags. However, too much spoolout can compromise belt effectiveness by allowing belted occupants to move enough to strike hard surfaces inside the vehicle. This concern is greater in small overlaps where occupants may load only a small part of the front airbag or miss it completely.