Welcome to our new Instron Community Blog hosted by Instron. It is a compilation of the freshest, brightest, most-talented minds that Instron has to offer. The world of materials science is so vast and encompasses the broadest range of industries, materials, and challenges that no one person can possibly possess all the knowledge required to be the resident expert – or master of materials science. It takes a small army behind the scenes collaborating and sharing technical know-how, experiences, and ideas to present the most accurate, relevant, and timely information to you – our readers.
We invite you to tell us who you are, share your stories and talk about your experiences. Join the Instron Community.
Instron Applications Engineers Maeve Higham and Alessandro Zazzarelli sat down for an interview to share their great work for Europe’s Young Professionals Network. This newly established cohort is gathering across Europe and supporting the rising talent of Illinois Tool Works (ITW), Instron’s parent company.
Dec 08, 2016 10:14 AM
Dec 04, 2016 02:13 PM
Dec 01, 2016 10:22 AM
An Instron geotextile customer was conducting materials testing nearly around the clock. They were not able to keep up with demand and were building another plant to respond to the market. The company had a positive experience with their current Instron testing system and wanted to invest in another for the new plant, but with shorter test intervals.
Dec 08, 2015 03:18 PM
We've created a Year in Review to highlight exciting moments of 2013.
Denise Czerpak OnDec 30, 2013 10:10 AM
Brief introduction into some of the changes and updates to both the ISO 6892-1 and ASTM E8/8M tensile testing standards for metals and ambient temperature.
David Fry OnDec 30, 2013 10:10 AM
The ASTM E8 standard describes tensile testing methods to determine yield strength, yield point elongation, tensile strength, elongation, and reduction of area for metals. It applies to metallic materials in any form: sheet, plate, wire, rod, bar, pipe, and tube.
Dec 26, 2013 10:10 AM
Shoe and shoe material manufacturers alike must be able to prove that their products will withstand a substantial amount of wear and tear before releasing them to market. Useful in this analysis is the ability to simulate the impact of a runner on the sole of a shoe. During a typical gait cycle, these impacts can be higher than 3kN for an adult runner. In addition to controlling the load with which an impact is generated, researchers may also wish to control the energy which is generated as a result of the impact. A testing machine, which can successfully cater to these requirements, must be able to create and maintain a repeatable impact of a certain energy over a prolonged number of cycles.
Sarah Jastram OnDec 12, 2013 10:10 AM
Dec 27, 2012 09:30 AM