Take advantage of these limited time offers until 31 December 2020.

We are pleased to announce the launch of a new X-ray diffactometer to the Xstress product line: the Xstress DR45. In celebration of this product launch, we are offering a buyback campaign for any X-ray diffraction system from any manufacturer.

Xstress DR45 is a new generation of X-ray diffractometers that deliver high quality data faster than ever before. The speed and accuracy of the Xstress DR45 takes residual stress measurements beyond the laboratory and into the production line. All-new software with an intuitive, uncomplicated interface pairs with state-of-the art technology to offer seamless efficiency.

X-ray diffraction (XRD) is an industry accepted method for determining residual stress in crystalline materials. This webinar is the second in a series of presentations providing current and future users with useful information on the operating fundamentals of XRD, technological advancements, and commercially available hardware, as well as examples of practical applications. Emphasis is placed on XRD for process optimization/validation and quality control.

Did you know that Barkhausen noise turned 100 years this year? Barkhausen noise was discovered in 1919 by a German physicist named Heinrich Barkhausen. Industrial applications for the Barkhausen method began in 1980 and today it is a widely recognized non-destructive testing method for grinding burn detection, material characterization, and heat treatment defect testing. Follow the timeline and see what has happened over the last 100 years.

The performance requirements of modern components in nearly every industry are ever increasing in parallel with constant efforts to reduce production cost and time. This has placed a greater importance on the understanding and control of process effects such as residual stress. X-ray diffraction (XRD) is a standardized and industry accepted method for determining residual stress in crystalline materials. This webinar provides a comprehensive explanation of the method with an emphasis on the value of residual stress depth profiles.