The Scitalk
Apr 18, 2025
The future of automobiles is electric, but many people worry about the safety of today’s electric
vehicles.
Public opinion
about EV crash safety often hinges on a few high-profile fire incidents.
Those safety concerns are arguably misplaced, and the actual safety of EVs is
more nuanced.
I’ve researched vehicle safety for more than two decades, focusing on the biomechanics
of impact injuries in motor vehicle crashes. Here’s my take on how well the
current crop of EVs protects people:
The burning question
None of the
Insurance Institute for Highway Safety crash tests of EVs have sparked any
fires. New Car Assessment Program crash test reports yield comparable findings.
While real-world data analysis on vehicle fires involving EVs is limited, it appears that media and social media scrutiny
of EV fire hazard is blown out of proportion.
Weighty matters
What stands out
about EV safety is that crash test results, field injury data and injury claims
from the Insurance Institute for Highway Safety all reveal that EVs are
superior to their internal combustion counterparts in protecting their
occupants.
This EV advantage
boils down to a blend of physics and cutting-edge technologies.
Thanks to their
hefty battery packs positioned at the base of the car, EVs tend to carry considerably more weight and enjoy lower centers of gravity than conventional
vehicles. This setup drastically reduces the likelihood of rollover accidents,
which have a high rate of fatalities.
Moreover, crash dynamics dictate that in a collision between two vehicles, the
heavier one holds a distinct advantage because it doesn’t slow down as
abruptly, a factor strongly linked to occupant injury risks.
On the technology
side, most EVs represent newer models equipped with state-of-the-art safety
systems, from advanced energy absorbing materials to cutting-edge crash avoidance systems and upgraded seat-belt and air-bag setups. These
features collectively bolster occupant protection.
Where risks do rise
Unfortunately, EVs also present numerous safety challenges. While the inherent weightiness of EVs offers a natural advantage in protecting occupants, it also means that other vehicles bear the burden of absorbing more crash energy in collisions with heavier EVs. This dilemma is central to the concept of “crash compatibility,” a well-established field of safety research.
Consider a
scenario in which a small sedan collides with a heavy truck. The occupants in
the sedan always face higher injury risks. Crash compatibility studies measure
vehicle “aggressivity”
by the level of harm inflicted on other vehicles, and heavier models are almost always deemed more aggressive.
In addition, the
increased energy associated with impacts from heavier EVs, particularly
electric pickups, poses significant challenges for highway guardrails. Moreover, EVs – especially those operating
silently at low speeds – pose increased risks to pedestrians, bicyclists and others who may not hear the EVs
approach.
Better technologies, better
safety
While EVs offer
safety advancements for their own occupants, it’s crucial to acknowledge and
tackle the safety concerns they pose for others on the road.
I believe that
technological advancements will serve as the primary catalyst for overcoming the
safety hurdles faced by EVs. Lightweight materials, more powerful sensing technologies and safety algorithms, improved seat belts and better
air bags will play pivotal roles in addressing these challenges.
Moreover, the tight connection between EVs and rapidly evolving computing capabilities is likely to foster the development of new safety technologies.
Photo Credit
Photo by Upgraded Points on Unsplash
Republished from The conversation
