PRECISION ENGINEERED AUTOMOTIVE COMPONENTS

Brand Owner Address Description
METALDYNE MASCOTECH, INC. 21001 Van Born Road Taylor MI 48180 Precision-engineered automotive components, namely, piston connecting rods; vibration control products, namely, balance shafts and balance shaft modules; automotive engine systems comprised of modular components of automotive engines, namely, balance shaft modules and oil pump modules;Automotive engine systems comprised of modular components of automotive engines, namely, [ front engine cover modules; ] transmission systems, primarily comprised of transmissions; drive line [ and chassis ] systems, primarily comprised of [ chassis; wheel-end and suspension components and assemblies, namely, knuckle hub assemblies, knuckles, spindles, hubs, calipers, CV joints, ] namely, [ constant velocity joints, and ] transfer case components, namely, transfer case annulus gears, transfer case hubs, transfer case input gears, transfer case sleeves, transfer case spindles, and transfer case sprockets, all sold as component parts of land vehicles; land vehicle parts, namely, drive gears, wheel hubs, drive shafts for land vehicles, semi-finished transmission shafts for land vehicles, front wheel drive components, namely, land vehicle axles and land vehicle steering boot kits;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A method for developing a manufacturing process includes measuring, in a first testing environment, a primary property of a nano-engineered material at one or more positions to provide one or more measurements. The method also includes determining whether the one or more measurements satisfy a first tolerance criterion and taking a further action based on whether the one or more measurements satisfy the first tolerance criterion. Additionally, a method of measuring thermal properties of a nano-engineered material includes irradiating a nano-engineered material with laser radiation, wherein the laser radiation impinges on a first surface of the nano-engineered material at one ore more locations, capturing at least one image of the nano-engineered material, and analyzing the at least one image to characterize the thermal properties of the nano-engineered material.