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HomeKey Engineering MaterialsKey Engineering Materials Vol. 941Powder Metallurgy Methods in Technologies for...

Powder Metallurgy Methods in Technologies for Producing Titanium Orthopedic and Dental Implants

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Abstract:

Today, the ability to form porous structures and coatings from titanium powder on implants parts of specified porosity, size and morphology of pores into which newly formed bone tissues and, thus, they contribute to the osseointegration and high and long-term stability of the implant functioning in the body is widely used. The ability to obtain work pieces of complex geometry by powder metallurgy methods with a minimum of mechanical rework by cutting, it also promotes the diffusion of this technology in the implants manufacturing as the titanium alloys are classified as difficult to process. The future progress in the development of new materials and types of implants is directly related to powder metallurgy - there is information about the creation of a highly solid biocompatible composite based on the intermetallic system β-Ti3Au, from which rib replacement implants are made

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Industrial Production: Materials and Technologies

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Periodical:

Key Engineering Materials (Volume 941)

Pages:

141-151

DOI:

https://doi.org/10.4028/p-hf4it0

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Online since:

March 2023

Authors:

Aliaksandr Ilyushchanka, Vadim V. Savich*, Aliaksandr Taraikovich, Robert Golodok

Keywords:

Additive Manufacturing, Bone Tissue, Implant, Jung Module, Osseointegration, Titanium-Based Alloys

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© 2023 Trans Tech Publications Ltd. All Rights Reserved

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[1] Savich, V. Powder Metallurgy Technology in Production of Medical Implants. Why? // Proceedings of Euro PM2005 Powder Metallurgy Congress & Exhibition. Prague, 2-5 October 2005, Vol.1, pp.537-543.

[2] Savich, V.V. Development of production and construction of the hip joint cementless total endoprosthesis technology of the SLPS system (Self Locking Porous System) // I Sympozium Inzyneria Ortopedyczna i Protetyczna - IOP`97. - Bialystok, 23-24 czerwca 1997. - S.515-525. (in Russian)

[3] Savich, V. Peculiarities of construction of a porous structure of implants from titanium powder for replacement of bone defects // Proceedings of Euro PM2007 Powder Metallurgy Congress & Exhibition. Touluse, 15-17 October 2007, Vol.1, pp.399-404.

DOI: 10.1179/174329007x261161

[4] Possibilities and prospects for the powder metallurgy technologies use, surface modification and application of protective coatings in medical equipment / Ilyushchanka А. Ph., Savich, V.V. // 50 years of powder metallurgy in Belarus. History, achievements, prospects: / red. col.: А. Ph. Ilyushchanka [et al]. – Minsk, SRPP MA, 2010. - Chapter 23. - P.541-582. (in Russian)

DOI: 10.15407/knit2020.04.021

[5] Savich, V.V. Powder metallurgy in dental and orthopedic implants // Topical problems of powder material science: Materials of the International Scientific and Technical Conference dedicated to the 85th anniversary of the academician V.N. Anciferov birth. (Perm, November 26–28, 2018 г.) / under reduction of A.A. Tashkinov. – Perm: Publishing of Perm National Research Polytechnic Unversity, 2018.. – pp.176-189. (in Russian)

DOI: 10.15593/2224-9982/2018.52.08

[6] New Developments of Ti-Based Alloys for Biomedical Applications / Yuhua Li, Chao Yang, Haidong Zhao, Shengguan Qu, Xiaoqiang Li, and Yuanyuan Li // Materials (Basel). 2014 Mar; 7(3): 1709–1800

DOI: 10.3390/ma7031709

[7] The uncemented Isoelastic/Isotitan total hip arthroplasty A 10-15 years follow-up with bone mineral density evaluation / Onkar N. NAGI, Senthil KUMAR, Sameer AGGARWAL // Acta Orthop. Belg., 2006, 72, 55-64

[8] Cementless isoelastic RM total hip prosthesis / Renato Bombelli, Robert Mathys // Journal of the Roval SocietY of Medicine Volume 75 August 1982. P. 588-597.

DOI: 10.1177/014107688207500805

[9] Rihard Trebse, Ingrid Milosev, Simon Kovac, Martin Mikek and Venceslav Pisot // Acta Orthopaedica 2005; 76 (2): 169–176

DOI: 10.1080/00016470510030535

[10] The concept of a cementless isoelastic monoblock cup made of highly crosslinked polyethylene infused with vitamin E: radiological analyses of migration and wear using EBRA and clinical outcomes at midterm follow-up /Yama Afghanyar, Sebastian Joser, Jonas Tecle and all // BMC Musculoskeletal Disorders (2021) 22:107

DOI: 10.1186/s12891-021-03981-8

[11] AFM and SEM Imaging of Bone // http://hansmalab.physics.ucsb.edu/afmbone.html

[12] Obtaining a highly porous material from Ti6Al4V alloy by pressing composite granules with a removable core / A.I. Vazhnova, A.I. Marukovich, O.L. Smorygo // Powder metallurgy. - Writ. 43. – 2020. – P. 79-84. (in Russian)

[13] Theory and practice of electro impulse sintering of porous powder materials / Belyavin K.E., Mazyuk V.V., Minko D.V., Sheleg V.K. – Mn.: Remico, 1997. – 180 p. (in Russian)

[14] Dental root implants produced by the combined selective laser sintering/melting of titanium powders/ N K Tolochko T Laoui, L Froyen and all /// Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications. - Volume 216, -Number 4 / 2002. Pages: 267 – 270

DOI: 10.1177/146442070221600406

[15] Researchment of the power influence of repetitively pulsed laser radiation on the stability of liquid-metal contacts between powder particles during selective laser sintering / K.E. Belyavin, D.V. Minko, R.P. Bykov, O.O. Kuznechik // Powder metallurgy. – Pub. 29. – 2006. – P. 268-272. (in Russian)

[16] High hardness in the biocompatible intermetallic compound β-Ti3Au / Eteri Svanidze, Tiglet Besara, M. Fevsi Ozaydin and all // Sci Adv 2016, 2:. doi: 10.1126/sciadv.1600319 https://main.scientific.net/editing-tool/author/titles/6477/papers/586094/checklist