GAKTpore: Stereological Characterisation Methods for Porous Foams in Biomedical Applications

Abstract: In tissue engineering, scaffolds are a key component that possess a highly elaborate pore structure. Careful characterisation of such porous structures enables the prediction of a variety of large-scale biological responses. In this work, a rapid, efficient, and accurate methodology for 2D bulk porous structure analysis is proposed. The algorithm, “GAKTpore”, creates a morphology map allowing quantification and visualisation of spatial feature variation. The software achieves 99.6% and 99.1% mean accuracy for … Show more

“…Unfortunately, the low penetration depth and limited field of view of X-ray and electron based techniques, typically restricts practical deployment to sample surface analysis and small areas [3,10,11,13,31,32]. More importantly, methods based on such underlying technology are not currently equipped with the necessary arsenal to quantify the liquidus isotherm shape, macrosegregation, or non-uniform dendrite tip growth kinetics during directional solidification.…”

On the origin of mosaicity in directionally solidified Ni-base superalloys

“…Unfortunately, the low penetration depth and limited field of view of X-ray and electron based techniques, typically restricts practical deployment to sample surface analysis and small areas [3,10,11,13,31,32]. More importantly, methods based on such underlying technology are not currently equipped with the necessary arsenal to quantify the liquidus isotherm shape, macrosegregation, or non-uniform dendrite tip growth kinetics during directional solidification.…”

On the origin of mosaicity in directionally solidified Ni-base superalloys

Manufacture of Porous Frit Vents Using Space Holder Methodology for Radioisotopic Space Power Systems

On the Origin of Mosaicity in Directionally Solidified Ni-Base Superalloys