This article discusses how to use squeak and rattle simulation to develop automotive interior parts.
This article discusses space system component design validation using scanning laser vibrometry.
AZoMaterials spoke to Bill Stry Ph.D., Senior Process Technology Engineer at Harper International, about the how carbon fiber oxidation processing works, the industrial applications, and what makes Harper's oxidation oven technology unique.
In 2018, the BMW group announced that it would be the first automotive company using computed tomography (CT) to improve methods of prototype development, production, and analysis. The company embarked on the project to integrate this technology into its procedures, resulting in the faster development and production of prototypes, as well as opening the door for the potential development of automatic evaluation through AI.
By Sarah Moore
14 Jan 2020
The U.S. Department of Energy’s (DOE) Brookhaven National Laboratory, Euclid TechLabs LLC, the National Institute of Standards and Technology (NIST), and JEOL have won a 2019 R&D 100 Award for the development of the “Affordable Laser-free Retrofittable Stroboscopic Solution for Ultrafast Electron Microscopy.”
By Dr. Priyom Bose
13 Jan 2020
Shape memory polymers were first conceived back in the 1940s when L. B. Vernon and his colleagues discovered the shape memory properties of polymers, reported in a 1941 paper. Following this, two decades later scientists began using covalently cross-linked polyethylenes within heat-shrinkable tubing and film, representing the next milestone in the development of shape memory polymers.
By Sarah Moore
13 Jan 2020
Any SPCC-regulated site or facility is obligated by EPA regulation to have robust enough secondary containment that any oil spilled from primary containment will not be able to reach navigable water.
By Megan Ray Nichols
13 Jan 2020
A guide to navigating and implementing successful digital transformation from LabVantage Solutions Inc.
Among the promising developments of nanotechnology in recent years, has been the development of the so-called bottom-up manufacturing of nanomaterials. This is the process by which materials at tiny scales and properties on the nanoscale (between 1 nm and 100 nm, or one and one hundred billionths of a meter) are manufactured through chemical growth from a material – known as epitaxy.
By Ben Pilkington
7 Jan 2020
While an optical microscope allows users to visualize microscopic structures using magnification and visual light, an atomic force microscope (AFM) can provide information on atomic-scale structures by using a tiny physical probe.
By Brett Smith
7 Jan 2020