KLA Instruments Webinars

in-situ

• 20:49

  

  Ready, Set, Indent!

  Dominik Weil of KLA Instruments presents fun and unusual nanoindentation applications.

• 29:26

  

  Advancing New Modalities within the Scanning Electron Microscopy Platform for Materials Characterization and In Situ Small Scale Mechanical Studies

  Presentation by Prof. Daniel Gianola from UC-Santa Barbara at the USA eUser Meeting in September 2020.

• 14:58

  

  Mechanical Testing of Colloidal Metallic Nanoparticles Inside Electron Microscopes

  Presentation by Prof. Wendy Gu from Stanford University at the USA eUser Meeting in September 2020.

• 25:12

  

  High Frequency In Situ Experiments of Fatigue Damage Evolution and Crack Initiation in Metals

  Presentation provided by Prof. Jaafar El-Awady from Johns Hopkins University at the USA eUser Meeting in September 2020.

• 40:44

  

  Dr. Erica Lilleodden: Exploring Strength at the Nanoscale

  Dr. Erica Lilleodden provides an excellent in-depth analysis of strengthening mechanisms and deformation at the nanoscale.

• 19:49

  

  Dr James Gibson: In-Situ Mechanical Testing-Fracture Toughness of Transistion Metal Oxy-Nitride Coatings

  Nitride films are ubiquitous in their use as hard, wear-resistant coatings. In this work, we help contribute to a scale-bridging model, helping build understanding of how initial plasma parameters affect the mechanical properties of the final coating system. To this end, we study the effect of transition metal species and oxygen content in transition metal aluminium (oxy)nitride coatings. Frac...

• 49:59

  

  Dr. Marco Sebastiani: The pillar splitting method for fracture toughness measurement at the micron scale

  The analysis of deformation and failure mechanisms in small-scale devices and thin films is a critical issue, not yet solved. In this presentation, we describe recent advances and developments for the measurement of fracture toughness at small scales by the use of nanoindentation-based methods, including beam-bending methods and micro-pillar splitting. A critical comparison of the techniques is...

• 16:43

  

  Johann Kappacher: Plastic deformation behavior of Cobalt upon phase transformation revealed by high temperature nanoindentation

  Technically pure cobalt with a phase transformation temperature of 700 K was investigated by high temperature nanoindentation. From the results of constant indentation strain rate experiments as well as strain rate jump tests the rate controlling deformation mechanisms could be derived. For the low temperature hcp phase from room temperature to 450 K a bcc-like deformation behavior was observed...

• 06:29

  

  Mohammadhadi Maghsoudi: Micromechanical Investigation of twinning in Mg and Mg alloys

  Hadi Maghsoudi provides an excellent presentation on twinning in magnesium materials using pillar compression and other supporting electron microscopy techniques.

• 06:36

  

  Christian Minnert: New ultra-high temperature nanoindentation system for operating at up to 1100°C

  In recent years, nanoindentation systems have been developed which can operate at ever higher temperatures in order to characterize the local mechanical properties and thermally activated mechanisms of high temperature materials such as nickel-based superalloys at their operating temperature. In this work a new ultra-high temperature nanoindentation system for testing at up to 1100 °C will be p...

• 01:57

  

  NanoBlitz 3D in SEM

  High speed nanoindentation completed using NanoBlitz 3D. See the KLA nanoindenters by visiting https://www.kla-tencor.com/products/nanomechanical-testers.