New technologies for automotive TP composites & acoustic laminates.* Rieter Automotive Systems See ITS, embedded system, drive-by-wire, adaptive cruise control, collision avoidance system, autonomous vehicle, heads-up display, DSRC, lane departure system, CAN bus, FlexRay and SYNC. , a global producer of automotive trim components and a leader in acoustic systems, unveiled several new technologies last June at its 17th biennial acoustics conference for customers at its headquarters in Winterthur, Switzerland. Foremost among these was novel software for simulating Rieter's many process and material options for making carpeted acoustic laminates. Other new developments include acoustic laminates with full or partial foil heat shields and new technology for using glass or natural fibers in direct compounding and molding of long-fiber thermoplastic A polymer material that turns to liquid when heated and becomes solid when cooled. There are more than 40 types of thermoplastics, including acrylic, polypropylene, polycarbonate and polyethylene. (DLFT) composites. Simulating laminates Rieter, which has U.S. offices near Detroit, makes acoustic laminates by drape drape v. To cover, dress, or hang with or as if with cloth in loose folds. n. A cloth arranged over a patient's body during an examination or treatment or during surgery, designed to provide a sterile field around the area. forming, vacuum forming Vacuum forming, commonly known as Vacuforming, is a simplified version of thermoforming, whereby a sheet of plastic is heated to a forming temperature, stretched onto or into a single-surface mold, and held against the mold by applying vacuum between the mold surface and the , and matched-metal compression molding Compression molding is a method of molding in which the molding material, generally preheated, is first placed in an open, heated mold cavity. The mold is closed with a top force or plug member, pressure is applied to force the material into contact with all mold areas, and heat , among other methods. The company also has a wide range of acoustic materials to choose from, such as coconut fiber, cotton shoddy (shredded clothing), and small air-filled pouches of PE film glued to the underside of parts. With the help of the Royal Institute of Technology in Stockholm, Sweden, Rieter developed simulation software Simulation software is based on the process of imitating a real phenomenon with a set of mathematical formulas. It is, essentially, a program that allows the user to observe an operation through simulation without actually running the program. to help choose the most efficient manufacturing method to make its acoustic parts. The simulation approach, which took two years to develop, became available for the company's use this summer. It is currently limited to drape and vacuum forming technologies, but Rieter is working to extend it to compression molding. The ultimate idea is to predict and optimize heating and cooling times, energy cost, material distribution, and residual stresses during and after forming. The software simulates deformation with single- or double-sided tooling, either draping draping, n in massage, technique of securely covering and uncovering parts of the body and moving the client. draping covering the animal with sterile drapes for surgery leaving exposed only that part of the body that has been with heat and gravity or thermoforming with heat and vacuum. Rieter's software combines commercial finite-element software modules to model the shear behavior of composite textile fabrics (woven, non-woven, and tufted). Rieter also used experimental software developed by Dr. J. Bergstrom of Exponent Inc. in Natick, Mass. This models the relative viscoelastic Adj. 1. viscoelastic - having viscous as well as elastic properties natural philosophy, physics - the science of matter and energy and their interactions; "his favorite subject was physics" behavior of mono- and multilayer polymeric materials, using an approach originally developed for particle-filled elastomers. Rieter tested its new program by simulating relatively simple axial stretching of a multi-layer carpeted material in a "picture-frame" apparatus. The frame applies shear by pulling a square shape into a rhomboid rhomboid /rhom·boid/ (rom´boid) [Gr. rhombos rhomb +-oid ] having a shape similar to a rectangle that has been skewed to one side so that the angles are oblique. while measuring the temperature and the stress applied in a single plane. Rieter tested a floor underlay panel of nylon-tufted carpet backed with layers of nonwoven non·wo·ven adj. Made by a process not involving weaving. Used of textiles. n. Material or a fabric made by a process not involving weaving. reinforcement fibers, latex adhesive, mixed-felt acoustic substrate, and multi-layer PE film. The acoustic substrate was cotton shoddy (40% to 90% cotton) made from shredded clothing. Rieter found good agreement between the simulated "picture-frame" stretching and actual shear deformation behavior. Foil heat shields Rieter's latest compression molding innovation, called Al-FA (aluminum foil application), molds a sandwich of DLFT composite with one or two skins of aluminum foil as a heat shield. A prototype part with one foil skin is being road tested. Rieter says it is far more difficult to apply a partial heat shield than to cover an entire part surface with foil. Until now, parts with partial foil coverings were made in two steps: First the part was formed, and then foil was applied with secondary heating. Rieter has now developed a one-step method for partial heat shields. Natural-fiber composite Rieter's most celebrated recent DLFT achievement is its first natural-fiber part, a spare-wheel pan cover for DaimlerChrysler, which is also the first natural-fiber external body part for a production car. It uses abaca fiber made by Manila Cordage cordage (kôr`dĭj), collective name for rope and other flexible lines. It is used for such purposes as wrapping, hauling, lifting, and power transmission. Early man used strips of hide, animal hair, and plant materials. in the Philippines. Abaca is a relative of the banana plant that is raised for making marine rope and twine twine: see cordage. . A compound of polypropylene and 30% chopped abaca fiber was patented by DaimlerChrysler for automotive molding. The part won the top automotive prize at the JEC show in Paris last spring and the Environmental category of the SPE SPE - Software Practice and Experience Automotive Innovation Awards last month. Part of Rieter's achievement was moving the part from R&D to production in only 18 months. Rieter uses a new servo-controlled profiling die to control the thickness of the extruded molten slab. Such a die is also used for glass-filled DLFT, but it is more essential for natural-fiber compounds because they are much more viscous. Without profiling they would require extremely high tonnage to press into thin-wall parts. Rieter places different profiles of molten abaca/PP slab in specific tool locations to optimize the molding cycle. Multiple profiles overlap, so there is no weld-line problem, Rieter says. A second new Rieter device makes it possible to feed either glass or natural-fiber rovings without changing the production set-up. Also, Rieter developed "two-component" compression molding, using materials with higher and lower percentages of long-glass fiber at specific locations in a tool. This approach is being tested for an underfloor part. NEED TO KNOW MORE? Manila Cordage Co., Manila Philippines +63 (2) 895-0481 * www.manilacordage.com Rieter Automotive Systems, Farmington Hills, Mich. (248) 848-0100 * www.rieter.com |
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