Scratch Measurement Optimization
From Basic to Advanced of Scratch is a course with three sessions, in which participants will explore strategies for optimizing test parameters, defining critical loads, and utilizing advanced quantitative techniques such as wedge blade testing and coating recovery. This series is designed to enhance your ability to accurately assess and interpret scratch test data, providing insights that are directly applicable to a wide range of material testing scenarios.
February 4, 2025: Scratch Measurement Optimization
Explore how to fine-tune scratch test parameters for your specific needs. This session covers defining critical loads, understanding indenter geometries, and optimizing test settings to focus on the most relevant aspects of scratch testing for your work. Whether you're assessing coatings or material durability, this webinar will equip you with practical strategies to enhance the accuracy and relevance of your scratch tests.
By the end of this webinar, attendees will be equipped with with a deeper understanding of how to define and apply critical loads for various materials, select the most appropriate indenter geometries, and optimize key test parameters for enhanced performance. You’ll leave with actionable techniques to tailor scratch testing to your specific applications, ensuring more precise, reliable, and relevant results in your material characterization efforts.
Presenter: Mark R Haase
Mark R Haase is an Advanced Application Scientist at Anton Paar, and has been with the company for six years. They work with many material characterization techniques, including scratch, indentation, tribology, particle sizing, gas sorption, atomic force microscopy, and rheology. Mark supports the use of these techniques in research and industry with training and method development. Prior to joining Anton Paar, Mark's studies included nanocarbon materials and green energy systems.
