X-ray Micro-Tomography Facility for Novel In-situ and 3D Characterization of Advanced Materials

The University of British Columbia, Kelowna, British Columbia
What the facility does

Materials science and engineering, X-ray tomographic imaging, 3D microscopy, In-situ characterization, CT scanning

Area(s) of Expertise

The X-ray Micro-Tomography Facility for Novel In-situ and 3D Characterization of Advanced Materials, directed by Dr. Abbas Milani at UBC in collaboration with Dr. Andre Phillion, a former UBC faculty and current faculty at McMaster University, provides unique 3D images of the internal structure of many different types of materials. We work with engineering materials (metals, ceramics, composites, and paper products) and biological materials (e.g. lung tissue) in order to understand the processes that lead to defects and accordingly arrive at mitigation strategies. Recently, the facility has acquired an advanced in-situ thermo-mechanical testing capability, which can be used for coupled material testing-microtomographic analyses under different deformation modes and thermal boundary conditions.

Using the 3D images, we also create numerical simulations to investigate fluid flow and mechanical deformation in realistic 3D structures.

Research Services

3D imaging, In-situ characterization, numerical modeling of fluid flow and mechanical deformation of high performance materials

Sectors of Application
  • Aerospace and satellites
  • Automotive
  • Clean technology
  • Construction (including building, civil engineering, specialty trades)
  • Defense and security industries
  • Energy (renewable and fossil)
  • Environmental technologies and related services
  • Forestry and forest-based industries
  • Life sciences, pharmaceuticals and medical equipment
  • Manufacturing and processing
  • Mining, minerals and metals
  • Transportation
  • Utilities

Name of equipment

 

Xradia microXCT-400 tomographic apparatus

 

Avizo Software for Analysis of 3D images

 

ScanIP Software for finite element meshing of 3D images