CLEMEX STUDIO RELEASED
A new platform for creating AI-based image analysis algorithms is now part of the Clemex Vision family of products. It generates a single plug-in instruction which can be used seamlessly in Clemex’s automated measurement software on a batch of images with similar characteristics to the ones used to train the algorithm.
AI FOR ADDED USER AUTONOMY
The idea behind the platform is to make image segmentation, sometimes called object detection, much more accessible to regular users. As method development is intuitive and no prior experience is necessary, new user onboarding is much simpler in situations where the image analysis methods need to be adjusted on a regular basis or when users wish to develop new methods.
With a simple annotation technique, the user usually manages to train the algorithm within ten minutes, as in this example of a SEM image (cross-sectioned cathode of a lithium-ion battery).
CLEMEX VISION 9 RELEASED
The latest version of Clemex Vision now leverages machine learning capabilities, including special instructions for martensitic, ferritic, and austenitic grains. These automatic algorithms are integrated into the existing software’s toolbox to provide a fast and reliable way of optically identifying challenging microstructures. This version of the software also offers the possibility to use above mentioned AI algorithms generated using Clemex Studio.
Clemex load cell technology for hardness testing
CLEMEX CMT LC TESTER
We are extending our hardness testing offer with the new CMT Load Cell tester. The Clemex CMT LC is the top-of-the-line of automation and accuracy for Vickers and Knoop hardness measurements in compliance with ASTM and ISO hardness standards. Load forces are applied through load cells and electronically controlled in “Closed Loop” with a frequency of 1 khz. Each load force is automatically programmed and adjusted assuring perfect linearity in every range eliminating the problems associated with traditional dead weight system testers. Results are not affected by any structural deflection, misalignment and external vibrations.