Fabrication of porous titanium implants by three-dimensional printing and sintering at different temperatures

Xiong, Yaoyang; Qian, Chao; Sun, Junqiang

doi:10.4012/dmj.2012-065

Cited by 55 publications

(41 citation statements)

References 13 publications

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“…This next gen implants will aim to confirm to the normalized shape of the part it replaces, with mechanical properties being close to that of the region of implantation preventing stress shielding in load bearing regions, porous for bone ingrowth, have repeatable properties. [1415161718192021222324]…”

Section: The Process Flowmentioning

confidence: 99%

3D modeling, custom implants and its future perspectives in craniofacial surgery

Parthasarathy¹

2014

Ann Maxillofac Surg

332

220

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Custom implants for the reconstruction of craniofacial defects have gained importance due to better performance over their generic counterparts. This is due to the precise adaptation to the region of implantation, reduced surgical times and better cosmesis. Application of 3D modeling in craniofacial surgery is changing the way surgeons are planning surgeries and graphic designers are designing custom implants. Advances in manufacturing processes and ushering of additive manufacturing for direct production of implants has eliminated the constraints of shape, size and internal structure and mechanical properties making it possible for the fabrication of implants that conform to the physical and mechanical requirements of the region of implantation. This article will review recent trends in 3D modeling and custom implants in craniofacial reconstruction.

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Section: The Process Flowmentioning

confidence: 99%

3D modeling, custom implants and its future perspectives in craniofacial surgery

Parthasarathy¹

2014

Ann Maxillofac Surg

332

220

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“…Ti was easily oxidized with a high melting point metal at 1668°C. The Ti powder sintering fusion is made of integration between particles in the high temperature [25,26]. It was difficult to combine Ti and HA powders when the sintering temperature was below 1000°C, because lower bond strength would be generated under such temperature.…”

Section: Discussionmentioning

confidence: 99%

Fabrication of Ti/HA composite and functionally graded implant by three-dimensional printing

Qian

Zhang

Sun

2015

Bio-Medical Materials and Engineering

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The aim of this study is to evaluate the feasibility of fabricating titanium(Ti)/hydroxyapatite(HA) composite and functionally graded implant by three-dimensional printing (3DP) technology. Nano-scale Ti and HA powders were mixed at the ratio of 8 : 2 and prepared with water-soluble binder. The Ti/HA composite CAD model was designed to be in cylinder shape (25 mm in diameter, 20 mm in height) with the 100% bond area in each layer. The functionally graded implant was 25 mm in diameter and 10 mm in height with two segments. The upper segment was composed of 100% Ti in each layer, whereas the lower was composed of 80%Ti/20%HA. The composite and functionally graded implant were fabricated by 3DP and sintered at 1200°C under protective argon atmosphere. There occurred a chemical reaction between Ti and HA, in which new resultants of Ca 3 (PO 4 ) 2 , CaTiO 3 , TiO 2 and CaO were created. The sintered Ti/HA composite had the aperture size from 50 to 150 µm and the compressive strength of 184.3 ± 27.1 MPa. The result of this study demonstrated that it was feasible to fabricate Ti/HA composite and functionally graded implant by 3DP technology. The microstructure and mechanical properties of Ti/HA composite and functionally graded implant were conductive to bone cell ingrowth, resulting in the wide application of this biocomposite.

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“…Use of 3D printing in dentistry includes the fabrication of implants (Xiong et al . ) and their surgical guides (Flügge et al . ), the fabrication of physical dental models (Liu et al .…”

Section: Introductionmentioning

confidence: 99%

A novel method for soft tissue retraction during periapical surgery using 3D technology: a case report

2016

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Fabrication of porous titanium implants by three-dimensional printing and sintering at different temperatures

Cited by 55 publications

References 13 publications

3D modeling, custom implants and its future perspectives in craniofacial surgery

3D modeling, custom implants and its future perspectives in craniofacial surgery

Fabrication of Ti/HA composite and functionally graded implant by three-dimensional printing

A novel method for soft tissue retraction during periapical surgery using 3D technology: a case report

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