Search Results - "Wen, C. E."

Processing of biocompatible porous Ti and Mg by Wen, C.E, Mabuchi, M, Yamada, Y, Shimojima, K, Chino, Y, Asahina, T

“…A new powder manufacturing process for Ti and Mg metallic foams designs porosity, pore size and morphology. These open-cellular foams (pores: 200–500 μm) have…”
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Effect of process control agent on the porous structure and mechanical properties of a biomedical Ti–Sn–Nb alloy produced by powder metallurgy by Nouri, A., Hodgson, P.D., Wen, C.E.

“…The influence of different amounts and types of process control agent (PCA), i.e., stearic acid and ethylene bis-stearamide, on the porous structure and…”
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Microstructure evolution and nanograin formation during shear localization in cold-rolled titanium by Yang, D.K., Cizek, P., Hodgson, P.D., Wen, C.E.

“…The microstructure evolution within the shear localization areas formed in commercial titanium subjected to cold rolling is systematically investigated…”
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Processing and mechanical properties of autogenous titanium implant materials by Wen, C E, Yamada, Y, Shimojima, K, Chino, Y, Asahina, T, Mabuchi, M

“…Pure titanium and some of its alloys are currently considered as the most attractive metallic materials for biomedical applications due to their excellent…”
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Hydroxyapatite/titania sol–gel coatings on titanium–zirconium alloy for biomedical applications by Wen, C.E., Xu, W., Hu, W.Y., Hodgson, P.D.

“…A simple sol–gel method was developed for hydroxyapatite/titania (HA/TiO 2) coatings on non-toxic titanium–zirconium (TiZr) alloy for biomedical applications…”
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Novel titanium foam for bone tissue engineering by Wen, C. E., Yamada, Y., Shimojima, K., Chino, Y., Hosokawa, H., Mabuchi, M.

“…Titanium foams fabricated by a new powder metallurgical process have bimodal pore distribution architecture (i.e., macropores and micropores), mimicking…”
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Compressibility of porous magnesium foam: dependency on porosity and pore size by Wen, C.E., Yamada, Y., Shimojima, K., Chino, Y., Hosokawa, H., Mabuchi, M.

“…Mechanical properties of porous magnesium with the porosity of 35–55% and the pore size of about 70–400 μm are investigated by compressive tests focusing on…”
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In vitro bioactivity evaluation of titanium and niobium metals with different surface morphologies by Wang, X.J., Li, Y.C., Lin, J.G., Yamada, Y., Hodgson, P.D., Wen, C.E.

“…Current orthopaedic biomaterials research mainly focuses on designing implants that could induce controlled, guided and rapid healing. In the present study,…”
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Degradation of the strength of porous titanium after alkali and heat treatment by Lin, J.G., Li, Y.C., Wong, C.S., Hodgson, P.D., Wen, C.E.

“…Porous titanium with a porosity of 75% was fabricated by space-holder sintering through powder metallurgy. The effect of the alkali and heat treatment on the…”
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Effect of relaxation on pressure sensitivity index in a Zr-based metallic glass by Yu, G.S., Lin, J.G., Mo, M., Wang, X.F., Wang, F.H., Wen, C.E.

“…Shear-banding features of as-cast and annealed Zr 41.2Ti 13.8Cu 12.5Ni 10Be 22.5 bulk metallic glass were investigated through Rockwell indentation tests…”
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Elastic modulus and hardness of cortical and trabecular bovine bone measured by nanoindentation by WANG, XJ, CHEN, XB, HODGSON, PD, WEN, CE

“…The elastic modulus and hardness of several microstructure components of dry bovine vertebrae and tibia have been investigated in the longitude and transverse…”
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Phase transformation in oil-quenched Ni–21.2Al–20Fe alloy by Zhou, Z.C., Gu, S.Y., Wen, C.E.

“…▶ In this study, the phase transformation characteristics of the quenched Ni–Al–Fe alloys have been described by internal friction measurements and DSC…”
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Fabrication of TiAl by blended elemental powder semisolid forming by WEN, C. E, YASUE, K, YAMADA, Y

“…Semisolid forming from blended elemental powders is investigated on Ti-Al alloy. The effects of the forming pressure, temperature, and pressure holding time on…”
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The influence of strain rate, deformation temperature and stacking fault energy on the mechanical properties of Cu alloys by Gong, Y.L., Wen, C.E., Wu, X.X., Ren, S.Y., Cheng, L.P., Zhu, X.K.

“…Cu–Ge alloys with different stacking fault energies (SFEs) were prepared by induction melting and processed by severe plastic deformation (SPD) using three…”
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Fabrication of nanoscale Ti honeycombs by focused ion beam by Hosokawa, H, Shimojima, K, Chino, Y, Yamada, Y, Wen, C.E, Mabuchi, M

“…Ti honeycombs with the side of 800 and 400 nm were fabricated by focused ion beam (FIB), though the surfaces of the bottom and wall of the Ti honeycombs were…”
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Sol-gel derived HA/TiO2 double coatings on Ti scaffolds for orthopaedic applications by XU, W, HU, WY, LI, MH, MA, QQ, HODGSON, P.D., WEN, CE

“…Hydroxyapatite/titania （HA/TiO2） double layers were coated onto Ti scaffolds throughout for orthopaedic applications by sol-gel method. Differential scanning…”
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Simultaneously enhanced strength and ductility of Cu–xGe alloys through manipulating the stacking fault energy (SFE) by Gong, Y.L., Wen, C.E., Li, Y.C., Wu, X.X., Cheng, L.P., Han, X.C., Zhu, X.K.

“…Vinogradov et al. [1] reported that the stacking fault energy (SFE) of Cu–xGe alloys with germanium concentration varying from 0, 0.1, 5.7 to 9.0at% alters…”
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Simultaneously enhanced strength and ductility of titanium via multimodal grain structure by Yang, D.K., Hodgson, P.D., Wen, C.E.

“…Commercial Ti with a multimodal grain structure was successfully produced using cryorolling, followed by low-temperature annealing. This multimodal grain…”
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Processing of fine-grained aluminum foam by spark plasma sintering by WEN, C. E, MABUCHI, M, YAMADA, Y, SHIMOJIMA, K, CHINO, Y, HOSOKAWA, H, ASAHINA, T

“…Porous materials are now becoming attractive to researchers interested in both scientific and industrial applications due to their unique combinations of…”
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Synthesis of nanocrystallite by mechanical alloying and in situ observation of their combustion phase transformation in Al3Ti by WEN, C. E, KOBAYASHI, K, SUGIYAMA, A, NISHIO, T, MATSUMOTO, A

“…Elemental powders of stoichiometric Al3Ti were mechanically alloyed (MA) in order to investigate the phase formation during the milling process. Furthermore…”
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