Though BMW won’t use the “Carbon Core” format of the 7 Series, the next generation of the BMW 5 Series announced Thursday will still lose up to 137 pounds through a combination of high-strength steel, magnesium and aluminum.

The past generation of the 5 Series already relied fairly extensively on aluminum, including the doors, hood and front fenders. The 2017 5 Series builds on this further with its first completely aluminum trunk lid, knocking 9 pounds off the car.

“The trunk, trunk lid, engine cross-member, rear side-members, roof and doors are constructed from aluminum,” BMW wrote Thursday. “The doors, with laser-cut outer paneling, have an aluminum shell construction, which maximizes the weight-reducing benefits of this material when used in combination with state-of-the-art production technologies.”

The hood and fenders are still aluminum, BMW confirmed Friday.

BMW used magnesium to cast the instrument panel, rendering it 4 pounds lighter than its steel predecessor. Given the metal’s high strength, low weight and structural rigidity, this could be an increasingly popular choice for OEMs going forward.

High- and ultra-high-strength steel appear throughout the vehicle, and while BMW indicated it used such metals in its previous-generation 5 Series, you’ll likely see more ultra-high-strength steel and potentially even the lower-strength steels moving up to stronger, lighter high-strength classes.

Large load-bearing members in the new BMW 5 Series Sedan, and strategic use of high- and ultra-high-strength steels in the roof, side members and rear, give the body high structural strength,” BMW wrote about the 2017 5 Series. “The use of hot-stamped steels, aluminum alloys and multi-phase steels in the passenger cell provides high rigidity, for the best possible passive safety and low weight.”

Shops doing structural work on the 2017 5 Series also will want to review OEM procedures to preserve what BMW describes as “optimized safety” on the body-in-white. Interestingly, BMW says the body is optimized for other vehicles’ safety too.

“Deformation spaces are optimally designed and utilized, courtesy of the latest technologies in body design,” BMW wrote. “The aim was to split up the main load paths so that the impact forces are dispersed over as wide an area as possible by the time they reach the extremely rigid passenger cell. This ensures optimal deceleration of the passenger cell in an accident, allowing the front, rear and side impact restraint systems to provide the most effective protection possible.”

Learn about steel, aluminum auto body work at Repairer Driven Education

Shops need to examine steel and aluminum repair to make informed business decisions about how they want to fix modern lightweighted vehicles. Learn more about steel repairs for the Honda Accord, Toyota Camry and Audi A5 at “Case Study of the Procedures for Steel Quarter Panel Replacement” with Larry Montanez of P&L Consultants, and examine “Structural Repair and Materials for 2016 and Beyond” with Ken Boylan of CHIEF Automotive. Both sessions are part of the Repairer Driven Education Series Nov. 1-4 during SEMA. Register here.

As the deformation spaces by definition will likely require the most restoration following a collision, shops’ ability to deliver the same pre-loss energy management will be crucial. And even shops which don’t work on BMWs should heed its message of optimization, as we’ve encountered multiple non-luxury OEMs using similar computer collision modeling to coax similar crashworthiness out of bodies.

The 2017 5 Series won’t use carbon fiber, as had been suggested by what Autocar reported was the model’s switch to the 2016 7 Series’ CLAR architecture.

The 7 Series marries carbon fiber and steel across the vehicle body in a “Carbon Core,” and the CLAR format was intended to allow combinations of carbon-fiber, aluminum, magnesium and/or high-strength steel, Autocar reported in January.

So it appears future Beemers won’t necessarily have as many composites as initially seemed possible; it’s an option, but not a given. We asked BMW spokeswoman Rebecca Kiehne about carbon fiber on the 5 Series, and she replied Thursday via email:

“BMW is pursuing the strategy of intelligent composite construction as a matter of principle. By applying this strategy and by means of optimized details in all areas of the car, we have succeeded in reducing the weight by 137 lbs  in the new 5 Series as compared to the predecessor model – despite the increase in size. …

“The Carbon Core technology  is reserved for our flagship. The  137 lbs was achieved with the use of  magnesium, aluminum and high-strength steel.”

Aerodynamic slats

Besides the usual panel/structural material and design decisions, shops also will want to pay attention to the 5 Series’ active aerodynamic slats.

The high-tech slats, found behind the kidney grille, open and close automatically to balance the radiator’s heat dispersion needs with greater aerodynamics. If the 5 Series rear-ends something, these will be a factor while doing work in the grille area. See our past coverage for more on the technology, which Magna believes will grow more popular with OEMs because of its performance and fuel economy benefits.