The inside story: why interiors matter; Not so long ago, being assigned to an interior design program for a Big Three vehicle was not unlike being put in a penalty box, at least compared to the people assigned to doing exteriors. But driven by the need to catch up to the likes of Audi and Scion, all that's changing.
A MATERIAL WORLD
One thing that makes the task of perfecting vehicle trim and texture increasingly complex is choice. Consider an instrument panel. Traditionally, it was composed of molded-in plastic materials, period. Today, engineers and designers can select from a multitude of panel construction methods, including cast skin, vacuum forming and the old molded-in-color stand by. On top of that, add the various materials used on interior trim pieces, including numerous thermoplastics, leathers and vinyls, and you have a dizzying array of complexities. The real trick is trying to make all of these various materials and manufacturing processes work in harmony to provide a visual appearance that is pleasing to the customer, while meeting brand character attributes established by the vehicle development team and the budgets set by procurement. It's a daunting task that is becoming increasingly important for product success.
PART OF THE TEAM
One consequence of the acknowledgment of the importance of interiors is that it is being introduced earlier in the timetable for vehicle development plans. "We really need to know the texturing early on because we have to know which materials we are going to use and the tooling needed. We need to know how the tool is gated and how to control the flow of the material selected to avoid flow marks and control the gloss of the part," Margaret Hackstedde, director of product design for color and trim at Chrysler, explains. "We also need to make sure that the grains really are cohesive with one another." Most OEMs have catalogs with several dozen grains to choose from. Most are characterized as organic, or animal hide-like, but a new trend is developing towards more "technical" textures, similar to those found on athletic gear and consumer electronics equipment. Those two industries are playing a huge role in the development of future grains, textures and fabrics for automotive applications, according to Susan Lampinen, group chief designer-color and materials and program interior at Ford. Her team scours the marketplace to find products that breakthrough when it comes to feel and appearance. She points to Apple's iPod as the perfect example of a product that could set a standard for vehicle interior designs: "What we're seeing now is the consumer out there is really growing in terms of their understanding of design and increasingly American consumers are not going to accept mediocrity when it comes to design."
Finding the next big breakthrough in interior grains, color and trim has become such a huge issue at Chrysler that Hackstedde has hired an outside consultant to help identify areas where it can accelerate grain design to move ahead of the competition. "We needed someone who has the expertise as a designer but also had the technical expertise in grain texturing," Hackstedde said, admitting this is the first time Chrysler's interior craftsmanship studio has hired a consultant in its nine-year existence. Since an automaker can go through hundreds of grain, color and trim concepts for each vehicle interior design, reducing the number of iterations can lower vehicle development costs and improve time to market. CM is developing its next-generation grains and textures prior to vehicle development, in what it calls a "decoupling" process, where designers and engineers will test new grains on various materials to verify gloss and appearance before assigning it to a vehicle program. This will allow GM's vehicle development teams to take a validated grain off the shelf.
Both Chrysler's and GM's approaches should help make U.S. manufacturers more competitive against the Europeans and Asians, who have capitalized on building harmonious and sensory appealing interiors. However, according to an industry source with expertise in the area of grain and trim, U.S. manufacturers have to be willing to work with their texturing suppliers on a more advanced basis, while also helping them fund research and development initiatives aimed at improving grain, color and texture perfection across the board. It's a strategy the European and Asian OEMs have embraced for years, and the attitude seems to be gaining traction in the U.S. "These people [texture and grain suppliers] have a very skilled craft and there are not a lot of them out there. They seem to be a dying breed. We need to work with them as early as we can in the process," says GM's Sirvio. Currently, texture and grain suppliers are brought into the process approximately one year before vehicle launch. Earlier would be better.
LIGHTING: THE NEXT CUSTOMIZATION FRONTIER
When Ford debuted the My Color instrument panel system on the 2005 Mustang, doubters lined up saying customers would balk at paying extra for having the ability to switch the color of their gauges. It appears Ford may have been more forward thinking than the doubters as auto makers and suppliers begin to show keen interest, developing all kinds of customization solutions using electroluminescent and light emitting diode solutions for vehicle interiors. Intier Automotive Interiors (Novi, MI; www.intier.com) is busy working on a number of solutions for OEMs to build brand awareness and accommodate customization via lighting solutions. A recent survey of vehicle consumers resulted in nearly 93% of respondents saying they would be interested in a variety of lighting solutions to improve the interior appearance of their vehicles, while 50% of those said they were willing to pay as much as $200 for improved ambient lighting solutions. "Some of the specific preferred locations on the vehicle indicated were the door remote handle, IP and dash, the grab handles and console bins and storage areas," says Steve Polakowski, executive director of electronic and electrical engineering at Intier. "The quotes we have seen across the board from virtually every OEM have had a noticeable increase for integrated lighting requests."
The main obstacles remain cost and consumption, according to Polakowski. Since electroluminescent lighting systems require a power converter and use more electricity at an additional cost, automakers are showing some reluctance to incorporating the systems into future vehicles. "OEMs will have to modify their lighting circuits to support electroluminescent systems," Polakowski says. He expects automakers to show increased acceptance for LED lighting solutions, since they are less expensive, consume less energy and have longer lifecycles than electroluminescent or incandescent systems. GM's Saturn brand introduced LED-based ambient lighting as an option on its Vue Red Line SUV. The system contains a yellow and purple colored LED underneath the seats that illuminates the footwell via a switch on the lower IP, replacing the heated seat switchgear. This solution cost GM a few dollars to implement, but is included as part of the $2,495-premium paid for the Red Line package. Chrysler's Dodge brand recently leapt into the electroluminescent ambient lighting game with lighted cupholders on the new Caliber small car. Other automakers are keen on following Dodge's lead, Powalkowski says, hinting that one automaker intends to use red and blue electroluminescent lights on their heated and cooled cupholder system to signify when the heated or cooled function is operational. "Where we are really seeing a lot of electroluminescent growth is the use for cupholders and pull-handle accent applications," he says.
