Designing safer bodies the Volvo way: in which we travel to Volvo's headquarters in Gothenburg, Sweden, to learn how the automaker whose name is synonymous with safety approaches body engineering.Soon after the car division of Volvo was bought by Ford in 1999, Volvo engineers were overwhelmed o·ver·whelm tr.v. o·ver·whelmed, o·ver·whelm·ing, o·ver·whelms 1. To surge over and submerge; engulf: waves overwhelming the rocky shoreline. 2. a. . Not by fresh development demands from their new American owner, but by a deluge Deluge (dĕl`y  j), in the Bible, the overwhelming flood that covered the earth and destroyed every living thing except the family of Noah and the creatures in his ark. of more informal inquiries
from engineers in Ford's various divisions eager to tap into
Volvo's prodigious pro·di·gious adj. 1. Impressively great in size, force, or extent; enormous: a prodigious storm. 2. Extraordinary; marvelous: a prodigious talent. 3. knowledge base for designing safe vehicles. "We had to limit access so our engineers could get their own work done," says Thomas Broberg Thomas Broberg is a senior engineer for Volvo in Gothenburg, Sweden. He also works for Ford Motor Company. He was featured in ITV's Police, Camera, Action! on the episode Highway of Tomorrow in 2000. , deputy director of the Volvo Cars
[ILLUSTRATION OMITTED] INSIDE OUT. Mattias Bergwall, body structure engineer, explains that the first step he and his team take in designing a body is not to create an initial body shell model and fit an interior within its parameters, but to situate sit·u·ate tr.v. sit·u·at·ed, sit·u·at·ing, sit·u·ates 1. To place in a certain spot or position; locate. 2. To place under particular circumstances or in a given condition. adj. the vehicle's occupants and work their way out. "We don't take a car and say how can we design this to be safe?" says Bergwall. "Rather we look at the occupants in many different situations, and try to determine what type of restraint systems we will have in the future. Then we set up body and packaging targets based on that." This approach leads to design decisions that most automakers would find pretty foreign to their ways of thinking. For example, powertrains are generally considered sacrosanct sac·ro·sanct adj. Regarded as sacred and inviolable. [Latin sacr  s packages with given dimensions that body engineers are forced
to work around and forbidden to tinker with. But at Volvo, nothing is
more sacred than human occupants, so powertrains are freely modified to
add crush space or reduce cabin intrusion. Two recent development
projects illustrate this. In creating the new S40 compact sedan Sedan (sədäN`), town (1990 pop. 22,407), Ardennes dept., NE France, on the Meuse River. A noted textile center since the 16th cent., Sedan also has metal and brewing industries. The town became part of French crown lands in 1642. , Volvo
conducted virtual crash tests on prototypes without engines and then
rearranged auxiliary components like batteries and brake boosters to fit
the crushed engine room space, rather than designing the space to fit
the existing engine configuration. By taking this unconventional
approach the S40 gained 200 mm of crush space for occupants even though
the vehicle's overall length was reduced by 48 mm compared with the
previous model. And Broberg says of the forthcoming XC90 V8: "We
went so far in demanding that a transverse-mounted V8 meet our crush
requirements that we could not find an appropriate engine in the entire
Ford Motor Company group that would not require us to change the
packaging." So they designed a new compact 60[degrees] unit that
measures only 25 in. wide to fit inside the crush envelope. Bergwall
sums up the body engineering philosophy: "You have to start with
the blue-sky thinking of what you need to do to keep the passengers
safe, otherwise you start thinking, 'Ah, that can't work
because we don't have that powertrain.'"
WEIGHT VS. SAFETY. Bergwall sees the biggest challenge to his body design team as striking the right balance between safety and weight. In the past, Volvo added body features like its SIPS (side impact protection system) which uses steel tubes under the seats to transmit side impact forces to crush boxes in the center of the car, but this sort of safety item adds a weight penalty that Volvo can ill afford to have proliferate pro·lif·er·ate v. To grow or multiply by rapidly producing new tissue, parts, cells, or offspring. . So its engineers have gotten more clever about re-designing existing structures to absorb more crash force without having to add new parts. A good example of this is the complete rethinking of the front body structure on the XC90. The S80 had been Volvo's gold standard for safety, but engineers found that a radically different design would allow the XC90 to absorb as much impact as an S80 at a lower overall weight. Bergwall explains: "With the S80, we ran the side member beams around the wheel arch to take the impact forces there. The concept relied on the bending capacity of the beams and joints. With the XC90 concept, there is a framework where you're working compression and tension instead of bending. And we use the IP beam as the final structural member of the front structure. In the S80 it is just a carrier of the steering rack, now we are using it as a structural part of the crash system. It is a much more weight-efficient system." Volvo has also put an increasing amount of emphasis on materials to maintain safety standards Safety standards are standards designed to ensure the safety of products, activities or processes, etc. They may be advisory or compulsory and are normally laid down by an advisory or regulatory body that may be either voluntary or statutory. while reducing weight. The smorgasbord of steel grades designed into the new S40 points to where the company is headed. The basic idea is to use higher strength steels on the outer parts of the body that bear the brunt of an impact and incur the most deformation deformation /de·for·ma·tion/ (de?for-ma´shun) 1. in dysmorphology, a type of structural defect characterized by the abnormal form or position of a body part, caused by a nondisruptive mechanical force. 2. , and then manage the impact forces by graduating to grades that deform less and less until the rigid passenger compartment cage is reached. To add more strength to the body, this material strategy is coupled with a design practice that is so fundamental to Volvo that it is often overlooked by others: Volvo bodies use fewer and bigger parts. Why? Bergwall's answer sounds like an excerpt ex·cerpt n. A passage or segment taken from a longer work, such as a literary or musical composition, a document, or a film. tr.v. ex·cerpt·ed, ex·cerpt·ing, ex·cerpts 1. from "All I Really Need to Know about Body Engineering I Learned in Kindergarten": "If you make two parts you must put them together and you will always have a weak joint." That idea recurs when Bergwall is asked about what the future holds for body engineering: "One future dream would be to get away from spot welding Spot welding A resistance-welding process in which coalescence is produced by the flow of electric current through the resistance of metals held together under pressure. Usually the upper electrode moves and applies the clamping force. , since you could have stronger, more efficient bodies without it." Don't expect that any time soon, but as with just about any other idea to make bodies safer, Volvo is working on it. [ILLUSTRATION OMITTED] By Kermit Whitfield, Senior Associate Editor |
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