Takayoshi Nakano
Osaka University
560 Papers
1.9K Citations
Takayoshi Nakano is an academic researcher from Osaka University. The author has contributed to research in topics: Microstructure & Slip (materials science). The author has an hindex of 42, co-authored 486 publications. Previous affiliations of Takayoshi Nakano include Osaka Medical College & Furuno.
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Papers
Radiation-resistant properties of cross-linking PTFE for medical use
TL;DR: In this article, the property changes of two types of partially cross-linking PTFE (XF1B and XF2) treated by Co-60 γ-rays were examined physically and chemically.
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Development of a New Powder/Solid Composite for Biomimic Implant Materials by Electron-Beam Additive Manufacturing
TL;DR: In this paper, a new biomaterial composed of solid and powder cubic compartments was proposed to exhibit isotropic or bone-mimic one-dimensional anisotropic mechanical properties.
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Oriented Collagen Scaffolds for Anisotropic Bone Tissue Construction In Vitro
TL;DR: The findings imply that controlling the osteoblast alignment by oriented collagen scaffolds could be an initiator to establish the anisotropic bone structural development or regeneration in bone regeneration process.
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Preparation of Titanium Alloy/Bioactive Glass Composite for Biomedical Applications via Selective Laser Melting
TL;DR: In this paper, a novel titanium alloy/bioactive glass composites were successfully fabricated via selective laser melting (SLM) method for biomedical applications, which contained a Ti5Si3 phase, which resulted from the reaction between the titanium alloy and the bioactive glass.
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Novel nano‐hydroxyapatite coating of additively manufactured three‐dimensional porous implants improves bone ingrowth and initial fixation
Ryota Watanabe,Hiroyuki Takahashi,Aira Matsugaki,Toru Uemukai,Yasumichi Kogai,Takashi Imagama,Kiminori Yukata,Takayoshi Nakano,Takashi Sakai +8 more
TL;DR: Investigation of the effect of a novel nHA coating on the biological performance of EBMed 3D porous implants in a beagle transcortical model found that the addition of nHA to high-porosity 3D implants significantly improved early bone fixation and bone ingrowth into the deep region of porous structures compared toLowporosity implants.
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