Designers are also getting into the lighting game as electroluminescent systems are being incorporated into IPs, center consoles, seats and headliners to accentuate design features and develop interior themes. Scion's Fuse concept has taken the idea of using ambient lighting to the extreme as electroluminescent lights are built into the front and rear seat cushions, rear armrests and headliner. "We're definitely seeing a bigger push to focus on highlighting craftsmanship and some of these technologies allow you to show off design features," Polakowski says. Intier has developed LED and electroluminescent solutions to display design cues on instrument panels, door panels and center consoles, along with the potential to illuminate console mounted gear-shifters and highlight various switchgear. Luxury OEMs are looking to utilize white LEDs for map light and gauge cluster lighting solutions to provide a more upscale cabin ambiance, but look for Asian OEMs to adopt more electroluminescent solutions, while domestic automakers are likely to stick with LED lighting solutions, geared mainly towards higher-priced and youth-oriented segments.--KMK
By Kevin M. Kelly, Senior Editor
RELATED ARTICLE: The Supply Side Makes Strides
Walking through Tenibac-Graphion, Inc. (www.tenibac.com), a leading interior texture and color house for automakers in Clinton Township, MI, is like going back in time. Several vats filled with etching acid are set in the middle of the floor, while workers are hunkered over dies at tables throughout the rest of the space, affixing texture film with wooden dowels and brushes in exacting detail. A worker applies as many as six different films on a die to get the depth and detail exact. Along one of the walls sits a large die used for injection molding a front fascia; one worker is up to his shoulders in it, twisting and turning to apply the film in minute nooks and crannies. It's a labor-intensive process and likely to stay that way for the near-term, as the advent of laser etching of grains for various size dies remain cost prohibitive, according to Jim Deliz, Tenibac-Graphion's President and Chief Operating Officer. In addition to the cost of a five-axis laser system, Deliz says that the computing power needed for the massive files detailing the complex surfaces would likely reduce or even eliminate the profit margin for the average texturing provider.
In an effort to meet the high-tech demands of the automotive industry, numerous texturing firms across the globe have come together to form Texture Technologies International (www.ttimembers.com), providing a conduit to share processes and technologies among the members of the consortium. Deliz says Tenibac has been able to develop two key technologies--Vycon and Titus--that have benefited from the TTI cooperation. Vycon assists in developing detailed prototypes of grains and textures for design reviews at various stages of interior development. The chosen grain is reproduced on a piece of vinyl-like material that is painted to match the interior trim color to be tested and then bonded to the prototype part (the top of a prototype instrument panel, for example). The finished prototype is then delivered for review, and if changes are required the grain material is peeled off the part and the process is repeated until the desired results are achieved. At the same time, the data used to develop the grain and texture in the Vycon process is stored in a computer for use in developing the final film for die etching. "What Vycon does is allow us to coordinate material, color and gloss earlier in the process, which is beneficial both to us and the customer," Deliz explains.
Titus clears the way for application of technical, or geometric, textures and grains on shaped surfaces, a process that has previously been relegated to simple, flat pieces. "Basically, Titus makes the traditional Film pliable--you can actually stretch it. There are virtually no seams and the visual appearance is impeccable. It also improves accuracy," says Deliz. The advent of Titus could make it possible to apply geometric grains directly onto steering wheels, shifter knobs and other 3D interior trim pieces that might have previously resulted in grain distortions.
RELATED ARTICLE: Pull, Flip, Pivot!
Access to the third row of a vehicle can be a major problem, especially if the door aperture is small or irregularly shaped, or if closely parked vehicles keep the door from opening all the way. Not only are middle seats often heavy and tough to flip and fold, it is necessary to step behind them to gain entry to the third row seats.
The EZaxis seat from Johnson Controls (www.johnsoncontrols.com) addresses this problem by giving rear seat passengers a large entry area. A sizable access handle located on the upper portion of the seatback pivots inward and unlocks the lower seat cushion and seatback. As the lower cushion pivots up, the seatback rotates toward the center of the vehicle where it stays until the seatback is pulled back into place. (The left and right EZaxis seats can be used simultaneously.) The lower cushion can remain in this position to provide room to carry oddly shaped items, and this facility also can be employed without unlocking or pivoting the seatback. Other features of the system include a lockable storage are in the lower cushion, a fold-flat seatback and headrest, built-in child seat anchors, and the ability to fold the seat flat to the floor when the front seats are in their rearmost position for greater storage area. According to Paul Lambert, v.p. and general manager, Seating--North America, "A number of OEMs are looking at this seating system for SUVs, crossovers and minivans later in the decade."--CAS
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|Title Annotation:||The INDUSTRY|
|Comment:||The inside story: why interiors matter; Not so long ago, being assigned to an interior design program for a Big Three vehicle was not unlike being put in a penalty box, at least compared to the people assigned to doing exteriors.|
|Author:||Kelly, Kevin M.|
|Publication:||Automotive Design & Production|
|Date:||Jun 1, 2006|
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