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Characterisation of space holder removal through water leaching for preparation of biomedical titanium scaffolds

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B. Velasco, S. A. Tsipas, B. Ferrari & E. Gordo. (2015) MAX phase foams produced via powder metallurgy process using water soluble space holder. Powder Metallurgy 58:2, pages 95-99.
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C. Guerra, C. Aguilar, D. Guzmán, M. Arancibia, P. A. Rojas, S. Lascano & L. Perez. (2015) Production and characterisation of mechanical properties of Ti–Nb–Ta–Mn alloys foams for biomedical applications. Powder Metallurgy 58:1, pages 12-15.
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Yasuhiro Kanoko, Kei Ameyama, Shigeo Tanaka & Benjamin Hefler. (2014) Production of ultra-thin porous metal paper by fibre space holder method. Powder Metallurgy 57:3, pages 168-170.
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Articles from other publishers (3)

B. Arifvianto, M.A. Leeflang & J. Zhou. (2017) Diametral compression behavior of biomedical titanium scaffolds with open, interconnected pores prepared with the space holder method. Journal of the Mechanical Behavior of Biomedical Materials 68, pages 144-154.
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B. Arifvianto, M.A. Leeflang & J. Zhou. (2016) Characterization of the porous structures of the green body and sintered biomedical titanium scaffolds with micro-computed tomography. Materials Characterization 121, pages 48-60.
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B. Arifvianto, M.A. Leeflang & J. Zhou. (2015) The compression behaviors of titanium/carbamide powder mixtures in the preparation of biomedical titanium scaffolds with the space holder method. Powder Technology 284, pages 112-121.
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