Abstract
The efficiency and lifetime of devices depends critically on the details of the materials’ 3D microstructure and the relation between such structures. Recently developed X-ray imaging techniques provide a resolution that allows for seeing inside a device without destroying it.
There are a number of analysis tasks that need to be carried out in order to harvest the benefits from state of the art X-ray imaging techniques. This includes image segmentation of the reconstructed volumes. It is not feasible to segment manually, this could take months.
By segmenting structures we are able to measure size and shape and quantify important structures. Examples include pores and interface distributions in a catalyst, or glass fiber size, shape and length distributions in a wind turbine blade.
There are a number of analysis tasks that need to be carried out in order to harvest the benefits from state of the art X-ray imaging techniques. This includes image segmentation of the reconstructed volumes. It is not feasible to segment manually, this could take months.
By segmenting structures we are able to measure size and shape and quantify important structures. Examples include pores and interface distributions in a catalyst, or glass fiber size, shape and length distributions in a wind turbine blade.
Original language | English |
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Publication date | 2014 |
Number of pages | 1 |
Publication status | Published - 2014 |
Event | Conference on Energy and Environment for the Future: Sustainable energy for a fossil free society and environmentally friendly technologies - Eigtveds Pakhus, Copenhagen, Denmark Duration: 24 Nov 2014 → 25 Nov 2014 |
Conference
Conference | Conference on Energy and Environment for the Future |
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Location | Eigtveds Pakhus |
Country/Territory | Denmark |
City | Copenhagen |
Period | 24/11/2014 → 25/11/2014 |