At the 21st SPE Automotive Award Night of the «Society of Plastics Engineers», EMS-GRIVORY was once again among the award winners − three times! The award-winning applications made of EMS high-performance plastics show once again how close customer cooperation can lead to innovative solutions that allow customers to save costs and weight.
At the 21st SPE Automotive Award Night of the «Society of Plastics Engineers», EMS-GRIVORY was once again among the award winners − three times! The award-winning applications made of EMS high-performance plastics show once again how close customer cooperation can lead to innovative solutions that allow customers to save costs and weight.
The International Society for Plastics Technology once again presented its coveted awards for the most innovative plastics applications in the automotive industry at the 21st SPE Award Night on October 17, 2022 in Düsseldorf/Neuss. Three applications made from EMS materials were honored with the prestigious awards.
In the «New Mobility» category, the electric water pump with housing, connection covers and impeller made of various Grivory HT1 materials was awarded first place. The electric water pump from HELLA GmbH is used in the thermal management of electric and hybrid vehicles, where it pumps the coolant in the various heating and cooling circuits in an energy-saving manner. To ensure a service life of >30,000 hours in the coolant temperature range of -40°C to +90°C, various Grivory HT1 materials were selected. The connection cover with hose connections, the pump housing and the impeller are made of special hydrolytically stable Grivory HT1 materials. The printed circuit board cover, made of Grivory HT1, protects the underlying electronic components through electro-friendly stabilization. Decisive for the use of Grivory HT1 materials in this application were the long-term resistance in coolants and the very good dimensional stability.
The module was awarded first place in the category «Electronical/Optical Part». The innovative electro pneumatic brake control module is used as the «control center» in the braking system for truck trailers and controls all safety-relevant functions. The brake control module from Haldex AB is designed for an operating pressure of up to 10 bar at temperatures ranging from -40°C to 80°C. The module carrier, made of Grivory HT1, is subject to high vibrations during operation and is attached to the trailer by means of three attachment points. The valve body and auxiliary/module components made of Grivory HT1 are produced to a tight tolerance and must have a high surface finish quality in the sealing area to reduce seal wear. The control module of the spring brake control valve (SBCV) is made almost entirely of EMS materials. The Grivory HT1 cover is welded to the manifold. The SBCV is operated by a main piston made of Grivory TSG and a secondary piston made of Grilamid 2D. The check valve bracket of the SBCV is made of unreinforced Grilon TSS and is equipped with snap hooks for quick assembly or disassembly. The decisive factor for the use of the various EMS materials was the reliable functioning of the safety-relevant components during the long-term test phase.
First place in the «Body Interior» category went to the supporting structure of the center console made of Grivory GVS from KDK Automotive GmbH. Here, the homogeneous deep black appearance of Grivory GVS meets the high visual requirements for the partial visible surfaces of the component without additional painting. The very good flow properties of Grivory GVS enable the complicated geometry to be filled reliably during injection molding. The tight installation space places high demands on the dimensional accuracy of the component. Here, Grivory GVS scores with its low moisture absorption and the associated high dimensional stability even after climate change tests. Decisive for the use of Grivory GVS was the high stiffness, the very good flow behavior, the excellent surface quality and the high dimensional stability - and thus dimensional stability - of the component.