Date of Original Version




Rights Management

© 2015 AIP Publishing

Abstract or Description

High energy x-ray characterization methods hold great potential for gaining insight into the behavior of materials and providing comparison datasets for the validation and development of mesoscale modelingtools. A suite of techniques have been developed by the x-ray community for characterizing the 3Dstructure and micromechanical state of polycrystalline materials; however, combining these techniques with in situ mechanical testing under well characterized and controlled boundary conditions has been challenging due to experimental design requirements, which demand new high-precision hardware as well as access to high-energy x-ray beamlines. We describe the design and performance of a load frame insert with a rotational and axial motion system that has been developed to meet these requirements. An example dataset from a deforming titanium alloy demonstrates the new capability.


Included in

Physics Commons



Published In

Review of Scientific Instruments, 86, 093902.