Tagged: Automotive

ITW Pro Brands is promoting a new mold release agent, DiamondKote™ DKW-4185, for faster and easier mold cleaning. This water-based, semi-permanent product releases polyacrylate rubber, butyl rubber, natural rubber, SBR, EPDM, and most sulfur-cured elastomers from mold surfaces. DiamondKote™ DKW-4185 can also be used with FKM that is amine-cured or bisphenol-cured, and with rubber-to-metal bonded parts.

Join us August 15 – 18 in Barberton, Ohio, for “Manufacturing with Silicone Rubber,” a comprehensive workshop hosted by RDAbbott from a fabricator’s point-of-view. Attendees of this four-day workshop will learn practical techniques, testing methods, and insights, plus equipment troubleshooting tips for processing silicone rubber, from industry professionals through a combination of classroom instruction and interactive workshops.

In this upcoming webinar, Dr. Noel Chang, Technical Service and Development Leader for Dow Consumer Solutions, and Dr. Jessica Ding, the Marketing Manager for Dow, will describe SILASTIC™ 921X LSR Series for sealing that’s compatible with connector housings made of flame-retardant plastics.

Electrical resistivity is an important property for various EPDM applications, such as wire and cable, battery and fuel cell gaskets, and automotive profiles. To achieve the specified electrical resistivity values in these applications, it is necessary to replace smaller particle size furnace blacks with mineral fillers and/or larger particle size carbon blacks. Join us on June 7, 2023, from 2:00 – 3:00 PM (ET) to hear the results of Cancarb’s technical study that compared blends of hard clay, Thermax® N990, and N550, and evaluated how the size, structure, and surface chemistry of these filler systems impact the insulative and conductive behaviors of the EPDM compounds.

The mobility industry is rapidly transforming, driven by the accelerating adoption rate of electric vehicles and the need for more sustainable material science solutions. This 1-hour presentation introduces a new series of selective adhesion liquid silicone rubber from Dow that is targeted to improve efficiency in designing and fabricating various automotive seals.

Dow discusses the future of mobility in its “Seek Together” Podcast. Host Eva Saha is joined by Tim Boven, Dow’s Global MobilityScience™ Director, and James Barclay of the Jaguar TCS Racing Team. Barclay provides an under-the-hood look at materials science innovations from Dow that helped the racing team make history during the 2020/2021 ABB FIA Formula E World Championship.

Dow has published a case study that explains how its award-winning SILASTIC™ MS-4007 Moldable Silicone enabled award-winning emergency vehicle lighting. Dow’s two-part, heat-cured silicone resin is lighter than glass, resists yellowing better than plastic, and can withstand high heat and moisture while providing excellent light transmittance for optical clarity.

Dow is sharing a technical presentation about how its SILASTIC™ Moldable Optical Silicones are enabling advanced automotive lighting. For example, adaptive driving beam (ADB) technologies use a high-power LED matrix with a silicone primary lens. Rear lamps and indicators use linear LEDs with a silicone coupler and light guide. Dow’s technical presentation also covers material, mechanical, and optical properties.

The mobility industry is rapidly transforming, driven by the accelerating adoption rate of electric vehicles and the need for more sustainable material science solutions. During this webinar you’ll be introduced to a new series of selective adhesion liquid silicone rubber from Dow that is targeted to improve efficiency in designing and fabricating various automotive seals. Join us on Thursday, April 27, 2023, from 10:00 AM – 11:00 AM (ET) for this free webinar.

Dow has launched a new series of selective adhesion LSR products for the mobility and transportation industry. SILASTIC™ SA 994X LSRs are primer-less, self-adhesive, and available in standard and self-lubricating versions with a one-to-one mix ratio for two-component injection molding with thermoplastic substrates. These new LSR materials were specifically developed to target adhesion to polybutylene terephthalates (PBT) and polyamides (PA).