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Powder Metallurgy Volume 48, 2005 - Issue 3
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Articles

Microhardness of pore walls in porous titanium prepared with novel powder metallurgy

C. F. Li
,
Z. G. Zhu
&
T. Liu
Pages 237-240 | Published online: 19 Jul 2013

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Y. B. Hu, J. Zhang, X. N. Zhang, H. Rong, Y. Wu, Y. Yu & Q. X. Hao. (2014) Preparation and characterisation of porous titanium using plasma activated sintering technique. Materials Research Innovations 18:sup2, pages S2-95-S2-100.
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Articles from other publishers (16)

Doan PhuongDinhDinh, Luan vanNguyenNguyen, Trinh vanPhamPham & Tran TrungBaoBao. (2022) Effect of initial powder particle size on permeability and corrosion behavior of biomedical porous Ti6Al4V alloy prepared by powder metallurgy technique. Science of Sintering 54:1, pages 93-103.
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Alejandra Rodriguez-Contreras, Miquel Punset, José A. Calero, Francisco Javier Gil, Elisa Ruperez & José María Manero. (2021) Powder metallurgy with space holder for porous titanium implants: A review. Journal of Materials Science & Technology 76, pages 129-149.
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B.Q. Li, R.Z. Xie & X. Lu. (2020) Microstructure, mechanical property and corrosion behavior of porous Ti–Ta–Nb–Zr. Bioactive Materials 5:3, pages 564-568.
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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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M.T. Jia, J.M. Liang, D.L. Zhang, C. Kong & B. Gabbitas. (2016) Effects of holding time during pre-sintering and post-forging annealing on the microstructure and mechanical properties of Ti parts fabricated by powder compact forging. Materials Science and Engineering: A 655, pages 113-121.
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Murni Faridah Mahammad Rafter, Sufizar Ahmad & Rosdi Ibrahim. (2016) The Effect of Different Composition of Stainless Steel (SS316L) Foam via Space Holder Method. Advanced Materials Research 1133, pages 310-313.
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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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Luc Salvo, Guilhem Martin, Mathieu Suard, Ariane Marmottant, Rémy Dendievel & Jean-Jacques Blandin. (2014) Processing and structures of solids foams. Comptes Rendus Physique 15:8-9, pages 662-673.
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Budi Arifvianto & Jie Zhou. (2014) Fabrication of Metallic Biomedical Scaffolds with the Space Holder Method: A Review. Materials 7:5, pages 3588-3622.
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Yuhua Li, Chao Yang, Haidong Zhao, Shengguan Qu, Xiaoqiang Li & Yuanyuan Li. (2014) New Developments of Ti-Based Alloys for Biomedical Applications. Materials 7:3, pages 1709-1800.
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C. Tojal, V. Amigó & J. A. Calero. (2013) Fabricación y caracterización de aleaciones porosas de Ti y Ti6Al4V producidas mediante sinterización con espaciador. Revista de Metalurgia 49:1, pages 20-30.
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Nihan Tuncer, Gürsoy Arslan, Eric Maire & Luc Salvo. (2011) Investigation of spacer size effect on architecture and mechanical properties of porous titanium. Materials Science and Engineering: A 530, pages 633-642.
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Sufizar Ahmad, Norhamidi Muhamad, Andanastuti Muchtar, Jaafar Sahari, Khairur Rijal Jamaludin, Mohd Halim Irwan Ibrahim & Nor Hafiez Mohamad Nor. (2011) Taguchi Method for the Determination of Optimised Sintering Parameters of Titanium Alloy Foams. Advanced Materials Research 264-265, pages 1731-1736.
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C. Tojal, J. Devaud, V. Amigó & J. A. Calero. (2011) Caracterización mecánica de aleaciones porosas, base Ti, producidas mediante la técnica de sinterización con espaciador. Revista de Metalurgia 46:Extra, pages 26-32.
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Wenjuan Niu, Simon Gill, Hongbiao Dong & Chenguang Bai. (2010) A two-scale model for predicting elastic properties of porous titanium formed with space-holders. Computational Materials Science 50:1, pages 172-178.
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P. J. Kwok, S. M. Oppenheimer & D. C. Dunand. (2008) Porous Titanium by Electro-chemical Dissolution of Steel Space-holders. Advanced Engineering Materials 10:9, pages 820-825.
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