Asuka Kutsukake scite author profile

Square pole implant models of Ti-6Al-4V were fabricated by selective laser melting (SLM) and osteoconductivity was investigated on their surface. The models have 3 types of surfaces; top surface, side surface, and polished surface. The surfaces have each different surface roughness and the influence of the roughness on the osteoconductivity was observed in-vivo experiment. The models were implanted in rat femurs and observed after 2 and 8 weeks. We observed the amount of hard tissue produced on the surfaces in the cut-off cross section of the femurs with the model by means of an optical microscope and bone-implant contact ratio (RB-I) was evaluated. As the result, in the case of 2 weeks-raised rats, the RB-I of the polished surface was the highest of all surfaces. The RB-I of the surface was however the lowest and that of the top surface was the highest in the case of 8 weeks-raised rats.

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Influence of Processing Conditions on Unmelted Defect Generation in Maraging Steel Made with Selective Laser Melting

Kutsukake¹,

Yoshida²,

Kojima³

et al. 2020

SOSEI-TO-KAKOU

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Physics-based thermal-chemical-fluid-microstructure modelling of in-situ alloying using additive manufacturing: Composition-microstructure control

Shinjo

Kutsukake

Arote

et al. 2023

Additive Manufacturing

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Effects of Process Conditions on Width Expansion Ratio in Width Enlargement Plate Forging with Spiral Grooved Tools

Yoshida¹,

Kutsukake²

2020

SOSEI-TO-KAKOU

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Asuka Kutsukake

Influence of Surface Asperity Made by Selective Laser Melting Additive Manufacturing on Bioactivity in Rat Femur

Influence of Implantation Period on Bioactivity on the Surface of Ti-6Al-4V Implant Model Made by Selective Laser Melting

Influence of Processing Conditions on Unmelted Defect Generation in Maraging Steel Made with Selective Laser Melting

Physics-based thermal-chemical-fluid-microstructure modelling of in-situ alloying using additive manufacturing: Composition-microstructure control

Effects of Process Conditions on Width Expansion Ratio in Width Enlargement Plate Forging with Spiral Grooved Tools

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